For the production of pompons, annular wrapping templates are known in which the serving for pomping yarn is continuously wound around the resulting ring between the central hole and the periphery. In order to avoid having to pass yarn through the central hole, it is known from document DE 3 722 854 A1 to form the winding ring from two identical ring halves, which are movably connected to one another, for example via a hinge. The hinge allows a pivot, whereby the winding process is facilitated because each ring half can be wrapped in succession. The winding ring is closed only after the winding process to carry out the final assembly of the pompom, namely to cut the yarn at its periphery. With a fastening thread, a thread loop is generated, which holds the finished pompon together. In order to facilitate the cutting in the periphery, the winding rings are spaced by nubs, so that a gap is formed, a cutting tool is inserted into the gap and cut along the periphery of the yarn package. A similar device with winding rings of two ring halves is shown in the design patent U.S. Pat. No. 2,751,515 S. A disadvantage of the aforementioned known winding templates that during manufacture of the pompon, the two winding rings can move apart or move against each other, so that the winding rings are no longer aligned. If this happens, it is no longer possible to achieve a desired form-fitting pompon and the wrapping process must be restarted.
The document JP 3 436 751 B2 shows a possibility of keeping the two winding disks in a coupled state. For this purpose, a support device is present, which consists of two support elements. At each support member two semicircular ring elements are pivotally supported. For wrapping, the carrier elements are connected and the ring elements pivoted away from the carrier device to the outside. For cutting the pompom along the entire periphery, the support elements must be separated from each other. The aforementioned device is structurally complex. Moreover, this device can only make pompons of one particular size.
It is an object of the present invention to provide an improved apparatus for producing a pompon, which is particularly simple in construction and can make pompons of various sizes.
This object is achieved with a device having the features of claim 1. The dependent claims provide further advantageous features for such a device.
The new device for producing pompons comprises a ring carrier, which holds two winding disks in a holding region, wherein two half-ring-shaped disk halves together form a winding disk. Outside the holding area for the disc halves, the ring carrier has a handle. This handle can be grasped during the entire pompon production without hindering the winding process or the cutting.
The ring carrier is composed of two carrier elements, which are pivotally connected together at the handle end and at the other end via closure elements are connected to a releasable closure together, which then results in the holding area being a closed ring.
In an advantageous embodiment, the two pieces that make up the ring carrier are identical to each other. This allows a cost-effective production of the ring carrier. For example, if both carrier elements made of plastic by injection molding, only one tool for is needed for the injection molding.
Each support member has at the handle end a means for pivotal connection. In an advantageous embodiment, a through hole is provided at the handle end of the support elements. The through holes in the two support members are provided so that they are aligned in the assembled state of the support members and together give a hinge eye for a socket which is inserted into these through holes and allows a pivoting movement.
The carrier elements of the ring carrier are constructed so that they form a handle together at one end, namely the handle end, and extending from this handle end to each support member an arm. Closing elements are provided on the arm opposite the handle end, so that the two arms of the carrier elements can be connected to one another at this free end when the carrier elements are pivoted toward one another. In the closed position, the arms of the carrier elements form the holding area, which is located next to the handle. Preferably, the arms of the support elements are semicircular, so that an annular holding area is formed.
In a preferred embodiment, both arms of the carrier elements are designed such that they comprise two semicircular carrier layers arranged one above the other, wherein the carrier layers are not directly adjacent to one another, so that a gap exists between the carrier layers. In this way a gap is maintained during the winding process, and preferably knobs are arranged on the inner surfaces of the carrier layers, which ensure a constant distance of the carrier layers away from each other during the winding process.
On the arms of the support elements, semicircular disc halves are attached on both sides, which form a winding disk on both sides of the ring carrier yielding a closed ring carrier. For this purpose, a disc half is pushed onto the outside of the carrier layers of the two carrier elements in each case. The carrier elements of the ring carrier have for a secure hold of a disc half on the one hand a grip-side clamping gap and on the other hand a closure-side clamping gap, in which the respective lower or upper insertion edge of the disc half is inserted. Then the disc half is pressed onto the outside of the respective carrier layer. Here, the disc halves are held in an advantageous manner by clamping elements on the carrier layers of the ring carrier.
After assembling the four halves of the disc, the production of a pompon can be started. For this purpose, the ring carrier is brought into winding position, that is, the releasable closure between the two carrier elements is opened and, by winding yarn on the two arms of the carrier elements, a yarn package for the pompon is produced. When both halves of the ring carrier are wrapped in yarn, the carrier elements are pivoted toward one another and the closure parts are connected to one another. In this closed position, the yarn package can be sliced along the periphery of the winding disks. After this, a fastening thread may be securely inserted into the existing gap.
After making a pompon, other pompons of the same size can be made with the device. Furthermore, it is possible to produce pompons of a different size with the same ring carrier. For this purpose, the four half-ring-shaped disc halves may be removed and replaced by disc halves of a larger or smaller diameter. In this way, pompons of different diameters can be produced with a ring carrier together with a plurality of sets of winding disks.
The new device for producing pompons can thus be used in a way that permits the production of pompons of various sizes. It is also advantageous that the device consists of a few individual parts that are easy to install. In addition, when manufacturing the pompons, there are no problems with shifting of winding disks, and the handling of the apparatus during the production of the pompons is easy. Advantageously, it is ensured by the closure on the ring carrier that when slicing the yarn package, the threads of the yarn package are firmly held together. In addition, the wide gap between the carrier layers of the carrier elements of the ring carrier and thus between the winding discs allows a clear guide for the scissors during the slicing process. In addition, handling is facilitated because the new device has a ring carrier with a handle outside the holding area of the winding disks.
Further measures and advantages of the invention are set forth in the description below. The invention is directed to all that is apparent from these new features.
The following drawing shows:
The ring carrier 30 consists in this embodiment, as better seen in
The semicircular arms of the support members 37, 38 are configured in this example, that they comprise two superposed semicircular support layers 32, 33, wherein the upper support layer 32 is not immediately adjacent the lower support layer 33, but instead between the support layers 32, 33, a gap 34 is present. In order that the gap 34 is retained during the winding process, preferably nubs 326, 336 are arranged on the inner surfaces of the carrier layers 32, 33, which ensure a constant spacing of the carrier layers 32, 33 relative to one another during the winding process, see
In the advantageous embodiment shown, the two carrier elements 37, 38 are formed identically, as shown in
For the closure 36, closure parts 361, 362 are provided on both carrier elements 37, 38. As best seen in
Semicircular disk halves 20, 21, 22, 23 can be attached to the ring carrier thus formed. Such a disk half is shown in
In
Advantageously, as described above, the four disc halves 20, 21, 22, 23 with a first outer diameter of, for example, 9 cm, shown in
The individual parts of the device, in particular of the ring carrier 30, are preferably made of plastic. The disc halves 20, 21, 22, 23 may also be made of plastic, but may also be made of other materials such as cardboard. They can be colored and printed. In the case of several sets of disc halves 20, 21, 22, 23 for a ring carrier 30, it is advantageous to make the disc halves 20, 21, 22, 23 of the same size using color to indicate the size. According to the shape of the disc halves 20, 21, 22, 23, in particular round pompons are produced. However, the disc halves 20, 21, 22, 23 may also be shaped in other shapes, so as to be of the same or different diameter as templates for example to serve for different animal heads or such.
Number | Date | Country | Kind |
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20 2018 106 817.2 | Nov 2018 | DE | national |
Number | Name | Date | Kind |
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779614 | Loe | Jan 1905 | A |
1819234 | Dolia | Aug 1931 | A |
2521863 | Mertz | Sep 1950 | A |
3000074 | Butkiewicz | Sep 1961 | A |
3110077 | Spear | Nov 1963 | A |
3287785 | Ciroli | Nov 1966 | A |
3413699 | Millay | Dec 1968 | A |
D275151 | Okada | Aug 1984 | S |
D323975 | Wise | Feb 1992 | S |
6655559 | Goldstein | Dec 2003 | B2 |
8316517 | Fujiwara | Nov 2012 | B2 |
Number | Date | Country |
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87947 | Jan 1921 | CH |
501237 | Jun 1930 | DE |
3722854 | Jan 1989 | DE |
202018101029 | Mar 2018 | DE |
3436751 | Aug 2003 | JP |
Entry |
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U.S. Appl. No. 29/692,466, filed May 24, 2019. |
Number | Date | Country | |
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20200173071 A1 | Jun 2020 | US |