CA2533133C - Mechanical apparatus for stuffing plush toys - Google Patents
Mechanical apparatus for stuffing plush toys Download PDFInfo
- Publication number
- CA2533133C CA2533133C CA002533133A CA2533133A CA2533133C CA 2533133 C CA2533133 C CA 2533133C CA 002533133 A CA002533133 A CA 002533133A CA 2533133 A CA2533133 A CA 2533133A CA 2533133 C CA2533133 C CA 2533133C
- Authority
- CA
- Canada
- Prior art keywords
- stuffing
- rotating
- drum
- auger
- rotating member
- 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.)
- Expired - Fee Related
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B68—SADDLERY; UPHOLSTERY
- B68G—METHODS, EQUIPMENT, OR MACHINES FOR USE IN UPHOLSTERING; UPHOLSTERY NOT OTHERWISE PROVIDED FOR
- B68G7/00—Making upholstery
- B68G7/06—Filling of cushions, mattresses, or the like
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- Engineering & Computer Science (AREA)
- Manufacturing & Machinery (AREA)
- Mechanical Engineering (AREA)
- Toys (AREA)
Abstract
A toy stuffing apparatus, including a stuffing drum with a rotating member and a rotating auger below the stuffing drum for transporting the stuffing along the auger shaft and out an exit. Also included is the kit for use in stuffing a stuffed toy.
Description
MECHANICAL APPARATUS FOR STUFFING PLUSH TOYS
Field of Invention This device relates to the field of stuffed toys, in particular, an apparatus or kit for stuffing toys.
Background of the Invention Retail shops at which customers can make customized stuffed toys such as teddy bears are extremely popular. Such toys are also known in the toy trade as "plush".
At such retail shops customers choose from a variety of pre-made animal or character "skins", which are the outer fabric casings of the plush toy comprised of fabric panels sewn together into the forms of the animal or character and act as the container, which is inflated into the full shape of the animal or character by being stuffed full of a soft, fluffy stuffing material.
In essence, the skin is the plush toy absent the stuffing and decorative detailing. The customer also selects from a variety of facial features to be attached to the skin in the appropriate location after the skin is stuffed and choose from a variety of clothing and other accessories to complete the plush creation.
The focal point of the in-store manufacturing process is the stuffing machine.
It is a large piece of heavy equipment that typically measures several feet in length, width, and height, and weighs hundreds of pounds. It is powered by a/c current that runs large motors, blowers and air compressors which, together, generate and direct significant air velocity and pressure needed to force the stuffing from the machine, through an injection tube, and into the skin through a hole in the fabric of the skin. Once filled with stuffing, the skin is removed from the injection tube and the store employee closes the skin fill hole by tying shut laces around the hole, or by some other method of closure, which requires the skill of the store employees.
Due to the size of the machine required for this method of stuffing a plush toy, the machine is also noisy, expensive, and too dangerous to be handled by customers, especially young children. Therefore, the customer merely passively watches, while the employee performs the entire manufacturing process.
Attempts have been made to reduce the size and cost of these stuffing machines to make them more portable and more suitable for the mass market, but the degree to which they can be reduced is restricted by the requirements of the large motors and compressors needed to generate sufficient pressure to fill the skins. Such machines require skill and dexterity not possessed by young children.
Therefore, there remains a need for a toy stuffing apparatus to be reduced to a size, price, or level of skill and safety that would allow them to be used at home by small children as an activity toy, or craft kit.
Summary of the Invention One embodiment of the invention includes an apparatus for inserting stuffing into an outer fabric casing, comprising a hollow outer casing, including a stuffing drum with a first end, a second end, and an opening for receiving the stuffing, an auger shaft located below the stuffing drum with the auger shaft including a stuffing exit, and a base located below the auger shaft; at least one rotating member for rotating about a horizontal axis within the stuffing drum, the member being rotated by rotating means connected to the exterior of the first end of the stuffing drum; a rotating auger within the auger shaft, rotating from a first end to a second end positioned near the stuffing exit, and having a diameter smaller than the auger shaft; and a gear system including a rotating member gear located between the rotating member and the rotating means, an auger gear connected to the first end of the auger, and an intermediate gear connecting the member gear and the auger gear, allowing rotation of the rotating means to rotate the auger as well as the member.
Another embodiment of the invention includes a kit for making a stuffed toy at home, comprising an outer fabric casing including closure means; stuffing to fit within the outer fabric casing; an apparatus for inserting the stuffing into the outer fabric casing, including, a hollow outer casing, including, a stuffing drum with a first end, a second end, and an opening, an auger shaft located below the stuffing drum with the auger shaft including a stuffing exit, and a base located below the auger shaft, at least one rotating member for rotating about a horizontal axis within the stuffing drum, the member being rotated by rotating means connected to the exterior of the first end of the stuffing drum, a rotating auger within the auger shaft, rotating from a first end to a second end positioned near the stuffing exit, and having a diameter smaller than the auger shaft, and a gear system including a rotating member gear located between the rotating member and the rotating means, an auger gear connected to the first end of the auger, and an intermediate gear connecting the member gear and the auger gear, allowing rotation of the rotating means to rotate the auger as well as the member; and a stuffing canister, including a hollow transparent cylinder with a top and bottom end for inserting the stuffing into, a piston platform with a diameter slightly less than the cylinder, a plunger rod with a length greater than the length of the cylinder extending from the piston platform up through the top end of the cylinder, and connection means at the bottom of the cylinder to mate with the opening in the stuffing drum.
Brief Description of Drawings Figure 1 is a perspective view of the toy stuffing apparatus;
Figure 2 is a side view of the toy stuffing apparatus from Figure 1;
Figure 3 is an end view of the toy stuffing apparatus from Figure 1;
Figure 4 is an exploded view of the toy stuffing apparatus from Figure 1; and Figure 5 is a side view of an accessory for use with the apparatus of Figures 1 to 4.
Detailed Description of Preferred Embodiment Figures 1 through 4 show the toy stuffing apparatus 10, including a hollow outer casing 12, which further includes a stuffing drum 14, an auger housing 16, and a base 18.
As can be seen in Figure 4, within the stuffing drum 14 is a rotating plate 20, which in this main embodiment is shown as a flat disk. This rotating plate 20 rotates around a horizontal axis within the stuffing drum 14, and therefore has a diameter slightly less than the interior of the stuffing drum 14. Rotating plate 20 has a central axle 21 terminating in short pegs 23 that extend through openings in the ends of the stuffing drum 14, where it is attached to rotating means, which can be seen in Figures 1 through 4, to be a handle 22 which can be manually rotated.
Field of Invention This device relates to the field of stuffed toys, in particular, an apparatus or kit for stuffing toys.
Background of the Invention Retail shops at which customers can make customized stuffed toys such as teddy bears are extremely popular. Such toys are also known in the toy trade as "plush".
At such retail shops customers choose from a variety of pre-made animal or character "skins", which are the outer fabric casings of the plush toy comprised of fabric panels sewn together into the forms of the animal or character and act as the container, which is inflated into the full shape of the animal or character by being stuffed full of a soft, fluffy stuffing material.
In essence, the skin is the plush toy absent the stuffing and decorative detailing. The customer also selects from a variety of facial features to be attached to the skin in the appropriate location after the skin is stuffed and choose from a variety of clothing and other accessories to complete the plush creation.
The focal point of the in-store manufacturing process is the stuffing machine.
It is a large piece of heavy equipment that typically measures several feet in length, width, and height, and weighs hundreds of pounds. It is powered by a/c current that runs large motors, blowers and air compressors which, together, generate and direct significant air velocity and pressure needed to force the stuffing from the machine, through an injection tube, and into the skin through a hole in the fabric of the skin. Once filled with stuffing, the skin is removed from the injection tube and the store employee closes the skin fill hole by tying shut laces around the hole, or by some other method of closure, which requires the skill of the store employees.
Due to the size of the machine required for this method of stuffing a plush toy, the machine is also noisy, expensive, and too dangerous to be handled by customers, especially young children. Therefore, the customer merely passively watches, while the employee performs the entire manufacturing process.
Attempts have been made to reduce the size and cost of these stuffing machines to make them more portable and more suitable for the mass market, but the degree to which they can be reduced is restricted by the requirements of the large motors and compressors needed to generate sufficient pressure to fill the skins. Such machines require skill and dexterity not possessed by young children.
Therefore, there remains a need for a toy stuffing apparatus to be reduced to a size, price, or level of skill and safety that would allow them to be used at home by small children as an activity toy, or craft kit.
Summary of the Invention One embodiment of the invention includes an apparatus for inserting stuffing into an outer fabric casing, comprising a hollow outer casing, including a stuffing drum with a first end, a second end, and an opening for receiving the stuffing, an auger shaft located below the stuffing drum with the auger shaft including a stuffing exit, and a base located below the auger shaft; at least one rotating member for rotating about a horizontal axis within the stuffing drum, the member being rotated by rotating means connected to the exterior of the first end of the stuffing drum; a rotating auger within the auger shaft, rotating from a first end to a second end positioned near the stuffing exit, and having a diameter smaller than the auger shaft; and a gear system including a rotating member gear located between the rotating member and the rotating means, an auger gear connected to the first end of the auger, and an intermediate gear connecting the member gear and the auger gear, allowing rotation of the rotating means to rotate the auger as well as the member.
Another embodiment of the invention includes a kit for making a stuffed toy at home, comprising an outer fabric casing including closure means; stuffing to fit within the outer fabric casing; an apparatus for inserting the stuffing into the outer fabric casing, including, a hollow outer casing, including, a stuffing drum with a first end, a second end, and an opening, an auger shaft located below the stuffing drum with the auger shaft including a stuffing exit, and a base located below the auger shaft, at least one rotating member for rotating about a horizontal axis within the stuffing drum, the member being rotated by rotating means connected to the exterior of the first end of the stuffing drum, a rotating auger within the auger shaft, rotating from a first end to a second end positioned near the stuffing exit, and having a diameter smaller than the auger shaft, and a gear system including a rotating member gear located between the rotating member and the rotating means, an auger gear connected to the first end of the auger, and an intermediate gear connecting the member gear and the auger gear, allowing rotation of the rotating means to rotate the auger as well as the member; and a stuffing canister, including a hollow transparent cylinder with a top and bottom end for inserting the stuffing into, a piston platform with a diameter slightly less than the cylinder, a plunger rod with a length greater than the length of the cylinder extending from the piston platform up through the top end of the cylinder, and connection means at the bottom of the cylinder to mate with the opening in the stuffing drum.
Brief Description of Drawings Figure 1 is a perspective view of the toy stuffing apparatus;
Figure 2 is a side view of the toy stuffing apparatus from Figure 1;
Figure 3 is an end view of the toy stuffing apparatus from Figure 1;
Figure 4 is an exploded view of the toy stuffing apparatus from Figure 1; and Figure 5 is a side view of an accessory for use with the apparatus of Figures 1 to 4.
Detailed Description of Preferred Embodiment Figures 1 through 4 show the toy stuffing apparatus 10, including a hollow outer casing 12, which further includes a stuffing drum 14, an auger housing 16, and a base 18.
As can be seen in Figure 4, within the stuffing drum 14 is a rotating plate 20, which in this main embodiment is shown as a flat disk. This rotating plate 20 rotates around a horizontal axis within the stuffing drum 14, and therefore has a diameter slightly less than the interior of the stuffing drum 14. Rotating plate 20 has a central axle 21 terminating in short pegs 23 that extend through openings in the ends of the stuffing drum 14, where it is attached to rotating means, which can be seen in Figures 1 through 4, to be a handle 22 which can be manually rotated.
Referring now specifically to the exploded view of Figure 4, the mode of construction of a preferred embodiment of the present invention is illustrated. The outer casing of the apparatus is composed of two half shells 121 each of which is formed to defined one half of the drum 14, auger housing 16 and base 18. It will be observed that openings 141, 161 for transparent windows 142, 162 are formed in the drum 14 and auger housing 16 portions of one half shell 121. These windows 142, 162, as illustrated, are held onto the shell by adhesive or suitable fasteners .
Inwardly of the window 162 in the auger housing 16 is located a two-piece auger cylinder 163, in which auger 24 is mounted for rotation. At one end of auger 24 is a short axle 241. The other end is captive in a collar 242 that fits into nozzle 28. Nozzle 28 is held onto the auger housing 16, when the two halves of it are joined, by a threaded retaining ring 243.
As noted, below the stuffing drum 14 is the auger housing 16, which houses the corkscrew-like, rotating auger 24. The auger 24 is positioned within the auger housing 16 to move stuffing towards the stuffing exit 26, which in the main embodiment can be also seen to include a nozzle 28. Nozzle 28 may be tapered. The end of the rotating auger 24 that is not adjacent to the exit 26 is connected via axle 241 to the auger gear 30. As can be best seen in Figure 4, the auger gear 30 connects to the intermediate reduction gear 32, which, in turn is rotated by the rotating plate gear 34. Plate gear 34 is joined to three piece handle 22 by a fitting 221. Therefore, as the handle 22 is turned, the rotating plate 20 rotates, along with the rotating plate gear 34. As the rotating plate gear 34 rotates, it in turn rotates the intermediate reduction gear 32, which rotates the auger gear 30, and the auger 24 along with it. It will be understood, however, that alternate drive arrangements for connecting the rotating means 22 to the auger will be obvious to one skilled in the art.
Therefore, in use, the stuffing (not shown) is placed within the stuffing apparatus 10, through the stuffing opening 36. The screwcap 38, which has an inner and outer piece, is then used to seal the opening 36, and the handle 22 is turned, allowing the stuffing to tumble around within the stuffing drum 14. Since the interior of the hollow outer casing 12 is open, the stuffing will shift downward, from the stuffing drum 14, and into the auger housing 16. Once in the auger housing 16, the auger 24 will force the stuffing along the auger housing 16, and out the stuffing exit 26, and into whatever fabric casing the user is stuffing at the time.
Some other elements of the main embodiment can be seen in Figures 1 through 4.
In the base 18, there is a storage compartment 40, in which decorative accessories for the toy may be stored. As well, since this is a toy and children would be using it, visual appeal is offered by way of windows 142, 162, allowing the child to see the stuffing tumbling around within both the stuffing drum 14 and the auger housing 16.
An accessory of the device is shown in Figure 5. Moreover, rather than a rotating plate being provided, a pair of rods may rotate around the edge of the stuffing drum 14 by a pair of connectors that are attached to the handle 22. At the opposite side of the stuffing drum from the handle 22 or at any other convenient location may be a battery housing, which contains circuitry and a small power source. Wires may travel through the connectors to the rods , where lighting elements, such as LEDs may be located, to provide a pleasing visual effect.
Furthermore, a sound chip may be provided to produce musical or other sounds.
As shown in Figure 5, the stuffing drum may be provided with a cylindrical cannister 52 that is provided with a piston 56 that can be moved by a user by means of a rod 58 that has a piston handle 54 on it. The cannister 52 mounts directly on the top of the drum, to the opening thereof.
The cannister 52 is mounted directly above and in communication with the drum, and can be filled with a preferably pre-measured quantity of stuffing by withdrawing the piston up through the cannister until it is free of the cannister, and then adding the stuffing to the cannister. The piston is then mounted on the drum, for instance by screw threads, and actuated by grasping the handle and pushing it in a downward direction. This forces the stuffing from the cannister into the drum. As necessary, the plunger is pushed downwardly to force more stuffing from the cannister into the drum, and from there, into the auger housing.
In another embodiment, the drive means for the auger 24 is a ratchet gear system, thereby allowing rotation of the auger in one direction only.
In a further embodiment, the external handle 22 may be replaced by a motor.
Inwardly of the window 162 in the auger housing 16 is located a two-piece auger cylinder 163, in which auger 24 is mounted for rotation. At one end of auger 24 is a short axle 241. The other end is captive in a collar 242 that fits into nozzle 28. Nozzle 28 is held onto the auger housing 16, when the two halves of it are joined, by a threaded retaining ring 243.
As noted, below the stuffing drum 14 is the auger housing 16, which houses the corkscrew-like, rotating auger 24. The auger 24 is positioned within the auger housing 16 to move stuffing towards the stuffing exit 26, which in the main embodiment can be also seen to include a nozzle 28. Nozzle 28 may be tapered. The end of the rotating auger 24 that is not adjacent to the exit 26 is connected via axle 241 to the auger gear 30. As can be best seen in Figure 4, the auger gear 30 connects to the intermediate reduction gear 32, which, in turn is rotated by the rotating plate gear 34. Plate gear 34 is joined to three piece handle 22 by a fitting 221. Therefore, as the handle 22 is turned, the rotating plate 20 rotates, along with the rotating plate gear 34. As the rotating plate gear 34 rotates, it in turn rotates the intermediate reduction gear 32, which rotates the auger gear 30, and the auger 24 along with it. It will be understood, however, that alternate drive arrangements for connecting the rotating means 22 to the auger will be obvious to one skilled in the art.
Therefore, in use, the stuffing (not shown) is placed within the stuffing apparatus 10, through the stuffing opening 36. The screwcap 38, which has an inner and outer piece, is then used to seal the opening 36, and the handle 22 is turned, allowing the stuffing to tumble around within the stuffing drum 14. Since the interior of the hollow outer casing 12 is open, the stuffing will shift downward, from the stuffing drum 14, and into the auger housing 16. Once in the auger housing 16, the auger 24 will force the stuffing along the auger housing 16, and out the stuffing exit 26, and into whatever fabric casing the user is stuffing at the time.
Some other elements of the main embodiment can be seen in Figures 1 through 4.
In the base 18, there is a storage compartment 40, in which decorative accessories for the toy may be stored. As well, since this is a toy and children would be using it, visual appeal is offered by way of windows 142, 162, allowing the child to see the stuffing tumbling around within both the stuffing drum 14 and the auger housing 16.
An accessory of the device is shown in Figure 5. Moreover, rather than a rotating plate being provided, a pair of rods may rotate around the edge of the stuffing drum 14 by a pair of connectors that are attached to the handle 22. At the opposite side of the stuffing drum from the handle 22 or at any other convenient location may be a battery housing, which contains circuitry and a small power source. Wires may travel through the connectors to the rods , where lighting elements, such as LEDs may be located, to provide a pleasing visual effect.
Furthermore, a sound chip may be provided to produce musical or other sounds.
As shown in Figure 5, the stuffing drum may be provided with a cylindrical cannister 52 that is provided with a piston 56 that can be moved by a user by means of a rod 58 that has a piston handle 54 on it. The cannister 52 mounts directly on the top of the drum, to the opening thereof.
The cannister 52 is mounted directly above and in communication with the drum, and can be filled with a preferably pre-measured quantity of stuffing by withdrawing the piston up through the cannister until it is free of the cannister, and then adding the stuffing to the cannister. The piston is then mounted on the drum, for instance by screw threads, and actuated by grasping the handle and pushing it in a downward direction. This forces the stuffing from the cannister into the drum. As necessary, the plunger is pushed downwardly to force more stuffing from the cannister into the drum, and from there, into the auger housing.
In another embodiment, the drive means for the auger 24 is a ratchet gear system, thereby allowing rotation of the auger in one direction only.
In a further embodiment, the external handle 22 may be replaced by a motor.
It will be understood, moreover, that within the overall inventive concept of the present invention are the stuffing machine of the present invention, the combination of the stuffing machine and plush skins, and kits including a machine according to the present invention, stuffing, and one or more skins.
Claims (13)
1. An apparatus for inserting stuffing into an outer fabric casing, comprising:
a) a hollow outer casing, including:
a. a stuffing drum with a first end, a second end, and an opening for receiving the stuffing, and b. an auger housing located below and communicating with the stuffing drum, said auger housing including a stuffing exit;
b) at least one rotating member for rotating about a horizontal axis within the stuffing drum, the rotating member being rotated by a rotating means connected to the exterior of the first end of the stuffing drum;
c) a rotating auger within the auger housing; and d) drive means for rotating said auger upon rotation of said rotating means.
a) a hollow outer casing, including:
a. a stuffing drum with a first end, a second end, and an opening for receiving the stuffing, and b. an auger housing located below and communicating with the stuffing drum, said auger housing including a stuffing exit;
b) at least one rotating member for rotating about a horizontal axis within the stuffing drum, the rotating member being rotated by a rotating means connected to the exterior of the first end of the stuffing drum;
c) a rotating auger within the auger housing; and d) drive means for rotating said auger upon rotation of said rotating means.
2. The apparatus as claimed in claim 1, wherein the rotating member is a flat plate with a diameter less than the interior of the stuffing drum.
3. The apparatus as claimed in claim 1, wherein the rotating member includes:
a) a connector positioned at the first end of the interior of the stuffing drum attached to a rotating member gear, the connector having a length slightly less than the interior diameter of the stuffing drum; and b) a pair of rods attached to each end of the connector, each rod having a length slightly less than the length of the stuffing drum.
a) a connector positioned at the first end of the interior of the stuffing drum attached to a rotating member gear, the connector having a length slightly less than the interior diameter of the stuffing drum; and b) a pair of rods attached to each end of the connector, each rod having a length slightly less than the length of the stuffing drum.
4. The apparatus as claimed in claim 1, wherein the opening at the top of the stuffing drum may be covered by a screw top.
5. The apparatus as claimed in claim 1, wherein the drive means is a ratchet gear system, thereby only allowing for turning of the rotating means in one direction.
6. The apparatus as claimed in any one of claims 1, 2, or 3, wherein the hollow outer casing includes transparent portions to allow the interior of the hollow outer casing to be visible as the apparatus is used.
7. The apparatus as claimed in any one of claims 1, 2, 3, or 6, including a battery housing.
8. The apparatus as claimed in claim 7, wherein the rotating member further includes lighting elements connected by wires to the battery housing.
9. The apparatus as claimed in claim 1, wherein the rotating means includes a handle to be rotated manually.
10. The apparatus as claimed in claim 1, wherein the rotating means includes a motor.
11. The apparatus as claimed in claim 3, wherein the drive means includes gears operably connecting said rotating member gear and said auger..
12. The apparatus as claimed in claim 1, wherein the stuffing exit includes a tapered nozzle.
13. A kit for making a stuffed toy at home, comprising:
a) an outer fabric casing including closure means;
b) stuffing to fit within the outer fabric casing;
c) an apparatus for inserting the stuffing into the outer fabric casing, as claimed in claim 1.
a) an outer fabric casing including closure means;
b) stuffing to fit within the outer fabric casing;
c) an apparatus for inserting the stuffing into the outer fabric casing, as claimed in claim 1.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US64647905P | 2005-01-25 | 2005-01-25 | |
US60/646,479 | 2005-01-25 |
Publications (2)
Publication Number | Publication Date |
---|---|
CA2533133A1 CA2533133A1 (en) | 2006-07-25 |
CA2533133C true CA2533133C (en) | 2008-03-25 |
Family
ID=36702773
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CA002533133A Expired - Fee Related CA2533133C (en) | 2005-01-25 | 2006-01-13 | Mechanical apparatus for stuffing plush toys |
Country Status (1)
Country | Link |
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CA (1) | CA2533133C (en) |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111870967B (en) * | 2020-07-03 | 2022-03-18 | 广东乐的互动娱乐股份有限公司 | Filling equipment suitable for toy production and filling process thereof |
-
2006
- 2006-01-13 CA CA002533133A patent/CA2533133C/en not_active Expired - Fee Related
Also Published As
Publication number | Publication date |
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CA2533133A1 (en) | 2006-07-25 |
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EEER | Examination request | ||
MKLA | Lapsed |
Effective date: 20140114 |