RU188689U1 - Collector for a set of beads on a thread - Google Patents

Abstract

This utility model relates to light industry. In order to create products made of beads one must first of all collect beads on a thread. If the beads are of the same color, you can quickly pick up the beads on the thread using the spinner. It is quite another thing when you need to collect beads on a thread in a given sequence in color. Such a thread with beads is required for beading and beading. Now, in order to get a thread with beads in a given sequence of beads, the color must be strung on each thread separately. This is hard monotonous work. In order to facilitate it, I suggest the following method. As you know, Czech beads, which are the most common, have the shape of an ellipsoid of rotation. That is, on the plane of the bead will occupy a strictly defined position with the axis of rotation, which coincides with the axis of the opening of the beads up. If you place such beads in a vertical round tube, the diameter of which is slightly larger than the diameter of the beads, then the axes of the holes of the beads will align with each other and with the internal axis of the tube, and will be directed upwards. Description of drawings. Matrix.2. Top collector plate. Beads.4. Round tube. The inner hole of the tube. The bottom plate of the device. Hole in the bottom plate of the collector.8. Thread knot.9. Needle. Holes in the matrix. Thread with beads. Holes in the upper plate of the collector. The collector for a set of beads consists of identical vertical tubes placed between the upper and lower horizontal plates. The number of tubes and their location may be different. Let's call one vertical tube, enclosed between the upper and lower horizontal planes, a device. The device for the set of beads (3) consists of the top plate (2) and the bottom plate (6). Between them is a vertical round tube (4). The top plate (2) has a hole (12), the diameter of which is equal to the inner diameter of the tube (4). The bottom plate (6) has an opening (7) with a diameter smaller than the internal diameter of the opening of the tube (5), but larger than the diameter of the opening of the bead (3). The axis of the holes (12), (5), (7) are aligned. As it was written above, the axes of the holes of the beads (3) placed in the tube will be aligned with each other and with the axis of the hole of the tube, forming a through vertical hole in the device. Put the beads (3) in a given sequence into the tube in different ways. I suggest one of them. Arrange several devices in a row (Drawing No. 2). In this case, four. They have a common upper (2) and lower (6) plates. The matrix (1) is located on the plane of the upper plate (2). The matrix (1) is a rectangle with a thickness equal to the height of the beads (3) with round holes (10), diameters equal to the diameters of the holes in the upper plate of the device (12). These holes (10) are arranged in a checkerboard pattern with a step equal to the distance between the holes (12) in the upper plate (2) (Drawing No. 2). Using a stencil made for each color of the beads (3), covering one hole (10) and leaving the other holes (10) open, fill in the same order the holes of the matrix (1) that is required for a particular beadwork. Shift the matrix (1) along arrow B to align the first row of holes (10) with the holes (12) of the top plate of the device. The beads located in the first row of holes (10) of the matrix (1) will fall into the tubes (4) through the holes (12) of the upper plate of the device. We will also do with subsequent rows of holes (10) of the matrix (1). The beads will be located in the desired sequence in the tubes (4) of the device. As written above, a through vertical hole is formed in the device. Tie the thread through the eyelet to the needle. The knot on the thread (8) must be of such magnitude that it passes with friction into the holes of the beads. Drop the needle needle (9) into the through-hole of the device (Drawing No. 1). Its length must be greater than the total height of the device (H) (Drawing No. 1). We grab the needle (9) from the bottom, and with friction we drag the node (8) through the holes in the beads until the node (8) leaves the device from the bottom. There is no friction between the beads and the tube (4). Therefore, when we pull the thread (11) upward, all the beads located in the tube (4) of the device will come out of it and end up on the thread. One prick of a bead needle can be used to thread a significant amount of multi-colored beads in the desired desired sequence. This is one of the ways to implement this utility model in industry. The beads of the same number have the deviations in size, therefore it is not always the through hole in the device is formed immediately. By acting mechanically on the collector, for example by vibration, and not only, you can always quickly achieve the formation of a through hole in the devices. Making stencils by hand does not require much time.

Description

This utility model relates to light industry. In order to create products made of beads one must first of all collect beads on a thread. If the beads are of the same color, you can quickly pick up the beads on the thread using the spinner. It is quite another thing when you need to collect beads on a thread in a given sequence in color.

Such a thread with beads is required for beading and beading. Now, in order to get a thread with beads in a given sequence of beads, the color must be strung on each thread separately. This is hard monotonous work. In order to facilitate it, I suggest the following method. As you know, Czech beads, which are the most common, have the shape of an ellipsoid of rotation. That is, on the plane of the bead will occupy a strictly defined position with the axis of rotation, which coincides with the axis of the opening of the beads up. If you place such beads in a vertical round tube, the diameter of which is slightly larger than the diameter of the beads, then the axes of the bead holes will align with each other and with the internal axis of the tube, and will be directed upwards.

Description of the drawings.

1. Matrix.

2. Upper collector plate.

3. Beads.

4. Round tube.

5. The inner hole of the tube.

6. The bottom plate of the device.

7. Hole in the bottom plate of the collector.

8. Knot on the thread.

9. Needle.

10. Holes in the matrix.

11. Thread with beads.

12. Holes in the top plate of the collector.

The collector for a set of beads consists of identical vertical tubes placed between the upper and lower horizontal plates. The number of tubes and their location may be different. Let's call one vertical tube, enclosed between the upper and lower horizontal planes, a device. The device for the set of beads (3) consists of the top plate (2) and the bottom plate (6). Between them is a vertical round tube (4). The top plate (2) has a hole (12), the diameter of which is equal to the inner diameter of the tube (4). The bottom plate (6) has an opening (7) with a diameter smaller than the internal diameter of the opening of the tube (5), but larger than the diameter of the opening of the bead (3). The axis of the holes (12), (5), (7) are aligned. As it was written above, the axes of the holes of the beads (3) placed in the tube will be aligned with each other and with the axis of the hole of the tube, forming a through vertical hole in the device. Put the beads (3) in a given sequence into the tube in different ways. I suggest one of them.

Arrange several devices in a row (Drawing No. 2). In this case, four. They have a common upper (2) and lower (6) plates. The matrix (1) is located on the plane of the upper plate (2). The matrix (1) is a rectangle with a thickness equal to the height of the beads (3), with round holes (10), diameters equal to the diameters of the holes in the upper plate of the device (12). These holes (10) are arranged in a checkerboard pattern with a step equal to the distance between the holes (12) in the upper plate (2) (Drawing No. 2). Using a stencil made for each color of the beads (3), covering one hole (10) and leaving the other holes (10) open, fill in the same order the holes of the matrix (1) that is required for a particular beadwork. Shift the matrix (1) along arrow B to align the first row of holes (10) with the holes (12) of the top plate of the device. The beads in the first row of holes (10) of the matrix (1) fall into the tubes (4) through the holes (12) of the upper plate of the device. We will also do with subsequent rows of holes (10) of the matrix (1). The beads will be located in the desired sequence in the tubes (4) of the device. As written above, a through vertical hole is formed in the device. Tie the thread through the eyelet to the needle. The knot on the thread (8) must be of such magnitude that it passes with friction into the holes of the beads. Drop the needle needle (9) into the through-hole of the device (Drawing No. 1). Its length must be greater than the total height of the device (11) (Drawing No. 1). We grab the needle (9) from the bottom, and with friction we drag the node (8) through the holes in the beads until the node (8) leaves the device from the bottom. There is no friction between the beads and the tube (4). Therefore, when we pull the thread (11) upward, all the beads located in the tube (4) of the device will come out of it and end up on the thread. One prick of a bead needle can be used to thread a significant amount of multi-colored beads in the desired desired sequence. This is one of the ways to implement this utility model in industry. A bead of one number has the deviations in size, therefore it is not always the through hole in the device is formed immediately. By acting mechanically on the collector, for example by vibration, and not only, you can always quickly achieve the formation of a through hole in the devices. Making stencils by hand does not require much time.

Claims (4)

1. The collector for a set of beads on a thread consists of a series of equal vertical round tubes with diameters of internal holes slightly larger than the diameter of the beads placed in them, located between the upper and lower horizontal plates. 2. The collector of claim. 1, characterized in that the top plate has round holes equal to the diameters of the inner holes of the tubes. 3. The collector according to claim 1, characterized in that the bottom plate has round holes smaller than the diameter of the beads placed in the tubes, but larger than the diameter of the opening of the beads. 4. The collector according to claim 1, characterized in that the corresponding openings of the upper, lower plates and the inner opening of the tube have a common axis.

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