US20130299513A1 - Tube dispensing device - Google Patents
Tube dispensing device Download PDFInfo
- Publication number
- US20130299513A1 US20130299513A1 US13/932,458 US201313932458A US2013299513A1 US 20130299513 A1 US20130299513 A1 US 20130299513A1 US 201313932458 A US201313932458 A US 201313932458A US 2013299513 A1 US2013299513 A1 US 2013299513A1
- Authority
- US
- United States
- Prior art keywords
- deformable
- tube
- dispensing tube
- contents
- section
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Abandoned
Links
- 238000007789 sealing Methods 0.000 claims description 30
- 239000012530 fluid Substances 0.000 claims description 8
- 239000000463 material Substances 0.000 description 36
- 239000011800 void material Substances 0.000 description 14
- 230000009467 reduction Effects 0.000 description 13
- 230000008901 benefit Effects 0.000 description 5
- 230000006835 compression Effects 0.000 description 5
- 238000007906 compression Methods 0.000 description 5
- 230000000694 effects Effects 0.000 description 5
- 230000003542 behavioural effect Effects 0.000 description 4
- 239000000499 gel Substances 0.000 description 4
- 238000004519 manufacturing process Methods 0.000 description 4
- 239000000126 substance Substances 0.000 description 4
- 238000000034 method Methods 0.000 description 3
- 230000008859 change Effects 0.000 description 2
- 230000001419 dependent effect Effects 0.000 description 2
- 229920001971 elastomer Polymers 0.000 description 2
- 239000006072 paste Substances 0.000 description 2
- 239000000470 constituent Substances 0.000 description 1
- 239000006071 cream Substances 0.000 description 1
- 239000000806 elastomer Substances 0.000 description 1
- 239000003292 glue Substances 0.000 description 1
- 230000005484 gravity Effects 0.000 description 1
- 239000007788 liquid Substances 0.000 description 1
- 239000000203 mixture Substances 0.000 description 1
- 238000000465 moulding Methods 0.000 description 1
- 238000004806 packaging method and process Methods 0.000 description 1
- 230000008569 process Effects 0.000 description 1
- 238000005096 rolling process Methods 0.000 description 1
- 238000007493 shaping process Methods 0.000 description 1
- 239000000606 toothpaste Substances 0.000 description 1
- 229940034610 toothpaste Drugs 0.000 description 1
- 230000007704 transition Effects 0.000 description 1
Images
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D35/00—Pliable tubular containers adapted to be permanently or temporarily deformed to expel contents, e.g. collapsible tubes for toothpaste or other plastic or semi-liquid material; Holders therefor
- B65D35/14—Pliable tubular containers adapted to be permanently or temporarily deformed to expel contents, e.g. collapsible tubes for toothpaste or other plastic or semi-liquid material; Holders therefor with linings or inserts
- B65D35/20—Pliable tubular containers adapted to be permanently or temporarily deformed to expel contents, e.g. collapsible tubes for toothpaste or other plastic or semi-liquid material; Holders therefor with linings or inserts for retracting contents
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D35/00—Pliable tubular containers adapted to be permanently or temporarily deformed to expel contents, e.g. collapsible tubes for toothpaste or other plastic or semi-liquid material; Holders therefor
- B65D35/24—Pliable tubular containers adapted to be permanently or temporarily deformed to expel contents, e.g. collapsible tubes for toothpaste or other plastic or semi-liquid material; Holders therefor with auxiliary devices
- B65D35/28—Pliable tubular containers adapted to be permanently or temporarily deformed to expel contents, e.g. collapsible tubes for toothpaste or other plastic or semi-liquid material; Holders therefor with auxiliary devices for expelling contents
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D35/00—Pliable tubular containers adapted to be permanently or temporarily deformed to expel contents, e.g. collapsible tubes for toothpaste or other plastic or semi-liquid material; Holders therefor
- B65D35/24—Pliable tubular containers adapted to be permanently or temporarily deformed to expel contents, e.g. collapsible tubes for toothpaste or other plastic or semi-liquid material; Holders therefor with auxiliary devices
- B65D35/28—Pliable tubular containers adapted to be permanently or temporarily deformed to expel contents, e.g. collapsible tubes for toothpaste or other plastic or semi-liquid material; Holders therefor with auxiliary devices for expelling contents
- B65D35/30—Pistons
Definitions
- This invention relates to dispensing of paste or gel like substances or any viscous or liquid substances, hereinafter referred to as the “contents” from flexible or deformable containers or tubes, hereinafter referred to as “deformable dispensing tubes”.
- the shape of the tube is generally circular in cross section at the end where an opening is formed for dispensing the contents.
- This formed open end of the deformable dispensing tube is hereinafter referred to as the “formed opening”.
- the formed opening has the ability to be opened and resealed by the user.
- the opposite end of the deformable dispensing tube to that of the formed opening is flattened and permanently sealed on manufacture or production.
- This flattened and sealed end of the deformable dispensing tube is hereinafter referred to as the “sealed end”.
- the area between the sealed end and the formed opening is the deformable part of the deformable dispensing tube and is hereinafter referred to as the “deformable body”.
- the tube is filled with the contents.
- the shape created by the above process has the advantage of allowing the user to dispense varying quantities of the contents by applying an external pressure to the tube such that part or all of the contents are moved towards the end with the formed opening, thereby dispensing the desired quantity of the contents through the formed opening.
- the deformable dispensing tube when the deformable dispensing tube is no longer completely full the contents can move away from the formed opening. This can make further dispensing awkward, requiring the user to manipulate the contents towards the formed opening, either by squeezing their fingers along the outside of the tube or by rolling the tube up from the sealed end towards the formed opening. Also it can be difficult to entirely dispense the last of the contents from such tubes.
- the contents may be sold in non-deformable dispensing tubes containing an internal piston to move the contents towards the opening for dispensing.
- This type of packaging has the disadvantage of being more complex and more expensive to produce than a deformable dispensing tube.
- An object of this invention is to enable easier dispensing of part or all of the contents of a flexible or deformable dispensing tube even when part or near empty.
- this invention provides a deformable dispensing tube with an internal device hereinafter referred to as “the device”.
- the device is contained within the deformable dispensing tube but is a separate physical entity to the deformable dispensing tube and has the ability to move within the deformable dispensing tube.
- the object of the device is to aid the dispensing of part or all of the contents of the deformable dispensing tube by the user.
- the deformable dispensing tube will have a formed opening, a sealed end and a deformable body.
- the device is inserted into the deformable dispensing tube such that the device is situated at the sealed end of the deformable dispensing tube.
- the contents are located in the area within the deformable dispensing tube between the device and the formed opening. This area in which the contents are located is hereinafter referred to as the “internal volume”. A small quantity of the contents may also be contained within the formed opening itself.
- the part of the device that sits nearest to the sealed end of the deformable dispensing tube will hereinafter be referred to as the “device tail”.
- the part of the device at the opposing end to the device tail is the section or face of the device that is presented to the contents within the deformable dispensing tube and this section or face of the device is hereinafter referred to as the “device top”.
- the consistent seal prevents any transgression by the contents so that the contents remain between the device top and the formed opening even under pressure.
- the consistent seal can be achieved through the shape of the device or material nature of the device or additional components fixed to the device or a combination of all three. Consequently the device may be rigid or flexible or a combination or mixture of both.
- the three dimensional shape of the device is such that it provides the stability needed to maintain the consistent seal.
- the cross section of the device where it creates the consistent seal with the deformable dispensing tube needs to match in shape and size or be able to match in shape or size the internal cross section of the deformable body at the end of the formed opening so that device not only maintains the consistent seal throughout the movement of the device within the deformable dispensing tube but also maximises the capacity of the internal volume.
- the shape and material nature of the device is such that at the point of sealing the deformable dispensing tube is forced to adapt to the shape of the device thereby providing the consistent seal throughout the movement of the device within the deformable dispensing tube.
- the shape and material nature of the device is such that the shape of the device is able to deform in keeping with any deformation caused to the deformable dispensing tube and thereby maintaining the consistent seal.
- both the device and the deformable dispensing tube when combined is such that the consistent seal is both created and maintained under any deformation or pressure.
- the cross section of the device changes or tapers along it's length from the device top to the device tail such that when the external pressure is applied by the user to the deformable dispensing tube at or near the location of the device there is a resultant force on the device in the direction of the formed opening and away from the sealed end of the deformable dispensing tube.
- This resultant force towards the formed opening will hereinafter referred to as the “resultant force”.
- the device will be shaped or will have features such that it will only physically move in the direction towards the formed opening and not in the direction towards the sealed end and this shaping or feature will hereinafter be referred to as the “non-return feature”.
- the device may be able to flex or deform in the direction of the formed opening and then return to its original un-flexed or un-deformed state.
- the device should be made of a material or materials that not only maintain the consistent seal within the deformable dispensing tube but also enable easy movement of the device within the deformable dispensing tube in the direction of the formed opening.
- the three dimensional form of the device top should match or have the ability to match the interior three dimensional form of the formed opening in a male to female manner such that the device top can enter the formed opening and thereby expel as much of the contents as is feasibly possible.
- the cross section of the device changes or tapers along its length from the device top towards the device tail in such a manner that allows or encourages the deformable dispensing tube to collapse or be deformed behind the device such that the then empty or near empty part of the deformable dispensing tube can deform to a flat or near flat state.
- the cross section of the device tail matches in shape and size the internal cross section at or near the sealed end of the deformable dispensing tube in order to minimise the length of the device and or the overall length of the deformable dispensing tube.
- the cross section of the deformable dispensing tube is ideally round at the end where the formed opening is created, although this cross section may also be oval, elliptical, or any polygon shape with or without radius-ed corners or edges.
- the internal pressure of the contents will in turn create an opposing force on the device hereinafter referred to as the “opposing force”.
- the opposing force will be in the direction of the sealed end and away from the formed opening.
- the internal pressure can also be created by the user applying an external pressure to the deformable tube in the area between the device and the formed opening. In such circumstances the opposing force will try to move the device in the direction of the sealed end however the non-return feature of the device will prevent any such movement.
- the internal pressure may also be created directly or indirectly by the user or by any remote means or by gravity.
- the internal pressure will also bear against the internal surfaces of the deformable dispensing tube, thereby forcing the internal volume of the deformable dispensing tube to its greatest capacity.
- the resultant force will act to move the device in the direction of the formed opening.
- the deformable dispensing tube is not sealed at the formed opening and the internal pressure is great enough some of the contents will be forced to flow through the formed opening. This flowing out of some of the contents will result in a reduction in the volume of the contents contained with the deformable dispensing tube. At this point the internal volume will be greater than the volume required by the remainder of the contents and as such a corresponding reduction in the internal pressure will result.
- the resultant reduction in internal pressure will result in a corresponding reduction in the opposing force.
- the reduction in the opposing force will create a change or increase in the stored force as the balance of the resultant force is no longer taken up by the opposing force but is directed through the device and against the internal frictional force. This change or increase in the stored force will result in further flexure or deformation of the device.
- the amount of flexure or deformation that the device is allowed to develop will be dictated by the design and material specification of the device. At all times the consistent seal will be maintained.
- the device may be so designed that it is effectively rigid and therefore no significant flexure or deformation of the device takes place under the forces developed as a consequence of the user applying an external pressure.
- the resultant force is greater than both the internal frictional force and the opposing force the device will begin to move in the direction of the resultant force, that is, in the direction of the formed opening.
- the internal device In moving towards the formed opening of the deformable dispensing tube the internal device will reduce the internal volume in line with the reduced volume of the remainder of contents contained within the deformable dispensing tube. In balancing the internal volume with the volume of the remainder of the contents in this way the internal pressure can be maintained at a level where the contents continue to flow through the formed opening.
- the device may be so designed that a significant flexure or deformation of the device takes place in the direction of the resultant force and towards the formed opening.
- the flexure or deformation of the device produced by the resultant force will hereinafter be referred to as the “deformed volume”.
- the creation and increasing size of the deformed volume will balance the reduced volume required by the remainder of the contents within the internal volume and so the internal pressure can be maintained at a level where the contents continue to flow through the formed opening.
- the deformed volume will increase in size until the device reaches its maximum designed state for the deformed volume.
- the deformed volume cannot balance any further reduction in volume of the remainder of the contents within the internal volume and in this instance if the resultant force remains greater than both the internal frictional force and the opposing force the device as a whole will begin to move in the direction of the resultant force, that is in the direction of the formed opening.
- the internal device In moving towards the formed opening of the deformable dispensing tube the internal device will reduce the internal volume in line with the reduced volume of the remainder of contents contained within the deformable dispensing tube. In balancing the internal volume with the volume of the remainder of the contents in this way the internal pressure can be maintained at a level where the contents continue to flow through the formed opening.
- the device will continue to move towards the formed opening thereby dispensing more or all of the contents.
- the device is one so designed as to be effectively rigid and have little or no deformed volume no further significant movement will take place.
- the device is one so designed as to have a deformed volume the flexure or deformation of the deformed volume will remain in place until the user reduces still further or even removes entirely the resultant force.
- the resultant force is reduced or removed in such a manner the stored force will act to return the device to its original un-deformed state and as such the deformed volume will retract and no longer make up the balance in the internal volume that it originally did.
- the internal volume however cannot sustain a vacuum and therefore the retraction of the deformed volume by the stored force will cause the device as a whole and the contents to be drawn together.
- the device and contents are drawn together in such a way the device can be so designed as to act in one of two ways or a combination of both.
- Either the device as a whole can move in the direction of the formed opening to make-up the space occupied by the deformed volume or alternatively the contents can be drawn or sucked back into the deformable dispensable tube to fill the space occupied by the deformed volume.
- This movement of the contents back into the deformable dispensing tube is hereinafter referred to as “content retraction”.
- the design of the device would allow for a small amount of content retraction combined with the device as a whole moving in the direction of the formed opening.
- the three dimensional form and physical or material nature of the device and its behavioural properties when within the deformable dispensing tube provides the ability of the device to maintain a consistent seal within a deformable dispensing tube and allows the device to act as an internal piston that can effectively dispense the contents from a deformable dispensing tube.
- the three dimensional form and physical or material nature of the device and its behavioural properties when within the deformable dispensing tube allows an external pressure or force applied by the user to the deformable dispensing tube to be translated into forces or pressure or movement within the deformable dispensing tube or within the device itself such that the contents can be effectively dispensed.
- the resultant force is indirectly created and controlled by the user, the user is able to dispense varying quantities of the contents and at varying rates and at will.
- the combination of the device being able to move internally within the deformable dispensing tube combined with the non-return feature or features of the device preventing the device from moving back in the direction of the sealed end provides the advantage of the contents always being presented correctly to the formed opening for easy and immediate dispensing even when the deformable dispensing tube is part or near empty. Therefore awkwardness of further dispensing requiring the user to manipulate the contents towards the formed opening is removed.
- the non-return feature or features of the device prevent the device from moving back in the direction of the sealed end and so provides the advantage of the contents still being dispensed even when the user applies the external force in the area between the device top and the formed opening.
- the three dimensional form and physical or material nature of the device top and its behavioural properties allow the device top to match or have the ability to match the interior three dimensional form of the formed opening and thereby ensure that as much of the contents are expelled from the deformable dispensing tube as is feasibly possible.
- the three dimensional form and physical or material nature of the device and its behavioural properties when within the deformable dispensing tube create the content retraction effect that provides the advantage of alleviating or removing the aspect of excess contents being left around the formed opening after use. This is particularly advantageous for resealing the formed opening and the overall hygiene of the product.
- FIGS. 1 through to 19 One specific embodiment of the invention, titled Embodiment A, will now be described by way of example only with reference to the accompanying drawings, FIGS. 1 through to 19 only.
- FIG. 1 shows a perspective view of the deformable dispensing tube 1 .
- FIG. 2 shows a perspective view of the deformable dispensing tube 1 with the deformable dispensing tube 1 illustrated in 3 sections:—the formed opening 4 , the sealed end 3 , and the deformable body 2 .
- FIG. 3 shows a front view of the deformable dispensing tube 1 .
- FIG. 4 shows a side view of the deformable dispensing tube 1 .
- FIG. 5 shows a section through the deformable dispensing tube 1 from a front view of the deformable dispensing tube 1 .
- FIG. 6 shows a perspective view of the device 8 .
- FIG. 7 shows a perspective view of the device 8 with the device 8 illustrated in 3 sections; the device tail 10 , the device body 11 and the device top 9 .
- FIG. 8 shows a side view of the device 8 .
- FIG. 9 shows a front view of the device 8 .
- FIG. 10 shows a section through the deformable dispensing tube 1 from a side view of the deformable dispensing tube 1 with the device 8 in place at the sealed end 3 and the internal volume 25 within the deformable dispensing tube 1 .
- FIG. 11 shows a section through the deformable dispensing tube 1 from a side view of the deformable dispensing tube 1 with the device 8 in place at the sealed end 3 and the contents 16 within the deformable dispensing tube 1 .
- FIG. 12 shows a section through the deformable dispensing tube 1 from a front view of the deformable dispensing tube 1 with the device 8 in place at the sealed end 3 and the internal volume 25 within the deformable dispensing tube 1 .
- FIG. 13 shows a section through the deformable dispensing tube 1 from a front view of the deformable dispensing tube 1 with the device 8 in place at the sealed end 3 and the contents 16 within the deformable dispensing tube 1 .
- FIG. 14 shows a section through the deformable dispensing tube 1 from a side view of the deformable dispensing tube 1 with the device 8 in place at the sealed end 3 with external forces 19 acting.
- FIG. 15 shows a section through the deformable dispensing tube 1 from a side view of the deformable dispensing tube 1 with the device 8 in place at a point halfway between the sealed end 3 and the formed opening 4 with external forces 19 acting.
- FIG. 16 shows a section through the deformable dispensing tube 1 from a side view of the deformable dispensing tube 1 with the device 8 in place at a point halfway between the sealed end 3 and the formed opening 4 with external forces 24 acting.
- FIG. 17 shows a section through the deformable dispensing tube 1 from a front view of the deformable dispensing tube 1 with the device 8 in place at a point halfway between the sealed end 3 and the formed opening 4 with external forces 24 acting.
- FIG. 18 shows a section through the deformable dispensing tube 1 from a side view of the deformable dispensing tube 1 with the device 8 in place at the formed opening 4 .
- FIG. 19 shows a section through the deformable dispensing tube 1 from a front view of the deformable dispensing tube 1 with the device 8 in place at the formed opening 4 .
- Embodiment A of the invention is a device, hereinafter referred to as the device 8 , provided as a separate insert to existing deformable dispensing tubes.
- the device 8 A description of a typical deformable dispensing tube is given in reference to the inclusion and working of the device 8 .
- Such a deformable dispensing tube will hereinafter referred to as the deformable dispensing tube 1 .
- the deformable dispensing tube 1 has a deformable body 2 , which is hollow. At one end of the deformable body 2 is a sealed end 3 and at the opposing end of the deformable body 2 is a formed opening 4 , which is hollow. Although shown separated in FIG. 2 for clarity the deformable body 2 , the sealed end 3 and the formed opening 4 form the deformable dispensing tube 1 as a homogenous whole when the deformable dispensing tube 1 is in its finished manufactured state.
- the formed opening 4 has at one end a formed orifice 5 for the opening and re-sealing the formed opening 4 , thereby allowing the dispensing of the contents 16 of the deformable dispensing tube 1 .
- the formed opening 4 transforms in shape and size from the formed orifice 5 into a larger shape where it meets the deformable body 2 .
- the meeting point of the formed opening 4 and the deformable body 2 is herein after referred to as cross-section 6 and is shown hatched on FIG. 2 and is referenced by the line I-I on FIG. 3 and by the line I-I on FIG. 4 .
- the formed opening 4 varies in rigidity and is substantially more rigid than the deformable body 2 , thereby forcing the deformable body 2 to adopt the same shape and size at cross-section 6 .
- the sealed end 3 is formed by flattening and then permanently sealing or fusing together the material of the deformable dispensing tube 1 at that point such that an internal volume or space can no longer exist within the deformable dispensing tube 1 .
- cross-section 7 The hollow cross section formed by the deformable body 2 in the area just before it becomes part of the sealed end 3 is hereinafter referred to as cross-section 7 and is shown hatched on FIG. 2 and is referenced by the line II-II on FIG. 3 and by the line II-II on FIG. 4 .
- the volume between cross-section 7 and the sealed end 3 is hereinafter referred to as the void 17 .
- the deformable body 2 therefore transforms in shape from the cross-section 6 to the cross-section 7 along the length of the deformable body 2 thereby giving the deformable body 2 an internal volume.
- the device 8 is a formed three-dimensional moulded shape and is mostly rigid or substantially more rigid than the deformable body 2 .
- the device 8 comprises the device top 9 , the device tail 10 , and the device body 11 . Although shown separated in FIG. 7 for clarity the device top 9 , the device tail 10 , and the device body 11 form the device 8 as a homogenous whole.
- the device tail 10 has at its widest point the cross-section 14 shown hatched on FIG. 7 and is referenced by the line IV-IV on FIG. 8 and by the line IV-IV on FIG. 9 .
- the device tail 10 also has two non-return features 26 .
- the non-return features 26 may be integrally moulded to the device 8 or may be formed as separate parts from alternative materials.
- the device top 9 consists of the device plug 12 that transforms into the larger cross-section 13 at the device top 9 's widest rigid point.
- the cross-section 13 is shown hatched on FIG. 7 and is referenced by the line III-III on FIG. 8 and by the line III-III on FIG. 9 .
- a flexible seal 15 At or near the cross-section 13 is a flexible seal 15 .
- the flexible seal 15 may be integrally moulded to the device 8 or may be formed as a separate part from alternative materials.
- the flexible seal 15 will be of similar shape to cross-section 13 but of slightly larger size than the cross-section 13 .
- the device body 11 transforms smoothly in shape from the cross-section 13 to the cross-section 14 .
- the device tail 10 is formed from the cross-section 14 tapering or rounding into an end in the direction directly away from the device top 9 , as shown in FIGS. 7 , 8 and 9 .
- the shape and size of the device tail 10 is such that it will fit into the void 17 when the device 8 is in place within the deformable dispensing tube 1 at the sealed end 3 .
- the cross-section 14 at the device tail 10 matches in shape and size the internal shape and internal size of cross-section 7 of the deformable dispensing tube 1 .
- the cross-section 14 at the device tail 10 forces the deformable body 2 to adopt an internal cross-section the same shape and size as the cross-section 14 at any point along the deformable body 2 's length at which the device tail 10 and the deformable body 2 are in contact.
- the cross-section 13 at the device top 9 matches in shape and size the internal shape and internal size of the cross-section 6 of the deformable dispensing tube 1 .
- the cross-section 13 at the device top 9 forces the internal cross-section of the deformable body 2 to adopt to the same shape and size as the cross-section 13 at any point along the deformable body 2 's length at which the device top 9 and the deformable body 2 are in contact.
- FIG. 10 and FIG. 12 show the device 8 situated inside of the deformable dispensing tube 1 at the sealed end 3 .
- the internal volume 25 is created inside the deformable dispensing tube 1 between the device top 9 and the formed opening 4 .
- the contents 16 are contained within internal volume 25 and partly with the formed opening 4 as shown in FIG. 11 and FIG. 13 .
- the void 17 will be partly occupied with the device tail 10 .
- the fit between the internal surface of the deformable body 2 and the cross-section 13 of the device 8 is such that a seal is formed between the internal surface of the deformable body 2 and the device 8 thereby preventing any transgression by the contents 16 even when under pressure.
- the flexible seal 15 When as part of the assembly that makes device 8 and not under any pressure or force, the flexible seal 15 will be of similar shape to cross-section 13 but of slightly larger size than the cross-section 13 . It follows that the cross-section of the flexible seal 15 is also slightly larger than the internal cross-section of the deformable body 2 formed by the presence of the device 8 within the deformable body 2 .
- the flexible seal 15 is compressed to fit within the internal cross-section of the deformable body 2 .
- the flexible seal 15 having been compressed to fit within the deformable dispensing tube 1 is under pressure against the internal surface of the deformable body 2 thereby providing enhanced or further sealing against any transgression by the contents 16 while still allowing the device 8 to move freely within the dispensing tube 1 .
- the non-return features 26 are flexible parts that have external dimensions greater than those of the cross-section 14 and the corresponding cross-section 7 into which they must fit.
- the non-return features 26 are compressed to fit within the cross-section 7 in such a manner that if the device 8 is moved in the direction of the formed opening 4 the non-return features compress further thereby allowing the device 8 to move freely within the dispensing tube 1 in the direction of the formed opening 4 .
- the non-return features 26 are compressed to fit within the cross-section 7 in such a manner that if the device 8 is moved in the direction of the sealed end 3 the non-return features 26 are forced against or into the internal surface of the deformable dispensing tube 1 thereby locking the device 8 at that point and preventing the device 8 from moving any further in the direction of the sealed end 3 .
- the outer shape of the device top 9 will be of such a shape and size that it can move inside of the formed opening 4 of the deformable dispensing tube 1 in such a manner that it expels as much of the contents 16 as is feasible, as shown in FIG. 18 and FIG. 19 .
- the device plug 12 of the device top 9 will be of such a shape and size that it can move inside of the formed orifice 5 while still allowing the contents 16 to be expelled, as shown in FIG. 18 and FIG. 19 .
- the device 8 features tapered surfaces 27 .
- the tapered surfaces 27 are formed by the smooth transition from the cross-section 13 to the cross-section 14 .
- the user applies external pressure directly or indirectly to the outside of the deformable dispensing tube 1 as shown by the arrows at 19 on FIGS. 14 and 15 .
- a result of the external pressure 19 is to create the resultant force 20 acting on the device 8 in the direction of the formed opening 4 .
- the resultant force 20 in turn acts through the device 8 onto the contents 16 thereby creating an internal pressure 21 within contents 16 contained within the deformable dispensing tube 1 .
- the internal pressure 21 will create an opposing force 23 on the device 8 .
- the opposing force 23 resists the resultant force 20 and acts to move the device 8 in the direction towards the sealed end 3 but any such movement is resisted by the non-return features 26 .
- the internal pressure 21 will force the contents 16 to be expelled through the formed orifice 5 , as arrowed 22 .
- the internal pressure 21 will reduce with a corresponding reduction in the opposing force 23 .
- the resultant force 20 will be larger than the opposing force 23 created by the internal pressure 21 of the contents 16 .
- the internal pressure 21 will be maintained at a level where the contents 16 will continue to be expelled through the formed orifice 5 and void 17 will increase in size leaving the deformable body 2 empty and in a flat or near flat state, as shown in FIG. 15 .
- the internal pressure 21 can also be created by an external force 24 on the deformable body 2 between the formed opening 4 and the location of the device 8 .
- the opposing force 23 can act to move the device 8 away from the formed opening 4 and towards the sealed end 3 .
- the non-return features 26 are so designed as to prevent the device 8 moving in the direction of the sealed end 3 and therefore the internal pressure 21 generated by an external force at 24 will also result in the contents 16 being expelled through the formed orifice 5 , as arrowed at 22 .
- the shape and size of the device top 9 corresponding to the internal shape and internal size of the formed opening 4 allows the device top 9 to move inside the formed opening 4 in such a manner that as much of the contents 16 are expelled as is feasibly possible.
- the device plug 12 is of such a shape and size that the contents 16 are still able to flow through the formed orifice 5 even when the device plug 12 has moved inside of the formed orifice 5 , as shown in FIG. 18 and FIG. 19 .
- the user is able to vary the external pressure 19 or 24 in such a manner that the user can then control the rate at which the contents 16 are expelled.
- the contents 16 will always remain in the area of the formed opening 4 ready for further use.
- FIGS. 1 through to 5 only and additional FIGS. 20 through to 38 only.
- FIG. 1 shows a perspective view of the deformable dispensing tube 1 .
- FIG. 2 shows a perspective view of the deformable dispensing tube 1 with the deformable dispensing tube 1 illustrated in 3 sections:—the formed opening 4 , the sealed end 3 , and the deformable body 2 .
- FIG. 3 shows a front view of the deformable dispensing tube 1 .
- FIG. 4 shows a side view of the deformable dispensing tube 1 .
- FIG. 5 shows a section through the deformable dispensing tube 1 from a front view of the deformable dispensing tube 1 .
- FIG. 20 shows a perspective view of the device 8 looking at the device top 9 .
- FIG. 21 shows a perspective view of the device 8 looking at the device tail 10 .
- FIG. 22 shows a perspective view of the device 8 looking at the device tail 10 with the device 8 illustrated in 2 parts for clarity: the rigid frame 29 and the deformable centre 28 .
- FIG. 23 shows a perspective view of the deformable centre 28 looking from the direction of the device tail 10 with the deformable body 16 illustrated in 2 parts for clarity: the device body 11 and the device top 9 .
- FIG. 24 shows a side view of the device 8 .
- FIG. 25 shows a section through the device 8 taken from the side.
- FIG. 26 shows a front view of the device 8 .
- FIG. 27 shows a section through the deformable dispensing tube 1 from a side view of the deformable dispensing tube 1 with the device 8 in place at the sealed end 3 and the internal volume 25 within the deformable dispensing tube 1 .
- FIG. 28 shows a section through the deformable dispensing tube 1 from a side view with the device 8 in place at the sealed end 3 and the contents 16 within deformable dispensing tube 1 .
- FIG. 29 shows a section through the deformable dispensing tube 1 from a front view of the deformable dispensing tube 1 with the device 8 in place at the sealed end 3 and the internal volume 25 within the deformable dispensing tube 1 .
- FIG. 30 shows a section through the deformable dispensing tube 1 from a front view with the device 8 in place at the sealed end 3 and the contents 16 within the deformable dispensing tube 1 .
- FIG. 31 shows a section through the deformable dispensing tube 1 from a side view of the deformable dispensing tube 1 with the device 8 in place at the sealed end 3 , the orifice 5 sealed and external forces 19 acting.
- FIG. 32 shows a section through the deformable dispensing tube 1 from a side view of the deformable dispensing tube 1 with the device 8 in place at the sealed end 3 , the orifice 5 un-sealed and external forces 19 acting.
- FIG. 33 shows a section through the deformable dispensing tube 1 from a side view of the deformable dispensing tube 1 with the device 8 in place at a point approximately halfway between the sealed end 3 and the formed opening 4 , the orifice 5 un-sealed and external forces 19 acting.
- FIG. 34 shows a section through the deformable dispensing tube 1 from a side view of the deformable dispensing tube 1 with the device 8 in place at a point approximately halfway between the sealed end 3 and the formed opening 4 , the orifice 5 un-sealed and pressure 24 acting.
- FIG. 35 shows a section through the deformable dispensing tube 1 from a front view of the deformable dispensing tube 1 with the device 8 in place at a point approximately halfway between the sealed end 3 and the formed opening 4 , the orifice 5 un-sealed and pressure 24 acting.
- FIG. 36 shows a section through the deformable dispensing tube 1 from a side view of the deformable dispensing tube 1 with the device 8 in place at the formed opening 4 , the orifice 5 un-sealed and external forces 19 acting.
- FIG. 37 shows a section through the deformable dispensing tube 1 from a front view of the deformable dispensing tube 1 with the device 8 in place at the formed opening 4 , the orifice 5 un-sealed.
- FIG. 38 shows a section through the deformable dispensing tube 1 from a side view of the deformable dispensing tube 1 with the device 8 in place at a point approximately halfway between the sealed end 3 and the formed opening 4 with content retraction 34 acting.
- Embodiment B of the invention is a device, hereinafter referred to as the device 8 , provided as a separate insert to existing deformable dispensing tubes.
- the device 8 A description of a typical deformable dispensing tube is given in reference to the inclusion and working of the device 8 .
- Such a deformable dispensing tube will hereinafter referred to as the deformable dispensing tube 1 .
- the deformable dispensing tube 1 has a deformable body 2 , which is hollow. At one end of the deformable body 2 is a sealed end 3 and at the opposing end of the deformable body 2 is a formed opening 4 , which is hollow. Although shown separated in FIG. 2 for clarity the deformable body 2 , the sealed end 3 and the formed opening 4 form the deformable dispensing tube 1 as a homogenous whole when the deformable dispensing tube 1 is in its finished manufactured state.
- the formed opening 4 has at one end a formed orifice 5 for the opening and re-sealing the formed opening 4 , thereby allowing the dispensing of the contents 16 of the deformable dispensing tube 1 .
- the formed opening 4 transforms in shape and size from the formed orifice 5 into a larger shape where it meets the deformable body 2 .
- the meeting point of the formed opening 4 and the deformable body 2 is herein after referred to as cross-section 6 and is shown hatched on FIG. 2 and is referenced by the line I-I on FIG. 3 and by the line I-I on FIG. 4 .
- the formed opening 4 varies in rigidity and is substantially more rigid than the deformable body 2 , thereby forcing the deformable body 2 to adopt the same shape and size at cross-section 6 .
- the sealed end 3 is formed by flattening and then permanently sealing or fusing together the material of the deformable dispensing tube 1 at that point such that an internal volume or space can no longer exist within the deformable dispensing tube 1 .
- cross-section 7 The hollow cross section formed by the deformable body 2 in the area just before it becomes part of the sealed end 3 is hereinafter referred to as cross-section 7 and is shown hatched on FIG. 2 and is referenced by the line II-II on FIG. 3 and by the line II-II on FIG. 4 .
- the volume between cross-section 7 and the sealed end 3 is hereinafter referred to as the void 17 .
- the deformable body 2 therefore transforms in shape from the cross-section 6 to the cross-section 7 along the length of the deformable body 2 thereby giving the deformable body 2 an internal volume.
- the device 8 is a formed three-dimensional moulded part that combines a rigid frame 29 with a deformable centre 28 . It is envisaged that the rigid frame 29 and the deformable centre 28 will form a co-moulding although they could equally be moulded as separate parts and subsequently assembled together.
- FIG. 22 shows the device 8 with the deformable centre 28 and the rigid frame 29 separated for clarity.
- the deformable centre 28 comprises the device top 9 and the device body 11 that have been shown separated in FIG. 23 for clarity.
- the deformable centre 28 will be made from a material or materials that will allow it to be compressed in one direction while correspondingly expanding or elongating in another direction.
- a suitable material may be an elastomer material, a foamed rubber material, a gel type material, a formed outer skin with a fluid or gel filled centre or any combination of such.
- the rigid frame 29 comprises the device tail 10 , the tapered walls 27 , the device collar 30 and the non-return features 26 .
- the rigid frame 29 will most likely be moulded from plastic.
- the device tail 10 has at its widest point the cross-section 14 shown hatched on FIG. 22 and FIG. 23 and is referenced by the line IV-IV on FIG. 24 , the line IV-IV on FIG. 25 and by the line IV-IV on FIG. 26 . It is at the device tail that the non-return features 26 are located.
- the non-return features 26 may be integrally moulded to the rigid frame 29 or may be formed as separate parts from alternative materials.
- the device collar 30 has an outer circumference that is coincident with the cross section 13 on the deformable centre 28 when the two parts are moulded or assembled together.
- the cross-section 13 is shown hatched on FIG. 22 and FIG. 23 and is referenced by the line III-III on FIG. 24 , the line III-III on FIG. 25 and by the line III-III on FIG. 26 .
- the tapered walls 27 run from the device collar 30 to the device tail 10 shown in FIG. 22 .
- the device top 9 and the device body 11 are described separately for clarity but are a single homogenous part.
- the device top 9 consists of the device plug 12 that transforms into the larger flexible seal 15 before reducing slightly to the cross-section 13 that has an outer circumference that is coincident with the outer circumference of the device collar 30 on the rigid frame 29 when the two parts are moulded or assembled together.
- the cross-section 13 is shown hatched on FIG. 22 and FIG. 23 and is referenced by the line III-III on FIG. 24 , the line III-III on FIG. 25 and by the line III-III on FIG. 26 .
- the flexible seal 15 will be of similar shape to the cross-section 13 but of slightly larger size than the cross-section 13 .
- the device collar 10 has an aperture within it through will the device body 11 is located.
- the device body 11 sits within the dimensions of the cross section 13 and transforms smoothly to meet the device tail 10 as shown in FIG. 20 and FIG. 21 .
- the rigid frame 29 and the deformable centre 28 are moulded together or assembled together the tapered walls 27 sit within the volume or outline of the device body 11 as illustrated by the dashed lines of the tapered wall in FIGS. 21 , 24 and 25 .
- the device tail 10 is formed from the cross-section 14 tapering or rounding into an end in the direction directly away from the device collar 30 , as shown in FIGS. 22 and 26 .
- the shape and size of the device tail 10 is such that it will fit into the void 17 when the device 8 is in place within the deformable dispensing tube 1 at the sealed end 3 as shown in FIG. 27 and FIG. 29 .
- the cross-section 14 at the device tail 10 matches in shape and size the internal shape and internal size of the cross-section 7 of the deformable dispensing tube 1 .
- the cross-section 14 at the device tail 10 forces the deformable body 2 to adopt an internal cross-section the same shape and size as the cross-section 14 at any point along the deformable body 2 's length at which the device tail 10 and the deformable body 2 are in contact or are coincident.
- the device collar 30 and corresponding cross-section 13 match in shape and size the internal shape and internal size of the cross-section 6 of the deformable dispensing tube 1 .
- the device collar 30 and corresponding cross-section 13 force the internal cross-section of the deformable body 2 to adopt to the same shape and size as the device collar 30 at any point along the deformable body 2 's length at which the device collar 30 and the deformable body 2 are in contact or are coincident.
- FIG. 27 and FIG. 29 show the device 8 situated inside of the deformable dispensing tube 1 at the sealed end 3 .
- the internal volume 25 is created inside the deformable dispensing tube 1 between the device top 9 and the formed opening 4 .
- the contents 16 are contained within the internal volume 25 and partly within the formed opening 4 as shown in FIG. 28 and FIG. 30 .
- the void 17 will be partly occupied with the device tail 10 .
- the fit between the internal surface of the deformable body 2 and the collar 30 of the device 8 is such that a seal is formed between the internal surface of the deformable body 2 and the device 8 thereby preventing any transgression by the contents 16 even when under pressure.
- the flexible seal 15 When as part of the assembly that makes device 8 and not under any pressure or force, the flexible seal 15 will be of similar shape to cross-section 13 but of slightly larger size than the cross-section 13 . It follows that the cross-section of the flexible seal 15 is also slightly larger than the internal cross-section of the deformable body 2 formed by the presence of the device 8 within the deformable body 2 .
- the flexible seal 15 is compressed to fit within the internal cross-section of the deformable body 2 .
- the flexible seal 15 having been compressed to fit within the deformable dispensing tube 1 is under pressure against the internal surface of the deformable body 2 thereby providing enhanced or further sealing against any transgression by the contents 16 while still allowing the device 8 to move freely within the dispensing tube 1 .
- the non-return features 26 are flexible parts that have external dimensions greater than those of the cross-section 14 and the corresponding cross-section 7 into which they must fit.
- the non-return features 26 are compressed to fit within the cross-section 7 in such a manner that if the device 8 is moved in the direction of the formed opening 4 the non-return features are compressed further thereby still allowing the device 8 to move freely within the dispensing tube 1 .
- the non-return features 26 are forced against or into the internal surface of the deformable dispensing tube 1 thereby locking the device 8 at that point and preventing the device 8 from moving any further in the direction of the sealed end 3 .
- the outer shape of the device top 9 will be of such a shape and size or can deform to such a shape and size that it can move inside of the formed opening 4 of the deformable dispensing tube 1 in such a manner that it expels as much of the contents 16 as is feasible, as shown in FIG. 36 and FIG. 37 .
- the device plug 12 of the device top 9 will be of such a shape and size or can deform to such a shape and size that it can move inside of the formed orifice 5 while still allowing the contents 16 to be expelled, as shown in FIG. 36 and FIG. 37 .
- the user applies external pressure directly or indirectly to the outside of the deformable dispensing tube 1 as indicated by the arrows at 19 .
- a result of the external pressure 19 acting on the device 8 through the deformable dispensing tube 1 will be to create a resultant force 20 within the device 8 in the direction of the formed opening 4 .
- the resultant force 20 in turn acts through the device 8 onto the contents 16 thereby creating an internal pressure 21 within contents 16 contained within the deformable dispensing tube 1 .
- the cap 35 is shown as a method of sealing the orifice 5 .
- the deformable centre 28 In order to transfer the external pressure 19 into the resultant force 20 that acts on the contents 16 the deformable centre 28 will become subject to internal forces or internal pressure 31 hereinafter referred to as the “device pressure 31 ”.
- a further result of the external pressure 19 will be to compress or distort the deformable centre 28 as shown in FIG. 31 .
- This compression or distortion is illustrated by the differing outlines of the non-compressed deformable dispensing tube 1 in FIG. 28 compared with the compressed deformable dispensing tube 1 in FIG. 31 .
- This compression or distortion is also illustrated by the differing outlines between the dashed lines of the non-compressed deformable dispensing tube 1 indicated at 19 on FIG. 31 and the new outlines of both the deformable dispensing tube 1 and the deformable centre 28 also shown on FIG. 31 .
- the device 8 is so designed that when the device 8 is in the afore-mentioned compressed or distorted state the resultant outer three-dimensional form the device 8 adopts is such that the external pressure 19 continues to produce the resultant force 20 .
- the internal pressure 21 will create an opposing force 23 on the device 8 .
- An internal friction force 18 occurs between the device 8 and the internal surfaces of the deformable dispensing tube 1 .
- the opposing force 23 combines with the internal friction force 18 to resist the resultant force 20 .
- the volume required to contain the remaining contents 16 will be reduced which in turn will create a corresponding reduction in the internal pressure 21 .
- the resultant force 20 will not be balanced by the opposing force 23 and so will cause the deformable centre 28 to distort into the internal volume 25 .
- the distortion of the deformable centre 28 in the direction of the resultant force 20 and towards the formed opening 4 will hereinafter be referred to as the “deformed volume 33 ” and is indicated as 33 in FIG. 32 .
- the distortion of the deformable centre 28 will result in additional forces being created or stored in the material of the deformable centre 28 , these additional forces will hereinafter be referred to as the “stored force 32 ” and are represented by the arrows at 32 in FIG. 31 and FIG. 32 .
- the deformed volume 33 will continue to distort until the stored force 32 combined with the opposing force 23 balances with the resultant force 20 and the forces are in equilibrium.
- the deformed volume 33 may reach its maximum designed state of distortion at which point if the resultant force 20 is great enough it will also begin to overcome the internal friction force 18 and the device 8 as a whole unit will begin to move forward within the deformable dispensing tube 1 in the direction of the resultant force 20 , that is towards the formed opening 4 .
- the tapered walls 27 provide a means by which the external pressure 19 can be limited in its distorting effect on the deformable centre 28 .
- the device 8 By moving forward in this manner the device 8 will reduce the size of the internal volume 25 in line with the reduction in the volume of the remainder of the contents 16 and thereby maintain the internal pressure 21 at a level where the contents 16 will continue to be expelled through the formed orifice 5 .
- the void 17 will increase in length leaving the deformable body 2 empty and in a flat or near flat state around the void 17 , as shown in FIG. 33 .
- the shape and size of the device top 9 will distort to correspond to the internal shape and internal size of the formed opening 4 in such a manner that as much of the contents 16 are expelled as is feasibly possible.
- the device plug 12 is of such a shape and size or is able to distort to such a shape and size that the contents 16 are still able to flow through the formed orifice 5 even when the device plug 12 has moved inside of the formed orifice 5 , as also shown in FIG. 36 and FIG. 37 .
- the user is able to vary the external pressure 19 in such a manner that the user can then control the rate at which the contents 16 are expelled.
- the device 8 as a whole unit will stop moving and consequently the contents 16 will cease to flow.
- the stored force 32 will retract the deformed volume 33 to its original state. At this point one of two alternatives or a combination of both can occur by design.
- Either the device 8 as a whole unit can move in the direction of the formed opening 4 to fill the space occupied by the deformed volume 33 .
- the contents 16 can be drawn or retracted back into the deformable dispensable tube 1 to fill the space occupied by the deformed volume 33 .
- This movement of the contents 16 back into the deformable dispensing tube is hereinafter referred to as “content retraction 34 ” as is shown by arrow 34 in FIG. 38 .
- the internal pressure 21 can also be created by an external force at 24 on the deformable body 2 between the formed opening 4 and the location of the device 8 .
- the consequent opposing force 23 can act to move the device 8 as a whole unit in the direction of the opposing force 23 and towards the sealed end 3 .
- the non-return features 26 will prevent the device 8 moving in the direction of the sealed end 3 . Consequently the opposing force 23 will act on the deformable centre 28 to make it distort in the direction of the opposing force 23 .
- the location of the deformable centre 28 to the rigid frame 29 and the constraint of the deformable body 2 will prevent any distortion or compression in the direction of the opposing force 23 . Therefore if the formed orifice 5 is un-sealed the internal pressure 21 generated by an external force at 24 will result in the contents 16 being expelled through the formed orifice 5 , as arrowed at 22 .
- the device 8 As the device 8 is prevented from moving back towards the sealed end 3 by the non-return features 26 the contents 16 will always presented correctly to the formed opening 4 ready for further use.
- FIG. 1 shows a perspective view of the deformable dispensing tube 1 .
- FIG. 2 shows a perspective view of the deformable dispensing tube 1 with the deformable dispensing tube 1 illustrated in 3 sections:—the formed opening 4 , the sealed end 3 , and the deformable body 2 .
- FIG. 3 shows a front view of the deformable dispensing tube 1 .
- FIG. 4 shows a side view of the deformable dispensing tube 1 .
- FIG. 5 shows a section through the deformable dispensing tube 1 from a front view of the deformable dispensing tube 1 .
- FIG. 39 shows a perspective view of the device 8 looking at the device top 9 .
- FIG. 40 shows a perspective view of the device 8 looking at the device top 9 with the device 8 illustrated as 3 sections for clarity; the device top 9 , the device tail 10 and the device body 11 .
- FIG. 41 shows the device top 9 separated from the rest of the device 8 for reasons of clarity.
- FIG. 42 shows a side view of the device 8 .
- FIG. 43 shows a section through the device 8 taken from the side view.
- FIG. 44 shows a front view of the device 8 .
- FIG. 45 shows a section through the deformable dispensing tube 1 from a side view of the deformable dispensing tube 1 with the device 8 (also sectioned) in place at the sealed end 3 and the internal volume 25 within the deformable dispensing tube 1 .
- FIG. 46 shows a section through the deformable dispensing tube 1 from a side view with the device 8 (also sectioned) in place at the sealed end 3 , the orifice 5 sealed and the contents 16 within deformable dispensing tube 1 .
- FIG. 47 shows a section through the deformable dispensing tube 1 from a front view of the deformable dispensing tube 1 with the device 8 in place at the sealed end 3 and the internal volume 25 within the deformable dispensing tube 1 .
- FIG. 48 shows a section through the deformable dispensing tube 1 from a front view with the device 8 in place at the sealed end 3 , the orifice 5 sealed and the contents 16 within the deformable dispensing tube 1 .
- FIG. 49 shows a section through the deformable dispensing tube 1 from a side view of the deformable dispensing tube 1 with the device 8 in place at the sealed end 3 with external forces 19 acting and the orifice 5 sealed.
- FIG. 50 shows a section through the deformable dispensing tube 1 from a side view of the deformable dispensing tube 1 with the device 8 in place at the sealed end 3 with external forces 19 acting and the orifice 5 un-sealed.
- FIG. 51 shows a section through the deformable dispensing tube 1 from a side view of the deformable dispensing tube 1 with the device 8 in place at a point approximately halfway between the sealed end 3 and the formed opening 4 , with external pressure 19 acting and the orifice 5 un-sealed.
- FIG. 52 shows a section through the deformable dispensing tube 1 from a side view of the deformable dispensing tube 1 with the device 8 in place at a point approximately halfway between the sealed end 3 and the formed opening 4 with pressure 24 acting and the orifice 5 un-sealed.
- FIG. 53 shows a section through the deformable dispensing tube 1 from a front view of the deformable dispensing tube 1 with the device 8 in place at a point approximately halfway between the sealed end 3 and the formed opening 4 with pressure 24 acting and the orifice 5 un-sealed.
- FIG. 54 shows a section through the deformable dispensing tube 1 from a side view of the deformable dispensing tube 1 with the device 8 (also sectioned) in place at the formed opening 4 and the orifice 5 un-sealed.
- FIG. 55 shows a section through the deformable dispensing tube 1 from a front view of the deformable dispensing tube 1 with the device 8 in place at the formed opening 4 and the orifice 5 un-sealed.
- FIG. 56 shows a section through the deformable dispensing tube 1 from a side view of the deformable dispensing tube 1 with the device 8 in place at a point approximately halfway between the sealed end 3 and the formed opening 4 with content retraction 34 acting.
- Embodiment C of the invention is a device, hereinafter referred to as the device 8 , provided as a separate insert to existing deformable dispensing tubes.
- the device 8 A description of a typical deformable dispensing tube is given in reference to the inclusion and working of the device 8 .
- Such a deformable dispensing tube will hereinafter referred to as the deformable dispensing tube 1 .
- the deformable dispensing tube 1 has a deformable body 2 , which is hollow. At one end of the deformable body 2 is a sealed end 3 and at the opposing end of the deformable body 2 is a formed opening 4 , which is hollow. Although shown separated in FIG. 2 for clarity the deformable body 2 , the sealed end 3 and the formed opening 4 form the deformable dispensing tube 1 as a homogenous whole when the deformable dispensing tube 1 is in its finished manufactured state.
- the formed opening 4 has at one end a formed orifice 5 for the opening and re-sealing the formed opening 4 , thereby allowing the dispensing of the contents 16 of the deformable dispensing tube 1 .
- the formed opening 4 transforms in shape and size from the formed orifice 5 into a larger shape where it meets the deformable body 2 .
- the meeting point of the formed opening 4 and the deformable body 2 is herein after referred to as cross-section 6 and is shown hatched on FIG. 2 and is referenced by the line I-I on FIG. 3 and by the line I-I on FIG. 4 .
- the formed opening 4 varies in rigidity and is substantially more rigid than the deformable body 2 , thereby forcing the deformable body 2 to adopt the same shape and size at cross-section 6 .
- the sealed end 3 is formed by flattening and then permanently sealing or fusing together the material of the deformable dispensing tube 1 at that point such that an internal volume or space can no longer exist within the deformable dispensing tube 1 .
- cross-section 7 The hollow cross section formed by the deformable body 2 in the area just before it becomes part of the sealed end 3 is hereinafter referred to as cross-section 7 and is shown hatched on FIG. 2 and is referenced by the line II-II on FIG. 3 and by the line II-II on FIG. 4 .
- the volume between cross-section 7 and the sealed end 3 is hereinafter referred to as the void 17 .
- the deformable body 2 therefore transforms in shape from the cross-section 6 to the cross-section 7 along the length of the deformable body 2 thereby giving the deformable body 2 an internal volume.
- the device 8 is a formed three-dimensional moulded part that may or may not be hollow.
- the centre of the device 8 is shown as hollow. In this form the centre of the device may contain another material or fluid.
- the device would contain a gas. It is envisaged that the device 8 is moulded from a material or in such material densities or in such varying section thickness or any combination of the three that the device 8 can display varying degrees of flexibility as required at the varying parts of the device 8 .
- the device 8 comprises the device top 9 , the device tail 10 , and the device body 11 . Although shown separately for clarity in FIG. 40 the device top 9 , the device tail 10 and the device body 11 form the device 8 as a homogenous whole.
- the device top 9 is shown on its own in FIG. 41 to more clearly identify its constituent parts.
- the device tail 10 has at its widest point the cross-section 14 shown hatched on FIG. 40 and is referenced by the line IV-IV on FIG. 42 and the line IV-IV on FIG. 43 and by the line IV-IV on FIG. 44 .
- the device tail 10 also has two non-return features at 26 .
- the non-return features 26 may be integrally moulded to the device 8 or may be formed as separate parts from alternative materials.
- the device top 9 consists of the device plug 12 that transforms into the larger cross-section 13 where the device top 9 meets the device body 11 .
- the cross-section 13 is shown hatched on FIG. 40 and is referenced by the line III-III on FIG. 42 and by the line III-III on FIG. 43 and by the line III-III on FIG. 44 .
- the flexible seal feature 15 is located at or near the cross-section 13 as is most clearly shown in FIGS. 42 , 43 and 44 .
- the flexible seal feature 15 will be of similar shape to cross-section 13 but of slightly larger size or diameter than the cross-section 13 .
- the device body 11 transforms smoothly in shape from the cross-section 13 to the cross-section 14 .
- the device tail 10 is formed from the cross-section 14 tapering or rounding into an end in the direction directly away from the device top 9 , as shown in FIGS. 39 , 40 and 44 .
- the shape and size of the device tail 10 is such that it will fit into the void 17 when the device 8 is in place within the deformable dispensing tube 1 at the sealed end 3 , see FIG. 45 and FIG. 47 .
- the cross-section 14 at the device tail 10 matches in shape and size the internal shape and internal size of cross-section 7 of the deformable dispensing tube 1 .
- the cross-section 14 at the device tail 10 forces the deformable body 2 to adopt an internal cross-section the same shape and size as the cross-section 14 at any point along the deformable body 2 's length at which the device tail 10 and the deformable body 2 are in contact.
- the cross-section 13 at the device top 9 matches in shape and size the internal shape and internal size of the cross-section 6 of the deformable dispensing tube 1 .
- the cross-section 13 at the device top 9 forces the internal cross-section of the deformable body 2 to adopt to the same shape and size as the cross-section 13 at any point along the deformable body 2 's length at which the device top 9 and the deformable body 2 are in contact.
- FIG. 45 and FIG. 47 shows the device 8 situated inside of the deformable dispensing tube 1 at the sealed end 3 .
- the shape of the deformable dispensing tube 1 can be seen to have adapted to the cross section 13 and the cross section 14 of the device 8 .
- the internal volume 25 is created inside the deformable dispensing tube 1 between the device top 9 and the formed opening 4 .
- the void 17 will be partly occupied with the device tail 10 .
- the contents 16 are contained within internal volume 25 and partly within the formed opening 4 as shown in FIG. 46 and FIG. 48 .
- the cap 35 is shown as a method of sealing the orifice 5 .
- the fit between the internal surface of the deformable body 2 and the cross-section 13 of the device 8 is such that a seal is formed between the internal surface of the deformable body 2 and the device 8 thereby preventing any transgression by the contents 16 even when under pressure.
- the flexible seal feature 15 When not under any pressure or force, the flexible seal feature 15 will be of similar shape to cross-section 13 but of slightly larger size than the cross-section 13 . It follows that the cross-section of the flexible seal feature 15 is also slightly larger than the internal cross-section of the deformable body 2 formed by the presence of the device 8 within the deformable body 2 .
- the flexible seal feature 15 is compressed to fit within the internal cross-section of the deformable body 2 .
- the flexible seal feature 15 having been compressed to fit within the deformable dispensing tube 1 is under pressure against the internal surface of the deformable body 2 thereby providing enhanced or further sealing against any transgression by the contents 16 while still allowing the device 8 to move freely within the dispensing tube 1 .
- the non-return features 26 are flexible parts that have external dimensions greater than those of the cross-section 14 and the corresponding cross-section 7 into which they must fit.
- the non-return features 26 flex or are compressed to fit within the cross-section 7 in such a manner that if the device 8 is moved in the direction of the formed opening 4 the non-returns features flex or compress further thereby still allowing the device 8 to move freely within the dispensing tube 1 .
- the non-return features 26 flex or are compressed to fit within the cross-section 7 in such a manner that if the device 8 begins to move in the direction of the sealed end 3 the non-return features 26 are forced or expand against or into the internal surface of the deformable dispensing tube 1 thereby locking the device 8 at that point and preventing the device 8 from moving any further in the direction of the sealed end 3 .
- the outer shape of the device top 9 will be of such a shape and size or can deform to such a shape and size that it can move inside of the formed opening 4 of the deformable dispensing tube 1 in such a manner that it expels as much of the contents 16 as is feasible.
- the device plug 12 of the device top 9 will be of such a shape and size or can deform to such a shape and size that it can move inside of the formed orifice 5 while still allowing the contents 16 to be expelled as shown in FIG. 54 and FIG. 55 .
- the user applies external pressure as indicated by the arrows at 19 directly or indirectly to the outside of the deformable dispensing tube 1 .
- a result of the external pressure 19 acting on the device 8 through the deformable dispensing tube 1 will be to create a resultant force 20 within the device 8 in the direction of the formed opening 4 .
- the resultant force 20 in turn acts through the device 8 onto the contents 16 thereby creating an internal pressure 21 within contents 16 contained within the deformable dispensing tube 1 .
- the internal pressure 21 will create an opposing force 23 on the device 8 .
- An internal friction force 18 occurs between the device 8 and the internal surfaces of the deformable dispensing tube 1 .
- the opposing force 23 combines with the internal friction force 18 to resist the resultant force 20 .
- the device 8 and the gas or material within its centre will become subject to internal forces or internal pressure represented by the arrows 28 and is hereinafter referred to as the “device pressure 28 ”.
- the hollow interior (i.e. the centre) of device 8 is sealed closed (i.e. enclosed) so as to capture and retain therein the gas or material.
- the effects of the sealing between the device 8 and the internal surface of the deformable body 2 ensure the contents 16 remain within the internal volume 25 that is on the formed opening 4 's side of the device top 9 .
- the device pressure 28 will further increase or enhance the sealing between the device 8 and the internal surface of the deformable body 2 .
- the internal pressure 21 will also bear on the internal seal surfaces 31 thereby increasing the effectiveness of the flexible seal 15 in proportion to any increase in the internal pressure 21 of the contents 16 against which the flexible seal 15 acts.
- the volume required to contain the remaining contents 16 will be reduced which in turn will create a corresponding reduction in the internal pressure 21 .
- the resultant force 20 will not be in balance with the opposing force 23 and so the resultant force 20 will cause the deformable centre 27 to distort in the direction of the resultant force 20 .
- the distortion of the deformable centre 27 in the direction of the resultant force 20 and towards the formed opening 4 will hereinafter be referred to as the “distorted centre 30 ” as indicated in FIG. 50 .
- the distortion of the deformable centre 27 into the distorted centre 30 will result in additional forces being created or stored in the material of the device 8 and these additional forces will hereinafter be referred to as the “stored force 29 ” and are represented by the arrows at 29 in FIG. 50 .
- the distorted centre 30 will continue to distort until the stored force 29 combined with the opposing force 23 balances with the resultant force 20 and the internal forces are in equilibrium. By distorting in this way the distorted centre 30 will balance the reduction in the volume of the remainder of the contents 16 within the internal volume 25 and thereby maintain the internal pressure 21 at a level at which the contents 16 continue to flow.
- the device 8 By moving towards the formed opening 4 in this manner the device 8 will reduce the size of the internal volume 25 in line with the reduction in the volume of the remainder of the contents 16 and thereby maintain the internal pressure 21 at a level where the contents 16 will continue to be expelled through the formed orifice 5 .
- the void 17 will increase in length leaving the deformable body 2 empty and in a flat or near flat state around the void 17 , as shown in FIG. 51 .
- the shape and size of the device top 9 corresponding to or distorting to the internal shape and internal size of the formed opening 4 allows the device top 9 to move inside the formed opening 4 in such a manner that as much of the contents 16 are expelled as is feasibly possible.
- the device plug 12 is of such a shape and size that the contents 16 are still able to flow through the formed orifice 5 even when the device plug 12 has moved inside of the formed orifice 5 .
- the user is able to vary the external pressure 19 in such a manner that the user can then control the rate at which the contents 16 are expelled.
- the device 8 as a whole unit will stop moving and consequently the contents 16 will cease to flow.
- the stored force 29 will retract the distorted centre 30 to its original state.
- Either the device 8 as a whole unit can move in the direction of the formed opening 4 to fill the space occupied by the distorted centre 30 .
- the contents 16 can be drawn or retracted back into the deformable dispensable tube 1 to fill the space occupied by the distorted centre 30 .
- This movement of the contents 16 back into the deformable dispensing tube is hereinafter referred to as “content retraction 34 ” as is shown by the arrow 34 in FIG. 56 .
- the internal pressure 21 can also be created by an external force at 24 on the deformable body 2 between the formed opening 4 and the location of the device 8 .
- the consequent opposing force 23 can act to move the device 8 as a whole unit in the direction of the opposing force 23 that is towards the sealed end 3 .
- the non-return features 26 will prevent the device 8 moving in the direction of the sealed end 3 . Consequently the opposing force 23 will act on the deformable centre 27 to make it distort in the direction of the opposing force 23 .
- the design of the deformable centre 27 combined with the constraint of the deformable dispensing tube 1 on the device 8 will be such that the force required to move the deformable centre 27 in the direction of the opposing force 23 is greater than the force required to expel the contents 16 through the orifice 5 . Therefore if the formed orifice 5 is un-sealed the internal pressure 20 generated by an external force at 24 will result in the contents 16 being expelled through the formed orifice 5 , as arrowed at 22 .
- the contents 16 will always remain in the area of the formed opening 4 ready for further use.
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Containers And Packaging Bodies Having A Special Means To Remove Contents (AREA)
- Tubes (AREA)
- Sampling And Sample Adjustment (AREA)
- Prostheses (AREA)
- Percussion Or Vibration Massage (AREA)
- Closures For Containers (AREA)
- External Artificial Organs (AREA)
- Infusion, Injection, And Reservoir Apparatuses (AREA)
Abstract
This invention provides a deformable dispensing tube (1) with an internal device (8). The device is contained within the deformable dispensing tube but is a separate physical entity to the deformable dispensing tube and has the ability to move within the deformable dispensing tube. The object of the device is to aid the dispensing of part or all of the contents (16) of the deformable dispensing tube by the user.
Description
- This application is continuation of U.S. patent application Ser. No. 12/096,214 filed Jun. 5, 2008, which is a National Stage filing of International Application PCT/GB2006/004589, filed Dec. 8, 2006, which claims the foreign priority benefit of United Kingdom Application No. 0525219.2, filed Dec. 10, 2005, entitled “TUBE DISPENSING DEVICE”, all of which are expressly incorporated by reference herein, in their entirety.
- This invention relates to dispensing of paste or gel like substances or any viscous or liquid substances, hereinafter referred to as the “contents” from flexible or deformable containers or tubes, hereinafter referred to as “deformable dispensing tubes”.
- Many paste like substances, such as toothpaste or creams or hair gels or food substances or glue, are sold in deformable dispensing tubes such that the user can deform the tube by manually squeezing or creating an external pressure on the tube to dispense the contents. The external pressure or force created by the user to dispense the contents is hereinafter referred to as the “external pressure”.
- The shape of the tube is generally circular in cross section at the end where an opening is formed for dispensing the contents. This formed open end of the deformable dispensing tube is hereinafter referred to as the “formed opening”. The formed opening has the ability to be opened and resealed by the user.
- The opposite end of the deformable dispensing tube to that of the formed opening is flattened and permanently sealed on manufacture or production. This flattened and sealed end of the deformable dispensing tube is hereinafter referred to as the “sealed end”.
- The area between the sealed end and the formed opening is the deformable part of the deformable dispensing tube and is hereinafter referred to as the “deformable body”.
- During production the tube is filled with the contents.
- The shape created by the above process has the advantage of allowing the user to dispense varying quantities of the contents by applying an external pressure to the tube such that part or all of the contents are moved towards the end with the formed opening, thereby dispensing the desired quantity of the contents through the formed opening.
- The disadvantages of such tubes are that a small amount of the contents may continue to flow after the user has removed the external pressure, thereby leaving some of the contents around the formed opening compromising both the re-sealing of the formed opening and general hygiene.
- Also when the deformable dispensing tube is no longer completely full the contents can move away from the formed opening. This can make further dispensing awkward, requiring the user to manipulate the contents towards the formed opening, either by squeezing their fingers along the outside of the tube or by rolling the tube up from the sealed end towards the formed opening. Also it can be difficult to entirely dispense the last of the contents from such tubes.
- Alternatively the contents may be sold in non-deformable dispensing tubes containing an internal piston to move the contents towards the opening for dispensing. This type of packaging has the disadvantage of being more complex and more expensive to produce than a deformable dispensing tube.
- An object of this invention is to enable easier dispensing of part or all of the contents of a flexible or deformable dispensing tube even when part or near empty.
- Accordingly, this invention provides a deformable dispensing tube with an internal device hereinafter referred to as “the device”. The device is contained within the deformable dispensing tube but is a separate physical entity to the deformable dispensing tube and has the ability to move within the deformable dispensing tube. The object of the device is to aid the dispensing of part or all of the contents of the deformable dispensing tube by the user.
- As already described the deformable dispensing tube will have a formed opening, a sealed end and a deformable body.
- Additionally, on production and before first use the device is inserted into the deformable dispensing tube such that the device is situated at the sealed end of the deformable dispensing tube.
- The contents are located in the area within the deformable dispensing tube between the device and the formed opening. This area in which the contents are located is hereinafter referred to as the “internal volume”. A small quantity of the contents may also be contained within the formed opening itself.
- The part of the device that sits nearest to the sealed end of the deformable dispensing tube will hereinafter be referred to as the “device tail”. The part of the device at the opposing end to the device tail is the section or face of the device that is presented to the contents within the deformable dispensing tube and this section or face of the device is hereinafter referred to as the “device top”.
- It is a required characteristic of the device that it forms an effective and consistent seal between itself and the inside surface or surfaces of the deformable dispensing tube when the deformable dispensing tube is full or empty or at any stage between. This seal is hereinafter referred to as the “consistent seal” and will be situated at or near the device top.
- The consistent seal prevents any transgression by the contents so that the contents remain between the device top and the formed opening even under pressure.
- The consistent seal can be achieved through the shape of the device or material nature of the device or additional components fixed to the device or a combination of all three. Consequently the device may be rigid or flexible or a combination or mixture of both.
- When the device is inside the deformable dispensing tube the three dimensional shape of the device is such that it provides the stability needed to maintain the consistent seal.
- The cross section of the device where it creates the consistent seal with the deformable dispensing tube needs to match in shape and size or be able to match in shape or size the internal cross section of the deformable body at the end of the formed opening so that device not only maintains the consistent seal throughout the movement of the device within the deformable dispensing tube but also maximises the capacity of the internal volume.
- The shape and material nature of the device is such that at the point of sealing the deformable dispensing tube is forced to adapt to the shape of the device thereby providing the consistent seal throughout the movement of the device within the deformable dispensing tube.
- Alternatively the shape and material nature of the device is such that the shape of the device is able to deform in keeping with any deformation caused to the deformable dispensing tube and thereby maintaining the consistent seal.
- Alternatively the shape and material nature of both the device and the deformable dispensing tube when combined is such that the consistent seal is both created and maintained under any deformation or pressure.
- The cross section of the device changes or tapers along it's length from the device top to the device tail such that when the external pressure is applied by the user to the deformable dispensing tube at or near the location of the device there is a resultant force on the device in the direction of the formed opening and away from the sealed end of the deformable dispensing tube. This resultant force towards the formed opening will hereinafter referred to as the “resultant force”.
- The device will be shaped or will have features such that it will only physically move in the direction towards the formed opening and not in the direction towards the sealed end and this shaping or feature will hereinafter be referred to as the “non-return feature”.
- The device may be able to flex or deform in the direction of the formed opening and then return to its original un-flexed or un-deformed state.
- Preferably the device should be made of a material or materials that not only maintain the consistent seal within the deformable dispensing tube but also enable easy movement of the device within the deformable dispensing tube in the direction of the formed opening.
- Preferably the three dimensional form of the device top should match or have the ability to match the interior three dimensional form of the formed opening in a male to female manner such that the device top can enter the formed opening and thereby expel as much of the contents as is feasibly possible.
- Preferably the cross section of the device changes or tapers along its length from the device top towards the device tail in such a manner that allows or encourages the deformable dispensing tube to collapse or be deformed behind the device such that the then empty or near empty part of the deformable dispensing tube can deform to a flat or near flat state.
- Preferably the cross section of the device tail matches in shape and size the internal cross section at or near the sealed end of the deformable dispensing tube in order to minimise the length of the device and or the overall length of the deformable dispensing tube.
- The cross section of the deformable dispensing tube is ideally round at the end where the formed opening is created, although this cross section may also be oval, elliptical, or any polygon shape with or without radius-ed corners or edges.
- As already stated, when an external pressure is applied to the deformable dispensing tube by the user at or near the location of the device, the resultant force is created on the device acting towards the formed opening. Therefore the user indirectly creates and controls the resultant force.
- When the resultant force is produced on the device it is transmitted through the device and onto the contents of the deformable dispensing tube thereby creating a state of internal pressure within the contents, this internal pressure is hereinafter referred to as the “internal pressure”.
- The internal pressure of the contents will in turn create an opposing force on the device hereinafter referred to as the “opposing force”. The opposing force will be in the direction of the sealed end and away from the formed opening.
- The internal pressure can also be created by the user applying an external pressure to the deformable tube in the area between the device and the formed opening. In such circumstances the opposing force will try to move the device in the direction of the sealed end however the non-return feature of the device will prevent any such movement.
- The internal pressure may also be created directly or indirectly by the user or by any remote means or by gravity.
- The internal pressure will also bear against the internal surfaces of the deformable dispensing tube, thereby forcing the internal volume of the deformable dispensing tube to its greatest capacity.
- As the device is a separate physical entity to the deformable dispensing tube the resultant force will act to move the device in the direction of the formed opening.
- The movement of the device in the direction of the formed opening is resisted by the opposing force of the contents together with any frictional forces that will occur between the device and the internal surface of the deformable tube. These frictional forces will hereinafter be referred to as the “internal frictional force”.
- The combination of the resultant force, the opposing force and the internal frictional force acting on the device will produce a tendency for the device to flex or deform and as such additional forces will be created or stored in the material or materials of the device, these additional forces will hereinafter be referred to as the “stored force”.
- If the deformable dispensing tube is not sealed at the formed opening and the internal pressure is great enough some of the contents will be forced to flow through the formed opening. This flowing out of some of the contents will result in a reduction in the volume of the contents contained with the deformable dispensing tube. At this point the internal volume will be greater than the volume required by the remainder of the contents and as such a corresponding reduction in the internal pressure will result.
- As the contents begin to flow through the formed opening the resultant reduction in internal pressure will result in a corresponding reduction in the opposing force. The reduction in the opposing force will create a change or increase in the stored force as the balance of the resultant force is no longer taken up by the opposing force but is directed through the device and against the internal frictional force. This change or increase in the stored force will result in further flexure or deformation of the device.
- The amount of flexure or deformation that the device is allowed to develop will be dictated by the design and material specification of the device. At all times the consistent seal will be maintained.
- The device may be so designed that it is effectively rigid and therefore no significant flexure or deformation of the device takes place under the forces developed as a consequence of the user applying an external pressure. In this instance if the resultant force is greater than both the internal frictional force and the opposing force the device will begin to move in the direction of the resultant force, that is, in the direction of the formed opening. In moving towards the formed opening of the deformable dispensing tube the internal device will reduce the internal volume in line with the reduced volume of the remainder of contents contained within the deformable dispensing tube. In balancing the internal volume with the volume of the remainder of the contents in this way the internal pressure can be maintained at a level where the contents continue to flow through the formed opening.
- Alternatively, the device may be so designed that a significant flexure or deformation of the device takes place in the direction of the resultant force and towards the formed opening. The flexure or deformation of the device produced by the resultant force will hereinafter be referred to as the “deformed volume”. The creation and increasing size of the deformed volume will balance the reduced volume required by the remainder of the contents within the internal volume and so the internal pressure can be maintained at a level where the contents continue to flow through the formed opening. The deformed volume will increase in size until the device reaches its maximum designed state for the deformed volume. At this point the deformed volume cannot balance any further reduction in volume of the remainder of the contents within the internal volume and in this instance if the resultant force remains greater than both the internal frictional force and the opposing force the device as a whole will begin to move in the direction of the resultant force, that is in the direction of the formed opening. In moving towards the formed opening of the deformable dispensing tube the internal device will reduce the internal volume in line with the reduced volume of the remainder of contents contained within the deformable dispensing tube. In balancing the internal volume with the volume of the remainder of the contents in this way the internal pressure can be maintained at a level where the contents continue to flow through the formed opening.
- If the user continues to create the resultant force and the above-mentioned balance of forces, the device will continue to move towards the formed opening thereby dispensing more or all of the contents.
- When the resultant force is reduced by the user to a level were it no longer overcomes the combination of the internal frictional force and the opposing force the device will cease to move and the consequent flow of the contents through the formed opening will also cease.
- At this point if the device is one so designed as to be effectively rigid and have little or no deformed volume no further significant movement will take place.
- Alternatively, if at this point the device is one so designed as to have a deformed volume the flexure or deformation of the deformed volume will remain in place until the user reduces still further or even removes entirely the resultant force. When the resultant force is reduced or removed in such a manner the stored force will act to return the device to its original un-deformed state and as such the deformed volume will retract and no longer make up the balance in the internal volume that it originally did. The internal volume however cannot sustain a vacuum and therefore the retraction of the deformed volume by the stored force will cause the device as a whole and the contents to be drawn together. When the device and contents are drawn together in such a way the device can be so designed as to act in one of two ways or a combination of both. Either the device as a whole can move in the direction of the formed opening to make-up the space occupied by the deformed volume or alternatively the contents can be drawn or sucked back into the deformable dispensable tube to fill the space occupied by the deformed volume. This movement of the contents back into the deformable dispensing tube is hereinafter referred to as “content retraction”. Ideally the design of the device would allow for a small amount of content retraction combined with the device as a whole moving in the direction of the formed opening.
- As described, the three dimensional form and physical or material nature of the device and its behavioural properties when within the deformable dispensing tube provides the ability of the device to maintain a consistent seal within a deformable dispensing tube and allows the device to act as an internal piston that can effectively dispense the contents from a deformable dispensing tube.
- As described, the three dimensional form and physical or material nature of the device and its behavioural properties when within the deformable dispensing tube allows an external pressure or force applied by the user to the deformable dispensing tube to be translated into forces or pressure or movement within the deformable dispensing tube or within the device itself such that the contents can be effectively dispensed. As the resultant force is indirectly created and controlled by the user, the user is able to dispense varying quantities of the contents and at varying rates and at will.
- As described, the combination of the device being able to move internally within the deformable dispensing tube combined with the non-return feature or features of the device preventing the device from moving back in the direction of the sealed end provides the advantage of the contents always being presented correctly to the formed opening for easy and immediate dispensing even when the deformable dispensing tube is part or near empty. Therefore awkwardness of further dispensing requiring the user to manipulate the contents towards the formed opening is removed.
- As described, when within the deformable dispensing tube the non-return feature or features of the device prevent the device from moving back in the direction of the sealed end and so provides the advantage of the contents still being dispensed even when the user applies the external force in the area between the device top and the formed opening.
- As described, the three dimensional form and physical or material nature of the device top and its behavioural properties allow the device top to match or have the ability to match the interior three dimensional form of the formed opening and thereby ensure that as much of the contents are expelled from the deformable dispensing tube as is feasibly possible.
- As described, the three dimensional form and physical or material nature of the device and its behavioural properties when within the deformable dispensing tube create the content retraction effect that provides the advantage of alleviating or removing the aspect of excess contents being left around the formed opening after use. This is particularly advantageous for resealing the formed opening and the overall hygiene of the product.
- One specific embodiment of the invention, titled Embodiment A, will now be described by way of example only with reference to the accompanying drawings,
FIGS. 1 through to 19 only. - Of which:
-
FIG. 1 shows a perspective view of thedeformable dispensing tube 1. -
FIG. 2 shows a perspective view of thedeformable dispensing tube 1 with thedeformable dispensing tube 1 illustrated in 3 sections:—the formedopening 4, the sealedend 3, and thedeformable body 2. -
FIG. 3 shows a front view of thedeformable dispensing tube 1. -
FIG. 4 shows a side view of thedeformable dispensing tube 1. -
FIG. 5 shows a section through thedeformable dispensing tube 1 from a front view of thedeformable dispensing tube 1. -
FIG. 6 shows a perspective view of thedevice 8. -
FIG. 7 shows a perspective view of thedevice 8 with thedevice 8 illustrated in 3 sections; thedevice tail 10, thedevice body 11 and thedevice top 9. -
FIG. 8 shows a side view of thedevice 8. -
FIG. 9 shows a front view of thedevice 8. -
FIG. 10 shows a section through thedeformable dispensing tube 1 from a side view of thedeformable dispensing tube 1 with thedevice 8 in place at thesealed end 3 and theinternal volume 25 within thedeformable dispensing tube 1. -
FIG. 11 shows a section through thedeformable dispensing tube 1 from a side view of thedeformable dispensing tube 1 with thedevice 8 in place at thesealed end 3 and thecontents 16 within thedeformable dispensing tube 1. -
FIG. 12 shows a section through thedeformable dispensing tube 1 from a front view of thedeformable dispensing tube 1 with thedevice 8 in place at thesealed end 3 and theinternal volume 25 within thedeformable dispensing tube 1. -
FIG. 13 shows a section through thedeformable dispensing tube 1 from a front view of thedeformable dispensing tube 1 with thedevice 8 in place at thesealed end 3 and thecontents 16 within thedeformable dispensing tube 1. -
FIG. 14 shows a section through thedeformable dispensing tube 1 from a side view of thedeformable dispensing tube 1 with thedevice 8 in place at thesealed end 3 withexternal forces 19 acting. -
FIG. 15 shows a section through thedeformable dispensing tube 1 from a side view of thedeformable dispensing tube 1 with thedevice 8 in place at a point halfway between thesealed end 3 and the formedopening 4 withexternal forces 19 acting. -
FIG. 16 shows a section through thedeformable dispensing tube 1 from a side view of thedeformable dispensing tube 1 with thedevice 8 in place at a point halfway between thesealed end 3 and the formedopening 4 withexternal forces 24 acting. -
FIG. 17 shows a section through thedeformable dispensing tube 1 from a front view of thedeformable dispensing tube 1 with thedevice 8 in place at a point halfway between thesealed end 3 and the formedopening 4 withexternal forces 24 acting. -
FIG. 18 shows a section through thedeformable dispensing tube 1 from a side view of thedeformable dispensing tube 1 with thedevice 8 in place at the formedopening 4. -
FIG. 19 shows a section through thedeformable dispensing tube 1 from a front view of thedeformable dispensing tube 1 with thedevice 8 in place at the formedopening 4. - Embodiment A of the invention is a device, hereinafter referred to as the
device 8, provided as a separate insert to existing deformable dispensing tubes. A description of a typical deformable dispensing tube is given in reference to the inclusion and working of thedevice 8. Such a deformable dispensing tube will hereinafter referred to as thedeformable dispensing tube 1. - The
deformable dispensing tube 1 has adeformable body 2, which is hollow. At one end of thedeformable body 2 is asealed end 3 and at the opposing end of thedeformable body 2 is a formedopening 4, which is hollow. Although shown separated inFIG. 2 for clarity thedeformable body 2, the sealedend 3 and the formedopening 4 form thedeformable dispensing tube 1 as a homogenous whole when thedeformable dispensing tube 1 is in its finished manufactured state. - The formed
opening 4 has at one end a formedorifice 5 for the opening and re-sealing the formedopening 4, thereby allowing the dispensing of thecontents 16 of thedeformable dispensing tube 1. - The formed
opening 4 transforms in shape and size from the formedorifice 5 into a larger shape where it meets thedeformable body 2. The meeting point of the formedopening 4 and thedeformable body 2 is herein after referred to ascross-section 6 and is shown hatched onFIG. 2 and is referenced by the line I-I onFIG. 3 and by the line I-I onFIG. 4 . - The formed
opening 4 varies in rigidity and is substantially more rigid than thedeformable body 2, thereby forcing thedeformable body 2 to adopt the same shape and size atcross-section 6. - The
sealed end 3 is formed by flattening and then permanently sealing or fusing together the material of thedeformable dispensing tube 1 at that point such that an internal volume or space can no longer exist within thedeformable dispensing tube 1. - By sealing the
deformable dispensing tube 1 at thesealed end 3 thedeformable body 2 is forced to adopt a certain cross-section as it nears the sealedend 3. The hollow cross section formed by thedeformable body 2 in the area just before it becomes part of the sealedend 3 is hereinafter referred to ascross-section 7 and is shown hatched onFIG. 2 and is referenced by the line II-II onFIG. 3 and by the line II-II onFIG. 4 . - The volume between
cross-section 7 and thesealed end 3 is hereinafter referred to as thevoid 17. - The
deformable body 2 therefore transforms in shape from thecross-section 6 to thecross-section 7 along the length of thedeformable body 2 thereby giving thedeformable body 2 an internal volume. - The
device 8 is a formed three-dimensional moulded shape and is mostly rigid or substantially more rigid than thedeformable body 2. Thedevice 8 comprises thedevice top 9, thedevice tail 10, and thedevice body 11. Although shown separated inFIG. 7 for clarity thedevice top 9, thedevice tail 10, and thedevice body 11 form thedevice 8 as a homogenous whole. - The
device tail 10 has at its widest point thecross-section 14 shown hatched onFIG. 7 and is referenced by the line IV-IV onFIG. 8 and by the line IV-IV onFIG. 9 . Thedevice tail 10 also has twonon-return features 26. The non-return features 26 may be integrally moulded to thedevice 8 or may be formed as separate parts from alternative materials. - The
device top 9 consists of thedevice plug 12 that transforms into thelarger cross-section 13 at thedevice top 9's widest rigid point. Thecross-section 13 is shown hatched onFIG. 7 and is referenced by the line III-III onFIG. 8 and by the line III-III onFIG. 9 . - At or near the
cross-section 13 is aflexible seal 15. Theflexible seal 15 may be integrally moulded to thedevice 8 or may be formed as a separate part from alternative materials. Theflexible seal 15 will be of similar shape tocross-section 13 but of slightly larger size than thecross-section 13. - The
device body 11 transforms smoothly in shape from thecross-section 13 to thecross-section 14. - The
device tail 10 is formed from thecross-section 14 tapering or rounding into an end in the direction directly away from thedevice top 9, as shown inFIGS. 7 , 8 and 9. The shape and size of thedevice tail 10 is such that it will fit into the void 17 when thedevice 8 is in place within thedeformable dispensing tube 1 at thesealed end 3. - The
cross-section 14 at thedevice tail 10 matches in shape and size the internal shape and internal size ofcross-section 7 of thedeformable dispensing tube 1. - When the
device 8 is in place within thedeformable dispensing tube 1, thecross-section 14 at thedevice tail 10 forces thedeformable body 2 to adopt an internal cross-section the same shape and size as thecross-section 14 at any point along thedeformable body 2's length at which thedevice tail 10 and thedeformable body 2 are in contact. - The
cross-section 13 at the device top 9 matches in shape and size the internal shape and internal size of thecross-section 6 of thedeformable dispensing tube 1. - When the
device 8 is in place within thedeformable dispensing tube 1, thecross-section 13 at thedevice top 9 forces the internal cross-section of thedeformable body 2 to adopt to the same shape and size as thecross-section 13 at any point along thedeformable body 2's length at which thedevice top 9 and thedeformable body 2 are in contact. -
FIG. 10 andFIG. 12 show thedevice 8 situated inside of thedeformable dispensing tube 1 at thesealed end 3. Theinternal volume 25 is created inside thedeformable dispensing tube 1 between thedevice top 9 and the formedopening 4. Thecontents 16 are contained withininternal volume 25 and partly with the formedopening 4 as shown inFIG. 11 andFIG. 13 . The void 17 will be partly occupied with thedevice tail 10. - The fit between the internal surface of the
deformable body 2 and thecross-section 13 of thedevice 8 is such that a seal is formed between the internal surface of thedeformable body 2 and thedevice 8 thereby preventing any transgression by thecontents 16 even when under pressure. - When as part of the assembly that makes
device 8 and not under any pressure or force, theflexible seal 15 will be of similar shape tocross-section 13 but of slightly larger size than thecross-section 13. It follows that the cross-section of theflexible seal 15 is also slightly larger than the internal cross-section of thedeformable body 2 formed by the presence of thedevice 8 within thedeformable body 2. - When the
device 8 is in place within thedeformable dispensing tube 1, theflexible seal 15 is compressed to fit within the internal cross-section of thedeformable body 2. - The
flexible seal 15 having been compressed to fit within thedeformable dispensing tube 1 is under pressure against the internal surface of thedeformable body 2 thereby providing enhanced or further sealing against any transgression by thecontents 16 while still allowing thedevice 8 to move freely within the dispensingtube 1. - When as part of the assembly that makes
device 8 and not under any pressure or force, thenon-return features 26 are flexible parts that have external dimensions greater than those of thecross-section 14 and thecorresponding cross-section 7 into which they must fit. - When the
device 8 is in place within thedeformable dispensing tube 1, thenon-return features 26 are compressed to fit within thecross-section 7 in such a manner that if thedevice 8 is moved in the direction of the formedopening 4 the non-return features compress further thereby allowing thedevice 8 to move freely within the dispensingtube 1 in the direction of the formedopening 4. However, when thedevice 8 is in place within thedeformable dispensing tube 1, thenon-return features 26 are compressed to fit within thecross-section 7 in such a manner that if thedevice 8 is moved in the direction of the sealedend 3 thenon-return features 26 are forced against or into the internal surface of thedeformable dispensing tube 1 thereby locking thedevice 8 at that point and preventing thedevice 8 from moving any further in the direction of the sealedend 3. - The outer shape of the
device top 9 will be of such a shape and size that it can move inside of the formedopening 4 of thedeformable dispensing tube 1 in such a manner that it expels as much of thecontents 16 as is feasible, as shown inFIG. 18 andFIG. 19 . - The device plug 12 of the
device top 9 will be of such a shape and size that it can move inside of the formedorifice 5 while still allowing thecontents 16 to be expelled, as shown inFIG. 18 andFIG. 19 . - The
device 8 features tapered surfaces 27. The tapered surfaces 27 are formed by the smooth transition from thecross-section 13 to thecross-section 14. - The user applies external pressure directly or indirectly to the outside of the
deformable dispensing tube 1 as shown by the arrows at 19 onFIGS. 14 and 15 . A result of theexternal pressure 19 is to create theresultant force 20 acting on thedevice 8 in the direction of the formedopening 4. Theresultant force 20 in turn acts through thedevice 8 onto thecontents 16 thereby creating aninternal pressure 21 withincontents 16 contained within thedeformable dispensing tube 1. - The
internal pressure 21 will create an opposingforce 23 on thedevice 8. The opposingforce 23 resists theresultant force 20 and acts to move thedevice 8 in the direction towards the sealedend 3 but any such movement is resisted by the non-return features 26. - The effects of the sealing between the
device 8 and the internal surface of thedeformable body 2 coupled with the additional sealing provided by theflexible seal 15 ensure thecontents 16 remain within theinternal volume 25 that is on the formedopening 4's side of thedevice 8. - When the formed
orifice 5 is un-sealed theinternal pressure 21 will force thecontents 16 to be expelled through the formedorifice 5, as arrowed 22. - Initially, as the
contents 16 begin to be expelled from thedeformable dispensing tube 1 theinternal pressure 21 will reduce with a corresponding reduction in the opposingforce 23. As such theresultant force 20 will be larger than the opposingforce 23 created by theinternal pressure 21 of thecontents 16. - The difference between the
resultant force 20 and the opposingforce 23 will be accounted for by theinternal friction force 18 that exists between thedevice 8 and the internal surfaces of thedeformable dispensing tube 1, as shown inFIGS. 14 and 15 . - As the
contents 16 continue to be expelled from thedeformable dispensing tube 1 there is a corresponding further reduction in the opposingforce 23. Eventually theresultant force 20 will be greater than both the opposingforce 23 and the internalfrictional force 18 combined and at this point thedevice 8 will begin to move forward in the direction of theresultant force 20 that is towards the formedopening 4. - As the
device 8 moves towards the formedopening 4 theinternal pressure 21 will be maintained at a level where thecontents 16 will continue to be expelled through the formedorifice 5 and void 17 will increase in size leaving thedeformable body 2 empty and in a flat or near flat state, as shown inFIG. 15 . - With reference to
FIG. 16 andFIG. 17 , theinternal pressure 21 can also be created by anexternal force 24 on thedeformable body 2 between the formedopening 4 and the location of thedevice 8. - In the afore mentioned instance the opposing
force 23 can act to move thedevice 8 away from the formedopening 4 and towards the sealedend 3. The non-return features 26 are so designed as to prevent thedevice 8 moving in the direction of the sealedend 3 and therefore theinternal pressure 21 generated by an external force at 24 will also result in thecontents 16 being expelled through the formedorifice 5, as arrowed at 22. - As the
device 8 nears the formedopening 4 the shape and size of thedevice top 9 corresponding to the internal shape and internal size of the formedopening 4 allows thedevice top 9 to move inside the formedopening 4 in such a manner that as much of thecontents 16 are expelled as is feasibly possible. In this instance, thedevice plug 12 is of such a shape and size that thecontents 16 are still able to flow through the formedorifice 5 even when thedevice plug 12 has moved inside of the formedorifice 5, as shown inFIG. 18 andFIG. 19 . - The user is able to vary the
external pressure contents 16 are expelled. - When the user removes the
external pressure 19 orexternal pressure 24 the consequent forces set up within thedeformable dispensing tube 1 and thedevice 8 are removed and therefore thecontents 16 cease to flow. - As the
device 8 is prevented from moving back towards the sealedend 3 by thenon-return features 26 thecontents 16 will always remain in the area of the formedopening 4 ready for further use. - An alternative specific embodiment of the invention, titled Embodiment B, will now be described by way of example only with reference to the accompanying drawings,
FIGS. 1 through to 5 only and additionalFIGS. 20 through to 38 only. - Of which:
-
FIG. 1 shows a perspective view of thedeformable dispensing tube 1. -
FIG. 2 shows a perspective view of thedeformable dispensing tube 1 with thedeformable dispensing tube 1 illustrated in 3 sections:—the formedopening 4, the sealedend 3, and thedeformable body 2. -
FIG. 3 shows a front view of thedeformable dispensing tube 1. -
FIG. 4 shows a side view of thedeformable dispensing tube 1. -
FIG. 5 shows a section through thedeformable dispensing tube 1 from a front view of thedeformable dispensing tube 1. -
FIG. 20 shows a perspective view of thedevice 8 looking at thedevice top 9. -
FIG. 21 shows a perspective view of thedevice 8 looking at thedevice tail 10. -
FIG. 22 shows a perspective view of thedevice 8 looking at thedevice tail 10 with thedevice 8 illustrated in 2 parts for clarity: therigid frame 29 and thedeformable centre 28. -
FIG. 23 shows a perspective view of thedeformable centre 28 looking from the direction of thedevice tail 10 with thedeformable body 16 illustrated in 2 parts for clarity: thedevice body 11 and thedevice top 9. -
FIG. 24 shows a side view of thedevice 8. -
FIG. 25 shows a section through thedevice 8 taken from the side. -
FIG. 26 shows a front view of thedevice 8. -
FIG. 27 shows a section through thedeformable dispensing tube 1 from a side view of thedeformable dispensing tube 1 with thedevice 8 in place at thesealed end 3 and theinternal volume 25 within thedeformable dispensing tube 1. -
FIG. 28 shows a section through thedeformable dispensing tube 1 from a side view with thedevice 8 in place at thesealed end 3 and thecontents 16 withindeformable dispensing tube 1. -
FIG. 29 shows a section through thedeformable dispensing tube 1 from a front view of thedeformable dispensing tube 1 with thedevice 8 in place at thesealed end 3 and theinternal volume 25 within thedeformable dispensing tube 1. -
FIG. 30 shows a section through thedeformable dispensing tube 1 from a front view with thedevice 8 in place at thesealed end 3 and thecontents 16 within thedeformable dispensing tube 1. -
FIG. 31 shows a section through thedeformable dispensing tube 1 from a side view of thedeformable dispensing tube 1 with thedevice 8 in place at thesealed end 3, theorifice 5 sealed andexternal forces 19 acting. -
FIG. 32 shows a section through thedeformable dispensing tube 1 from a side view of thedeformable dispensing tube 1 with thedevice 8 in place at thesealed end 3, theorifice 5 un-sealed andexternal forces 19 acting. -
FIG. 33 shows a section through thedeformable dispensing tube 1 from a side view of thedeformable dispensing tube 1 with thedevice 8 in place at a point approximately halfway between thesealed end 3 and the formedopening 4, theorifice 5 un-sealed andexternal forces 19 acting. -
FIG. 34 shows a section through thedeformable dispensing tube 1 from a side view of thedeformable dispensing tube 1 with thedevice 8 in place at a point approximately halfway between thesealed end 3 and the formedopening 4, theorifice 5 un-sealed andpressure 24 acting. -
FIG. 35 shows a section through thedeformable dispensing tube 1 from a front view of thedeformable dispensing tube 1 with thedevice 8 in place at a point approximately halfway between thesealed end 3 and the formedopening 4, theorifice 5 un-sealed andpressure 24 acting. -
FIG. 36 shows a section through thedeformable dispensing tube 1 from a side view of thedeformable dispensing tube 1 with thedevice 8 in place at the formedopening 4, theorifice 5 un-sealed andexternal forces 19 acting. -
FIG. 37 shows a section through thedeformable dispensing tube 1 from a front view of thedeformable dispensing tube 1 with thedevice 8 in place at the formedopening 4, theorifice 5 un-sealed. -
FIG. 38 shows a section through thedeformable dispensing tube 1 from a side view of thedeformable dispensing tube 1 with thedevice 8 in place at a point approximately halfway between thesealed end 3 and the formedopening 4 withcontent retraction 34 acting. - Embodiment B of the invention is a device, hereinafter referred to as the
device 8, provided as a separate insert to existing deformable dispensing tubes. A description of a typical deformable dispensing tube is given in reference to the inclusion and working of thedevice 8. Such a deformable dispensing tube will hereinafter referred to as thedeformable dispensing tube 1. - The
deformable dispensing tube 1 has adeformable body 2, which is hollow. At one end of thedeformable body 2 is asealed end 3 and at the opposing end of thedeformable body 2 is a formedopening 4, which is hollow. Although shown separated inFIG. 2 for clarity thedeformable body 2, the sealedend 3 and the formedopening 4 form thedeformable dispensing tube 1 as a homogenous whole when thedeformable dispensing tube 1 is in its finished manufactured state. - The formed
opening 4 has at one end a formedorifice 5 for the opening and re-sealing the formedopening 4, thereby allowing the dispensing of thecontents 16 of thedeformable dispensing tube 1. - The formed
opening 4 transforms in shape and size from the formedorifice 5 into a larger shape where it meets thedeformable body 2. The meeting point of the formedopening 4 and thedeformable body 2 is herein after referred to ascross-section 6 and is shown hatched onFIG. 2 and is referenced by the line I-I onFIG. 3 and by the line I-I onFIG. 4 . - The formed
opening 4 varies in rigidity and is substantially more rigid than thedeformable body 2, thereby forcing thedeformable body 2 to adopt the same shape and size atcross-section 6. - The
sealed end 3 is formed by flattening and then permanently sealing or fusing together the material of thedeformable dispensing tube 1 at that point such that an internal volume or space can no longer exist within thedeformable dispensing tube 1. - By sealing the
deformable dispensing tube 1 at thesealed end 3 thedeformable body 2 is forced to adopt a certain cross-section as it nears the sealedend 3. The hollow cross section formed by thedeformable body 2 in the area just before it becomes part of the sealedend 3 is hereinafter referred to ascross-section 7 and is shown hatched onFIG. 2 and is referenced by the line II-II onFIG. 3 and by the line II-II onFIG. 4 . - The volume between
cross-section 7 and thesealed end 3 is hereinafter referred to as thevoid 17. - The
deformable body 2 therefore transforms in shape from thecross-section 6 to thecross-section 7 along the length of thedeformable body 2 thereby giving thedeformable body 2 an internal volume. - The
device 8 is a formed three-dimensional moulded part that combines arigid frame 29 with adeformable centre 28. It is envisaged that therigid frame 29 and thedeformable centre 28 will form a co-moulding although they could equally be moulded as separate parts and subsequently assembled together.FIG. 22 shows thedevice 8 with thedeformable centre 28 and therigid frame 29 separated for clarity. - The
deformable centre 28 comprises thedevice top 9 and thedevice body 11 that have been shown separated inFIG. 23 for clarity. Thedeformable centre 28 will be made from a material or materials that will allow it to be compressed in one direction while correspondingly expanding or elongating in another direction. - A suitable material may be an elastomer material, a foamed rubber material, a gel type material, a formed outer skin with a fluid or gel filled centre or any combination of such.
- The
rigid frame 29 comprises thedevice tail 10, the taperedwalls 27, thedevice collar 30 and the non-return features 26. Therigid frame 29 will most likely be moulded from plastic. - The
device tail 10 has at its widest point thecross-section 14 shown hatched onFIG. 22 andFIG. 23 and is referenced by the line IV-IV onFIG. 24 , the line IV-IV onFIG. 25 and by the line IV-IV onFIG. 26 . It is at the device tail that thenon-return features 26 are located. - The non-return features 26 may be integrally moulded to the
rigid frame 29 or may be formed as separate parts from alternative materials. - At the opposing end of the
rigid frame 29 from thedevice tail 10 is thedevice collar 30. Thedevice collar 30 has an outer circumference that is coincident with thecross section 13 on thedeformable centre 28 when the two parts are moulded or assembled together. Thecross-section 13 is shown hatched onFIG. 22 andFIG. 23 and is referenced by the line III-III onFIG. 24 , the line III-III onFIG. 25 and by the line III-III onFIG. 26 . The taperedwalls 27 run from thedevice collar 30 to thedevice tail 10 shown inFIG. 22 . - The
device top 9 and thedevice body 11 are described separately for clarity but are a single homogenous part. With reference toFIGS. 24 , 25 and 26, thedevice top 9 consists of thedevice plug 12 that transforms into the largerflexible seal 15 before reducing slightly to thecross-section 13 that has an outer circumference that is coincident with the outer circumference of thedevice collar 30 on therigid frame 29 when the two parts are moulded or assembled together. Thecross-section 13 is shown hatched onFIG. 22 andFIG. 23 and is referenced by the line III-III onFIG. 24 , the line III-III onFIG. 25 and by the line III-III onFIG. 26 . Theflexible seal 15 will be of similar shape to thecross-section 13 but of slightly larger size than thecross-section 13. - The
device collar 10 has an aperture within it through will thedevice body 11 is located. Thedevice body 11 sits within the dimensions of thecross section 13 and transforms smoothly to meet thedevice tail 10 as shown inFIG. 20 andFIG. 21 . When therigid frame 29 and thedeformable centre 28 are moulded together or assembled together the taperedwalls 27 sit within the volume or outline of thedevice body 11 as illustrated by the dashed lines of the tapered wall inFIGS. 21 , 24 and 25. - The
device tail 10 is formed from thecross-section 14 tapering or rounding into an end in the direction directly away from thedevice collar 30, as shown inFIGS. 22 and 26 . The shape and size of thedevice tail 10 is such that it will fit into the void 17 when thedevice 8 is in place within thedeformable dispensing tube 1 at thesealed end 3 as shown inFIG. 27 andFIG. 29 . - The
cross-section 14 at thedevice tail 10 matches in shape and size the internal shape and internal size of thecross-section 7 of thedeformable dispensing tube 1. - When the
device 8 is in place within thedeformable dispensing tube 1, thecross-section 14 at thedevice tail 10 forces thedeformable body 2 to adopt an internal cross-section the same shape and size as thecross-section 14 at any point along thedeformable body 2's length at which thedevice tail 10 and thedeformable body 2 are in contact or are coincident. - The
device collar 30 and correspondingcross-section 13 match in shape and size the internal shape and internal size of thecross-section 6 of thedeformable dispensing tube 1. - When the
device 8 is in place within thedeformable dispensing tube 1, thedevice collar 30 and correspondingcross-section 13 force the internal cross-section of thedeformable body 2 to adopt to the same shape and size as thedevice collar 30 at any point along thedeformable body 2's length at which thedevice collar 30 and thedeformable body 2 are in contact or are coincident. -
FIG. 27 andFIG. 29 show thedevice 8 situated inside of thedeformable dispensing tube 1 at thesealed end 3. Theinternal volume 25 is created inside thedeformable dispensing tube 1 between thedevice top 9 and the formedopening 4. Thecontents 16 are contained within theinternal volume 25 and partly within the formedopening 4 as shown inFIG. 28 andFIG. 30 . The void 17 will be partly occupied with thedevice tail 10. - The fit between the internal surface of the
deformable body 2 and thecollar 30 of thedevice 8 is such that a seal is formed between the internal surface of thedeformable body 2 and thedevice 8 thereby preventing any transgression by thecontents 16 even when under pressure. - When as part of the assembly that makes
device 8 and not under any pressure or force, theflexible seal 15 will be of similar shape tocross-section 13 but of slightly larger size than thecross-section 13. It follows that the cross-section of theflexible seal 15 is also slightly larger than the internal cross-section of thedeformable body 2 formed by the presence of thedevice 8 within thedeformable body 2. - When the
device 8 is in place within thedeformable dispensing tube 1, theflexible seal 15 is compressed to fit within the internal cross-section of thedeformable body 2. - The
flexible seal 15 having been compressed to fit within thedeformable dispensing tube 1 is under pressure against the internal surface of thedeformable body 2 thereby providing enhanced or further sealing against any transgression by thecontents 16 while still allowing thedevice 8 to move freely within the dispensingtube 1. - When as part of the assembly that makes
device 8 and not under any pressure or force, thenon-return features 26 are flexible parts that have external dimensions greater than those of thecross-section 14 and thecorresponding cross-section 7 into which they must fit. - When the
device 8 is in place within thedeformable dispensing tube 1, thenon-return features 26 are compressed to fit within thecross-section 7 in such a manner that if thedevice 8 is moved in the direction of the formedopening 4 the non-return features are compressed further thereby still allowing thedevice 8 to move freely within the dispensingtube 1. However, if thedevice 8 begins to move in the direction away from the formedopening 4 and towards the sealedend 3 thenon-return features 26 are forced against or into the internal surface of thedeformable dispensing tube 1 thereby locking thedevice 8 at that point and preventing thedevice 8 from moving any further in the direction of the sealedend 3. - The outer shape of the
device top 9 will be of such a shape and size or can deform to such a shape and size that it can move inside of the formedopening 4 of thedeformable dispensing tube 1 in such a manner that it expels as much of thecontents 16 as is feasible, as shown inFIG. 36 andFIG. 37 . - The device plug 12 of the
device top 9 will be of such a shape and size or can deform to such a shape and size that it can move inside of the formedorifice 5 while still allowing thecontents 16 to be expelled, as shown inFIG. 36 andFIG. 37 . - With reference to
FIG. 31 , the user applies external pressure directly or indirectly to the outside of thedeformable dispensing tube 1 as indicated by the arrows at 19. A result of theexternal pressure 19 acting on thedevice 8 through thedeformable dispensing tube 1 will be to create aresultant force 20 within thedevice 8 in the direction of the formedopening 4. Theresultant force 20 in turn acts through thedevice 8 onto thecontents 16 thereby creating aninternal pressure 21 withincontents 16 contained within thedeformable dispensing tube 1. Thecap 35 is shown as a method of sealing theorifice 5. - In order to transfer the
external pressure 19 into theresultant force 20 that acts on thecontents 16 thedeformable centre 28 will become subject to internal forces orinternal pressure 31 hereinafter referred to as the “device pressure 31”. - Also, dependent on the material nature of the deformable centre 28 a further result of the
external pressure 19 will be to compress or distort thedeformable centre 28 as shown inFIG. 31 . This compression or distortion is illustrated by the differing outlines of the non-compresseddeformable dispensing tube 1 inFIG. 28 compared with the compresseddeformable dispensing tube 1 inFIG. 31 . This compression or distortion is also illustrated by the differing outlines between the dashed lines of the non-compresseddeformable dispensing tube 1 indicated at 19 onFIG. 31 and the new outlines of both thedeformable dispensing tube 1 and thedeformable centre 28 also shown onFIG. 31 . Thedevice 8 is so designed that when thedevice 8 is in the afore-mentioned compressed or distorted state the resultant outer three-dimensional form thedevice 8 adopts is such that theexternal pressure 19 continues to produce theresultant force 20. - The
internal pressure 21 will create an opposingforce 23 on thedevice 8. Aninternal friction force 18 occurs between thedevice 8 and the internal surfaces of thedeformable dispensing tube 1. The opposingforce 23 combines with theinternal friction force 18 to resist theresultant force 20. - The effects of the sealing between the
device 8 and the internal surface of thedeformable body 2 ensure thecontents 16 remain within theinternal volume 25 that is on the formedopening 4's side of thedevice 8. As theinternal pressure 21 increases there is a corresponding increase in thedevice pressure 31 which will further enhance the effectiveness of theflexible seal 15. - With reference to
FIG. 32 , when the formedorifice 5 is un-sealed theinternal pressure 21 will cause thecontents 16 to begin to be expelled through the formedorifice 5, as arrowed 22. - Initially as the
contents 16 are expelled from thedeformable dispensing tube 1 the volume required to contain the remainingcontents 16 will be reduced which in turn will create a corresponding reduction in theinternal pressure 21. In this instance theresultant force 20 will not be balanced by the opposingforce 23 and so will cause thedeformable centre 28 to distort into theinternal volume 25. The distortion of thedeformable centre 28 in the direction of theresultant force 20 and towards the formedopening 4 will hereinafter be referred to as the “deformed volume 33” and is indicated as 33 inFIG. 32 . - The distortion of the
deformable centre 28 will result in additional forces being created or stored in the material of thedeformable centre 28, these additional forces will hereinafter be referred to as the “storedforce 32” and are represented by the arrows at 32 inFIG. 31 andFIG. 32 . - The
deformed volume 33 will continue to distort until the storedforce 32 combined with the opposingforce 23 balances with theresultant force 20 and the forces are in equilibrium. - Alternatively the
deformed volume 33 may reach its maximum designed state of distortion at which point if theresultant force 20 is great enough it will also begin to overcome theinternal friction force 18 and thedevice 8 as a whole unit will begin to move forward within thedeformable dispensing tube 1 in the direction of theresultant force 20, that is towards the formedopening 4. - The tapered
walls 27 provide a means by which theexternal pressure 19 can be limited in its distorting effect on thedeformable centre 28. - By moving forward in this manner the
device 8 will reduce the size of theinternal volume 25 in line with the reduction in the volume of the remainder of thecontents 16 and thereby maintain theinternal pressure 21 at a level where thecontents 16 will continue to be expelled through the formedorifice 5. As thedevice 8 moves towards the formedopening 4 the void 17 will increase in length leaving thedeformable body 2 empty and in a flat or near flat state around the void 17, as shown inFIG. 33 . - With reference to
FIGS. 36 and 37 , as thedevice 8 nears the formedopening 4 the shape and size of thedevice top 9 will distort to correspond to the internal shape and internal size of the formedopening 4 in such a manner that as much of thecontents 16 are expelled as is feasibly possible. At this point, thedevice plug 12 is of such a shape and size or is able to distort to such a shape and size that thecontents 16 are still able to flow through the formedorifice 5 even when thedevice plug 12 has moved inside of the formedorifice 5, as also shown inFIG. 36 andFIG. 37 . - The user is able to vary the
external pressure 19 in such a manner that the user can then control the rate at which thecontents 16 are expelled. - When the user removes the
external pressure 19 the consequent forces set up within thedeformable dispensing tube 1 and thedevice 8 are removed in the reverse order to which they were set up. - Therefore, firstly the
device 8 as a whole unit will stop moving and consequently thecontents 16 will cease to flow. Secondly, the storedforce 32 will retract thedeformed volume 33 to its original state. At this point one of two alternatives or a combination of both can occur by design. - Either the
device 8 as a whole unit can move in the direction of the formedopening 4 to fill the space occupied by thedeformed volume 33. Or alternatively thecontents 16 can be drawn or retracted back into the deformabledispensable tube 1 to fill the space occupied by thedeformed volume 33. This movement of thecontents 16 back into the deformable dispensing tube is hereinafter referred to as “content retraction 34” as is shown byarrow 34 inFIG. 38 . - With reference to
FIG. 34 andFIG. 35 , theinternal pressure 21 can also be created by an external force at 24 on thedeformable body 2 between the formedopening 4 and the location of thedevice 8. - When an external force at 24 generates the
internal pressure 21, the consequent opposingforce 23 can act to move thedevice 8 as a whole unit in the direction of the opposingforce 23 and towards the sealedend 3. The non-return features 26 will prevent thedevice 8 moving in the direction of the sealedend 3. Consequently the opposingforce 23 will act on thedeformable centre 28 to make it distort in the direction of the opposingforce 23. However, the location of thedeformable centre 28 to therigid frame 29 and the constraint of thedeformable body 2 will prevent any distortion or compression in the direction of the opposingforce 23. Therefore if the formedorifice 5 is un-sealed theinternal pressure 21 generated by an external force at 24 will result in thecontents 16 being expelled through the formedorifice 5, as arrowed at 22. - As the
device 8 is prevented from moving back towards the sealedend 3 by thenon-return features 26 thecontents 16 will always presented correctly to the formedopening 4 ready for further use. - An alternative specific embodiment of the invention, titled Embodiment C, will now be described by way of example only with reference to the accompanying drawings,
FIGS. 1 through to 5 only and additionalFIGS. 39 through to 56 only. - Of which:
-
FIG. 1 shows a perspective view of thedeformable dispensing tube 1. -
FIG. 2 shows a perspective view of thedeformable dispensing tube 1 with thedeformable dispensing tube 1 illustrated in 3 sections:—the formedopening 4, the sealedend 3, and thedeformable body 2. -
FIG. 3 shows a front view of thedeformable dispensing tube 1. -
FIG. 4 shows a side view of thedeformable dispensing tube 1. -
FIG. 5 shows a section through thedeformable dispensing tube 1 from a front view of thedeformable dispensing tube 1. -
FIG. 39 shows a perspective view of thedevice 8 looking at thedevice top 9. -
FIG. 40 shows a perspective view of thedevice 8 looking at thedevice top 9 with thedevice 8 illustrated as 3 sections for clarity; thedevice top 9, thedevice tail 10 and thedevice body 11. -
FIG. 41 shows thedevice top 9 separated from the rest of thedevice 8 for reasons of clarity. -
FIG. 42 shows a side view of thedevice 8. -
FIG. 43 shows a section through thedevice 8 taken from the side view. -
FIG. 44 shows a front view of thedevice 8. -
FIG. 45 shows a section through thedeformable dispensing tube 1 from a side view of thedeformable dispensing tube 1 with the device 8 (also sectioned) in place at thesealed end 3 and theinternal volume 25 within thedeformable dispensing tube 1. -
FIG. 46 shows a section through thedeformable dispensing tube 1 from a side view with the device 8 (also sectioned) in place at thesealed end 3, theorifice 5 sealed and thecontents 16 withindeformable dispensing tube 1. -
FIG. 47 shows a section through thedeformable dispensing tube 1 from a front view of thedeformable dispensing tube 1 with thedevice 8 in place at thesealed end 3 and theinternal volume 25 within thedeformable dispensing tube 1. -
FIG. 48 shows a section through thedeformable dispensing tube 1 from a front view with thedevice 8 in place at thesealed end 3, theorifice 5 sealed and thecontents 16 within thedeformable dispensing tube 1. -
FIG. 49 shows a section through thedeformable dispensing tube 1 from a side view of thedeformable dispensing tube 1 with thedevice 8 in place at thesealed end 3 withexternal forces 19 acting and theorifice 5 sealed. -
FIG. 50 shows a section through thedeformable dispensing tube 1 from a side view of thedeformable dispensing tube 1 with thedevice 8 in place at thesealed end 3 withexternal forces 19 acting and theorifice 5 un-sealed. -
FIG. 51 shows a section through thedeformable dispensing tube 1 from a side view of thedeformable dispensing tube 1 with thedevice 8 in place at a point approximately halfway between thesealed end 3 and the formedopening 4, withexternal pressure 19 acting and theorifice 5 un-sealed. -
FIG. 52 shows a section through thedeformable dispensing tube 1 from a side view of thedeformable dispensing tube 1 with thedevice 8 in place at a point approximately halfway between thesealed end 3 and the formedopening 4 withpressure 24 acting and theorifice 5 un-sealed. -
FIG. 53 shows a section through thedeformable dispensing tube 1 from a front view of thedeformable dispensing tube 1 with thedevice 8 in place at a point approximately halfway between thesealed end 3 and the formedopening 4 withpressure 24 acting and theorifice 5 un-sealed. -
FIG. 54 shows a section through thedeformable dispensing tube 1 from a side view of thedeformable dispensing tube 1 with the device 8 (also sectioned) in place at the formedopening 4 and theorifice 5 un-sealed. -
FIG. 55 shows a section through thedeformable dispensing tube 1 from a front view of thedeformable dispensing tube 1 with thedevice 8 in place at the formedopening 4 and theorifice 5 un-sealed. -
FIG. 56 shows a section through thedeformable dispensing tube 1 from a side view of thedeformable dispensing tube 1 with thedevice 8 in place at a point approximately halfway between thesealed end 3 and the formedopening 4 withcontent retraction 34 acting. - Embodiment C of the invention is a device, hereinafter referred to as the
device 8, provided as a separate insert to existing deformable dispensing tubes. A description of a typical deformable dispensing tube is given in reference to the inclusion and working of thedevice 8. Such a deformable dispensing tube will hereinafter referred to as thedeformable dispensing tube 1. - The
deformable dispensing tube 1 has adeformable body 2, which is hollow. At one end of thedeformable body 2 is asealed end 3 and at the opposing end of thedeformable body 2 is a formedopening 4, which is hollow. Although shown separated inFIG. 2 for clarity thedeformable body 2, the sealedend 3 and the formedopening 4 form thedeformable dispensing tube 1 as a homogenous whole when thedeformable dispensing tube 1 is in its finished manufactured state. - The formed
opening 4 has at one end a formedorifice 5 for the opening and re-sealing the formedopening 4, thereby allowing the dispensing of thecontents 16 of thedeformable dispensing tube 1. - The formed
opening 4 transforms in shape and size from the formedorifice 5 into a larger shape where it meets thedeformable body 2. The meeting point of the formedopening 4 and thedeformable body 2 is herein after referred to ascross-section 6 and is shown hatched onFIG. 2 and is referenced by the line I-I onFIG. 3 and by the line I-I onFIG. 4 . - The formed
opening 4 varies in rigidity and is substantially more rigid than thedeformable body 2, thereby forcing thedeformable body 2 to adopt the same shape and size atcross-section 6. - The
sealed end 3 is formed by flattening and then permanently sealing or fusing together the material of thedeformable dispensing tube 1 at that point such that an internal volume or space can no longer exist within thedeformable dispensing tube 1. - By sealing the
deformable dispensing tube 1 at thesealed end 3 thedeformable body 2 is forced to adopt a certain cross-section as it nears the sealedend 3. The hollow cross section formed by thedeformable body 2 in the area just before it becomes part of the sealedend 3 is hereinafter referred to ascross-section 7 and is shown hatched onFIG. 2 and is referenced by the line II-II onFIG. 3 and by the line II-II onFIG. 4 . - The volume between
cross-section 7 and thesealed end 3 is hereinafter referred to as thevoid 17. - The
deformable body 2 therefore transforms in shape from thecross-section 6 to thecross-section 7 along the length of thedeformable body 2 thereby giving thedeformable body 2 an internal volume. - The
device 8 is a formed three-dimensional moulded part that may or may not be hollow. For the accompanying illustrations the centre of thedevice 8 is shown as hollow. In this form the centre of the device may contain another material or fluid. For this specific embodiment the device would contain a gas. It is envisaged that thedevice 8 is moulded from a material or in such material densities or in such varying section thickness or any combination of the three that thedevice 8 can display varying degrees of flexibility as required at the varying parts of thedevice 8. - The
device 8 comprises thedevice top 9, thedevice tail 10, and thedevice body 11. Although shown separately for clarity inFIG. 40 thedevice top 9, thedevice tail 10 and thedevice body 11 form thedevice 8 as a homogenous whole. Thedevice top 9 is shown on its own inFIG. 41 to more clearly identify its constituent parts. - The
device tail 10 has at its widest point thecross-section 14 shown hatched onFIG. 40 and is referenced by the line IV-IV onFIG. 42 and the line IV-IV onFIG. 43 and by the line IV-IV onFIG. 44 . Thedevice tail 10 also has two non-return features at 26. The non-return features 26 may be integrally moulded to thedevice 8 or may be formed as separate parts from alternative materials. - The
device top 9 consists of thedevice plug 12 that transforms into thelarger cross-section 13 where thedevice top 9 meets thedevice body 11. Thecross-section 13 is shown hatched onFIG. 40 and is referenced by the line III-III onFIG. 42 and by the line III-III onFIG. 43 and by the line III-III onFIG. 44 . - The
flexible seal feature 15 is located at or near thecross-section 13 as is most clearly shown inFIGS. 42 , 43 and 44. Theflexible seal feature 15 will be of similar shape tocross-section 13 but of slightly larger size or diameter than thecross-section 13. - Between the
device plug 12 and theflexible seal 15 is thedeformable centre 27 as is most clearly shown onFIGS. 41 and 43 . - The
device body 11 transforms smoothly in shape from thecross-section 13 to thecross-section 14. - The
device tail 10 is formed from thecross-section 14 tapering or rounding into an end in the direction directly away from thedevice top 9, as shown inFIGS. 39 , 40 and 44. The shape and size of thedevice tail 10 is such that it will fit into the void 17 when thedevice 8 is in place within thedeformable dispensing tube 1 at thesealed end 3, seeFIG. 45 andFIG. 47 . - The
cross-section 14 at thedevice tail 10 matches in shape and size the internal shape and internal size ofcross-section 7 of thedeformable dispensing tube 1. - When the
device 8 is in place within thedeformable dispensing tube 1, thecross-section 14 at thedevice tail 10 forces thedeformable body 2 to adopt an internal cross-section the same shape and size as thecross-section 14 at any point along thedeformable body 2's length at which thedevice tail 10 and thedeformable body 2 are in contact. - The
cross-section 13 at the device top 9 matches in shape and size the internal shape and internal size of thecross-section 6 of thedeformable dispensing tube 1. - When the
device 8 is in place within thedeformable dispensing tube 1, thecross-section 13 at thedevice top 9 forces the internal cross-section of thedeformable body 2 to adopt to the same shape and size as thecross-section 13 at any point along thedeformable body 2's length at which thedevice top 9 and thedeformable body 2 are in contact. -
FIG. 45 andFIG. 47 shows thedevice 8 situated inside of thedeformable dispensing tube 1 at thesealed end 3. The shape of thedeformable dispensing tube 1 can be seen to have adapted to thecross section 13 and thecross section 14 of thedevice 8. Theinternal volume 25 is created inside thedeformable dispensing tube 1 between thedevice top 9 and the formedopening 4. The void 17 will be partly occupied with thedevice tail 10. - The
contents 16 are contained withininternal volume 25 and partly within the formedopening 4 as shown inFIG. 46 andFIG. 48 . Thecap 35 is shown as a method of sealing theorifice 5. - The fit between the internal surface of the
deformable body 2 and thecross-section 13 of thedevice 8 is such that a seal is formed between the internal surface of thedeformable body 2 and thedevice 8 thereby preventing any transgression by thecontents 16 even when under pressure. - When not under any pressure or force, the
flexible seal feature 15 will be of similar shape tocross-section 13 but of slightly larger size than thecross-section 13. It follows that the cross-section of theflexible seal feature 15 is also slightly larger than the internal cross-section of thedeformable body 2 formed by the presence of thedevice 8 within thedeformable body 2. - When the
device 8 is in place within thedeformable dispensing tube 1, theflexible seal feature 15 is compressed to fit within the internal cross-section of thedeformable body 2. - The
flexible seal feature 15 having been compressed to fit within thedeformable dispensing tube 1 is under pressure against the internal surface of thedeformable body 2 thereby providing enhanced or further sealing against any transgression by thecontents 16 while still allowing thedevice 8 to move freely within the dispensingtube 1. - When not under any pressure or force, the
non-return features 26 are flexible parts that have external dimensions greater than those of thecross-section 14 and thecorresponding cross-section 7 into which they must fit. - When the
device 8 is in place within thedeformable dispensing tube 1 thenon-return features 26 flex or are compressed to fit within thecross-section 7 in such a manner that if thedevice 8 is moved in the direction of the formedopening 4 the non-returns features flex or compress further thereby still allowing thedevice 8 to move freely within the dispensingtube 1. However, when thedevice 8 is in place within thedeformable dispensing tube 1, thenon-return features 26 flex or are compressed to fit within thecross-section 7 in such a manner that if thedevice 8 begins to move in the direction of the sealedend 3 thenon-return features 26 are forced or expand against or into the internal surface of thedeformable dispensing tube 1 thereby locking thedevice 8 at that point and preventing thedevice 8 from moving any further in the direction of the sealedend 3. - With reference to
FIGS. 54 and 55 , the outer shape of thedevice top 9 will be of such a shape and size or can deform to such a shape and size that it can move inside of the formedopening 4 of thedeformable dispensing tube 1 in such a manner that it expels as much of thecontents 16 as is feasible. - The device plug 12 of the
device top 9 will be of such a shape and size or can deform to such a shape and size that it can move inside of the formedorifice 5 while still allowing thecontents 16 to be expelled as shown inFIG. 54 andFIG. 55 . - With reference to
FIG. 49 the user applies external pressure as indicated by the arrows at 19 directly or indirectly to the outside of thedeformable dispensing tube 1. A result of theexternal pressure 19 acting on thedevice 8 through thedeformable dispensing tube 1 will be to create aresultant force 20 within thedevice 8 in the direction of the formedopening 4. Theresultant force 20 in turn acts through thedevice 8 onto thecontents 16 thereby creating aninternal pressure 21 withincontents 16 contained within thedeformable dispensing tube 1. - The
internal pressure 21 will create an opposingforce 23 on thedevice 8. Aninternal friction force 18 occurs between thedevice 8 and the internal surfaces of thedeformable dispensing tube 1. The opposingforce 23 combines with theinternal friction force 18 to resist theresultant force 20. - In order to transfer the
external pressure 19 into theresultant force 20 that acts on thecontents 16 thedevice 8 and the gas or material within its centre will become subject to internal forces or internal pressure represented by thearrows 28 and is hereinafter referred to as the “device pressure 28”. - Consistent with the overall illustrations and description of
device 8 and considering the disclosed manner of use withindeformable dispensing tube 1, it is noted that the hollow interior (i.e. the centre) ofdevice 8 is sealed closed (i.e. enclosed) so as to capture and retain therein the gas or material. - Dependent on the material nature of the
device 8 and the gas or material within its centre a further result of theexternal pressure 19 combined with the opposingforce 23 will be to compress or distort thedevice 8 as shown inFIG. 49 . This compression or distortion is illustrated by the differing outlines of thenon-compressed device 8 inFIG. 46 and thecompressed device 8 inFIG. 49 . This compression or distortion is also illustrated by the differing outlines between the dashed lines of the non-compresseddeformable dispensing tube 1 indicated at thearrows 19 and the now compressed or distorted outlines of both thedeformable dispensing tube 1 and thedevice 8, as also shown inFIG. 49 . Thedevice 8 is so designed that when thedevice 8 is in the afore-mentioned compressed or distorted state the resultant outer three-dimensional form thedevice 8 adopts is such that theexternal pressure 19 continues to produce theresultant force 20. - The effects of the sealing between the
device 8 and the internal surface of thedeformable body 2 ensure thecontents 16 remain within theinternal volume 25 that is on the formedopening 4's side of thedevice top 9. Thedevice pressure 28 will further increase or enhance the sealing between thedevice 8 and the internal surface of thedeformable body 2. - The
internal pressure 21 will also bear on the internal seal surfaces 31 thereby increasing the effectiveness of theflexible seal 15 in proportion to any increase in theinternal pressure 21 of thecontents 16 against which theflexible seal 15 acts. - With reference to
FIG. 50 , when the formedorifice 5 is un-sealed theinternal pressure 21 will cause thecontents 16 to begin to be expelled through the formedorifice 5, as arrowed 22. - Initially as the
contents 16 are expelled from thedeformable dispensing tube 1 the volume required to contain the remainingcontents 16 will be reduced which in turn will create a corresponding reduction in theinternal pressure 21. In this instance, theresultant force 20 will not be in balance with the opposingforce 23 and so theresultant force 20 will cause thedeformable centre 27 to distort in the direction of theresultant force 20. The distortion of thedeformable centre 27 in the direction of theresultant force 20 and towards the formedopening 4 will hereinafter be referred to as the “distortedcentre 30” as indicated inFIG. 50 . - The distortion of the
deformable centre 27 into the distortedcentre 30 will result in additional forces being created or stored in the material of thedevice 8 and these additional forces will hereinafter be referred to as the “storedforce 29” and are represented by the arrows at 29 inFIG. 50 . - The distorted
centre 30 will continue to distort until the storedforce 29 combined with the opposingforce 23 balances with theresultant force 20 and the internal forces are in equilibrium. By distorting in this way the distortedcentre 30 will balance the reduction in the volume of the remainder of thecontents 16 within theinternal volume 25 and thereby maintain theinternal pressure 21 at a level at which thecontents 16 continue to flow. - When the distorted
centre 30 reaches its maximum designed state of distortion and at which point if theresultant force 20 is great enough to overcome the internalfrictional force 27 thedevice 8 as a whole will begin to move forward within thedeformable dispensing tube 1 in the direction of theresultant force 20, that is towards the formedopening 4. - By moving towards the formed
opening 4 in this manner thedevice 8 will reduce the size of theinternal volume 25 in line with the reduction in the volume of the remainder of thecontents 16 and thereby maintain theinternal pressure 21 at a level where thecontents 16 will continue to be expelled through the formedorifice 5. As thedevice 8 moves towards the formedopening 4 the void 17 will increase in length leaving thedeformable body 2 empty and in a flat or near flat state around the void 17, as shown inFIG. 51 . - With reference to
FIGS. 54 and 55 , as thedevice 8 nears the formedopening 4 the shape and size of thedevice top 9 corresponding to or distorting to the internal shape and internal size of the formedopening 4 allows thedevice top 9 to move inside the formedopening 4 in such a manner that as much of thecontents 16 are expelled as is feasibly possible. In this instance, thedevice plug 12 is of such a shape and size that thecontents 16 are still able to flow through the formedorifice 5 even when thedevice plug 12 has moved inside of the formedorifice 5. - The user is able to vary the
external pressure 19 in such a manner that the user can then control the rate at which thecontents 16 are expelled. - When the user removes the
external pressure 19 the consequent forces that have been set up within thedeformable dispensing tube 1 and thedevice 8 are removed in the reverse order to which they were set up. - Therefore, firstly the
device 8 as a whole unit will stop moving and consequently thecontents 16 will cease to flow. Secondly, the storedforce 29 will retract the distortedcentre 30 to its original state. At this point one of two alternative actions (or ideally a combination of both) can occur by design. - Either the
device 8 as a whole unit can move in the direction of the formedopening 4 to fill the space occupied by the distortedcentre 30. Or alternatively thecontents 16 can be drawn or retracted back into the deformabledispensable tube 1 to fill the space occupied by the distortedcentre 30. This movement of thecontents 16 back into the deformable dispensing tube is hereinafter referred to as “content retraction 34” as is shown by thearrow 34 inFIG. 56 . - With reference to
FIG. 52 andFIG. 53 , theinternal pressure 21 can also be created by an external force at 24 on thedeformable body 2 between the formedopening 4 and the location of thedevice 8. - When an external force at 24 generates the
internal pressure 21, the consequent opposingforce 23 can act to move thedevice 8 as a whole unit in the direction of the opposingforce 23 that is towards the sealedend 3. The non-return features 26 will prevent thedevice 8 moving in the direction of the sealedend 3. Consequently the opposingforce 23 will act on thedeformable centre 27 to make it distort in the direction of the opposingforce 23. However, the design of thedeformable centre 27 combined with the constraint of thedeformable dispensing tube 1 on thedevice 8 will be such that the force required to move thedeformable centre 27 in the direction of the opposingforce 23 is greater than the force required to expel thecontents 16 through theorifice 5. Therefore if the formedorifice 5 is un-sealed theinternal pressure 20 generated by an external force at 24 will result in thecontents 16 being expelled through the formedorifice 5, as arrowed at 22. - As the
device 8 is prevented from moving back towards the sealedend 3 by thenon-return features 26 thecontents 16 will always remain in the area of the formedopening 4 ready for further use.
Claims (3)
1. A deformable dispensing tube having a first end portion which is closed and a second end portion with an opening through which, when the tube has been filled, contents can be dispensed by deformation of the tube, the tube comprising:
a dispensing device moveable inside the tube and positioned so that on filling contents are disposed generally between the dispensing device and the opening so that on application of external pressure to the tube by a user contents can be dispensed through the opening;
wherein the dispensing device comprises a device filled with fluid under pressure and having a top portion arranged to be in contact with the tube contents for transferring pressure between the tube contents and the fluid, and a sealing portion for applying a sealing force against an internal wall of the tube for resisting the transgression of contents between the sealing portion and the tube, the sealing portion being located against the internal wall by pressure of fluid in the device,
the sealing portion comprises a flexible annular seal lip projecting towards the opening of the tube from the top portion and having an internal surface against which pressure of the tube contents bears for increasing the sealing force by which the seal lip seals against the internal wall of the tube.
2. A tube as claimed in claim 1 , wherein the flexible annular seal lip is compressed to fit within the tube and the pressure of fluid contents on the internal surface of the seal tip expands the seal lip to apply increased sealing against the internal wall,
3. A tube as claimed in claim 1 , wherein the seal portion comprises a further seal and application of external pressure to the tube at the dispensing device generates an increase in the pressure of fluid in the device causing the top portion to deform towards the tube opening thereby increasing the pressure of contents in the tube for dispensing the contents and causing an increased sealing force to be applied between the further seal and the tube; and application of external pressure to the tube away from the dispensing device dispenses contents and generates an increase in pressure of contents in the tube causing the device top to deform towards the closed end of the tube thereby increasing the pressure on the fluid in the device and causing an increased sealing force to be applied between the further seal and the tube.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US13/932,458 US20130299513A1 (en) | 2005-12-10 | 2013-07-01 | Tube dispensing device |
Applications Claiming Priority (5)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
GB0525219A GB2433486B (en) | 2005-12-10 | 2005-12-10 | Deformable dispensing tube |
GB0525219.2 | 2005-12-10 | ||
PCT/GB2006/004589 WO2007066123A1 (en) | 2005-12-10 | 2006-12-08 | Tube dispensing device |
US9621408A | 2008-06-05 | 2008-06-05 | |
US13/932,458 US20130299513A1 (en) | 2005-12-10 | 2013-07-01 | Tube dispensing device |
Related Parent Applications (2)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/GB2006/004589 Continuation WO2007066123A1 (en) | 2005-12-10 | 2006-12-08 | Tube dispensing device |
US9621408A Continuation | 2005-12-10 | 2008-06-05 |
Publications (1)
Publication Number | Publication Date |
---|---|
US20130299513A1 true US20130299513A1 (en) | 2013-11-14 |
Family
ID=35735921
Family Applications (2)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US12/096,214 Expired - Fee Related US8499973B2 (en) | 2005-12-10 | 2006-12-08 | Tube dispensing device |
US13/932,458 Abandoned US20130299513A1 (en) | 2005-12-10 | 2013-07-01 | Tube dispensing device |
Family Applications Before (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US12/096,214 Expired - Fee Related US8499973B2 (en) | 2005-12-10 | 2006-12-08 | Tube dispensing device |
Country Status (10)
Country | Link |
---|---|
US (2) | US8499973B2 (en) |
EP (1) | EP1976765B1 (en) |
JP (1) | JP2009518246A (en) |
CN (1) | CN101336198B (en) |
AT (1) | ATE508963T1 (en) |
DK (1) | DK1976765T3 (en) |
ES (1) | ES2366578T3 (en) |
GB (1) | GB2433486B (en) |
PL (1) | PL1976765T3 (en) |
WO (1) | WO2007066123A1 (en) |
Families Citing this family (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20080302826A1 (en) * | 2007-06-09 | 2008-12-11 | Rich Jr Joseph | Plunger tube |
KR101055936B1 (en) | 2009-02-14 | 2011-08-09 | 김성기 | Packaging tube with built-in drain |
KR101022595B1 (en) * | 2010-01-27 | 2011-03-16 | 우종원 | A tube having extrude piston for viscosity substance |
WO2011087335A2 (en) * | 2010-02-23 | 2011-07-21 | Woo Jong Won | Tube container having piston for dispensing viscous substances |
EP2647583A1 (en) * | 2012-04-03 | 2013-10-09 | Marc Mamiye | Pinch tube with internal piston dispensing extractor |
TW201502018A (en) * | 2013-04-09 | 2015-01-16 | Veycle Design Co Ltd | The method of squeezed body for gel container |
US9591908B2 (en) * | 2014-04-15 | 2017-03-14 | Aa R&D Llc | Press-type dispensing container |
WO2016113186A1 (en) * | 2015-01-15 | 2016-07-21 | Enzo Ferrarin | Container for flowing substances |
MX2020011338A (en) * | 2018-04-27 | 2021-01-15 | Joel SHALOWITZ | Food container and dispenser. |
KR102057825B1 (en) * | 2018-08-23 | 2019-12-20 | 모리스앤코 주식회사 | the tube wringer |
Family Cites Families (21)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2361647A (en) * | 1942-05-20 | 1944-10-31 | Nyden Robert | Collapsible dispensing tube |
US2777612A (en) | 1951-05-15 | 1957-01-15 | Richard E Bensen | Compression type dispensing device |
US3184120A (en) * | 1963-08-16 | 1965-05-18 | Katherine Undi | Dispensing device for fluids |
US3201003A (en) * | 1964-01-27 | 1965-08-17 | John D Wark | Dispensing container |
US3493147A (en) * | 1968-02-05 | 1970-02-03 | Gene Ballin | Collapsible tube and follower |
US3521795A (en) * | 1968-03-04 | 1970-07-28 | Bahl Associates | Full discharge dispensing container |
USRE27057E (en) * | 1968-12-23 | 1971-02-09 | Collapsible tubes with follower and tur method of filling thereof | |
DE1959349A1 (en) * | 1969-11-26 | 1971-06-03 | Marek Josef Dipl Ing | Tube-like packaging for substances with a pulpy to liquid consistency |
JPS4812237U (en) * | 1971-06-21 | 1973-02-10 | ||
FR2244678A1 (en) * | 1973-09-20 | 1975-04-18 | Raksanyi Arpad | Emptying system for squeeze tubes - uses deformable plug in tube end forcing tube contents out |
US4039103A (en) * | 1974-12-18 | 1977-08-02 | Hubert Juillet | Pressurized dispensing containers |
US4102476A (en) * | 1977-02-22 | 1978-07-25 | Ciba-Geigy Corporation | Squeeze bottle dispenser with air check valve on cover |
DE3405547A1 (en) * | 1984-02-16 | 1985-08-14 | Hilti Ag, Schaan | PRESSING PISTON FOR CONTAINERS |
JPH0615885Y2 (en) * | 1988-10-14 | 1994-04-27 | ポーラ化成工業株式会社 | Squeeze container |
US5137177A (en) * | 1991-03-11 | 1992-08-11 | Willis Dale R | Dispensing tube with tubewall ribs and rear spherical plunger ball |
GB2257108A (en) * | 1991-06-25 | 1993-01-06 | John David Sheppard | Dispensing contents of sqeezable containers |
US20020148854A1 (en) * | 2001-04-16 | 2002-10-17 | Egerhazy Joseph Bela | Flexible tube dispenser for viscous materials with movable insert and method of assembly |
PT1597162E (en) | 2002-10-29 | 2007-03-30 | Enzo Ferrarin | Container for fluid substances like pastes or creams |
US7111761B2 (en) * | 2003-07-03 | 2006-09-26 | Masatoshi Masuda | Fluid discharge pump and fluid container |
JP4287304B2 (en) * | 2004-02-23 | 2009-07-01 | アース製薬株式会社 | Flexible paste tube with built-in extrusion promoter |
AR050595A1 (en) * | 2005-06-22 | 2006-11-08 | Gaston Schang | PORTABLE CONTAINER FOR CONTAINING AND DISPENSING VISCOSE OR PASTRY SUBSTANCES |
-
2005
- 2005-12-10 GB GB0525219A patent/GB2433486B/en not_active Expired - Fee Related
-
2006
- 2006-12-08 ES ES06820458T patent/ES2366578T3/en active Active
- 2006-12-08 CN CN2006800524176A patent/CN101336198B/en not_active Expired - Fee Related
- 2006-12-08 AT AT06820458T patent/ATE508963T1/en not_active IP Right Cessation
- 2006-12-08 JP JP2008543903A patent/JP2009518246A/en active Pending
- 2006-12-08 US US12/096,214 patent/US8499973B2/en not_active Expired - Fee Related
- 2006-12-08 EP EP06820458A patent/EP1976765B1/en not_active Not-in-force
- 2006-12-08 WO PCT/GB2006/004589 patent/WO2007066123A1/en active Application Filing
- 2006-12-08 DK DK06820458.5T patent/DK1976765T3/en active
- 2006-12-08 PL PL06820458T patent/PL1976765T3/en unknown
-
2013
- 2013-07-01 US US13/932,458 patent/US20130299513A1/en not_active Abandoned
Also Published As
Publication number | Publication date |
---|---|
GB2433486A (en) | 2007-06-27 |
ES2366578T3 (en) | 2011-10-21 |
US20080302832A1 (en) | 2008-12-11 |
US8499973B2 (en) | 2013-08-06 |
EP1976765B1 (en) | 2011-05-11 |
WO2007066123A1 (en) | 2007-06-14 |
EP1976765A1 (en) | 2008-10-08 |
JP2009518246A (en) | 2009-05-07 |
PL1976765T3 (en) | 2011-12-30 |
GB0525219D0 (en) | 2006-01-18 |
GB2433486B (en) | 2008-07-09 |
ATE508963T1 (en) | 2011-05-15 |
CN101336198B (en) | 2011-12-28 |
WO2007066123B1 (en) | 2007-07-26 |
CN101336198A (en) | 2008-12-31 |
DK1976765T3 (en) | 2011-08-15 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US20130299513A1 (en) | Tube dispensing device | |
US3768705A (en) | Dispensers for fluent masses | |
US5529213A (en) | Squeezable dispensing container for fluid materials | |
US5289949A (en) | Multi-cavity dispensing refill cartridge | |
US6065651A (en) | Closable dispenser and dispensing apparatus | |
EP2242409B1 (en) | Disposable pump with suck-back mechanism | |
US20020113093A1 (en) | Device for dispensing product | |
US3493147A (en) | Collapsible tube and follower | |
JPH06502830A (en) | Collapsible containers for pasty products | |
JP6518758B2 (en) | Packaging | |
US20020148854A1 (en) | Flexible tube dispenser for viscous materials with movable insert and method of assembly | |
US20070272711A1 (en) | Squeezable Dispensing Container | |
EP0620802A1 (en) | Squeeze bottle package | |
EP0330928B1 (en) | Dispensing device | |
US20120085786A1 (en) | Pinch tube with internal piston dispensing extractor | |
US4316556A (en) | Flexible container and expeller | |
WO1994019252A1 (en) | Dispenser | |
US20080029552A1 (en) | Dispensing container for flowable materials | |
JP4287304B2 (en) | Flexible paste tube with built-in extrusion promoter | |
US6003729A (en) | Device for squeezing a viscous liquid from a tube dispenser | |
EP0066016A1 (en) | Dispensing and evacuating devices | |
GB2062767A (en) | Dispensing or Evacuating Device | |
US20090188940A1 (en) | Toothpaste Tube and Dispenser | |
US6189737B1 (en) | Squeezable tube clip and retainer | |
US20060113331A1 (en) | Molded collapsible blow dome apparatus and method |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
STCB | Information on status: application discontinuation |
Free format text: ABANDONED -- FAILURE TO RESPOND TO AN OFFICE ACTION |