DEVICE FOR FORMING A PUNCTURE FOR JEWELRY

Abstract

The invention relates to the design of a device for forming a puncture into the body of people for jewelry. This device provides the most comfortable and naturally fast puncture for the quick insertion of jewelry worn immediately with a puncture, that is, the process of inserting an accessory by piercing and can be performed only once per piercing operation, which prevents additional injury to the puncture site when fixing the jewelry at the puncture site, as well as the replacing a reusable instrumenta taper (stretch marks).

Claims

1. A device for forming a puncture for jewelry, comprising: (a) a needle, which consists of a tubular part, which has one sharp end formed by a cut at a certain angle and designed to penetrate a body of a person, and a second end is made blunt; (b) a connecting element, which consists of a pin, on one side of which is placed a plastic expansion element having a head, a body and a shank; (c) a base for piercing, which consists of a hollow rod and a locking element; moreover, the plastic expansion element of the connecting element is an anchor mechanism, contains a head of a conical shape, a body in a form of truncated conical elements with a ribbed side surface and a shank in a form of two truncated conical elements, combined with bases and a ribbed surface, with a possibility of being completely located inside the tubular part of the needle, and the pin has an ability to put on it a hollow rod base for piercing, at the same time, the needle, the connecting element and the base for piercing form a single piercing unit without a drop in an external circumference.

2. A device for forming a puncture for jewelry, comprising: (a) a needle, which consists of two parts, where a first tubular part has one sharp end, formed by a cut at a certain angle and designed to penetrate a body of a person, and a second end is made blunt and the second the tubular part has two blunt ends; (b) a connecting element, which consists of a pin, on one side of which is placed a plastic expansion element having a head, a body and a shank; (c) a base for piercing, which consists of a hollow rod and a locking element; moreover, the plastic expansion element of the connecting element is an anchor mechanism, contains a head of a conical shape, a body in a form of truncated conical elements with a ribbed side surface and a shank in a form of two truncated conical elements, combined with bases and a ribbed surface, with a possibility of being completely located inside the tubular part of the needle, and the pin has an ability to put on it a hollow rod base for piercing, at the same time, the needle and the connecting element form a single piercing unit without a drop in an external circumference.

3. The device for forming the puncture for jewelry according to claims 1, 2, wherein the plastic expansion element of the connecting element is located so that its head is in the tubular part of the needle, which has one sharp end and is oriented towards the sharp end of the needle and the plastic expansion of the connecting element is completely placed inside the tubular part of the needle.

4. The device for forming the puncture for jewelry according to claims 1, 2, wherein the plastic expansion element of the connecting element is located so that its head is in the tubular part of the needle, which has both blunt ends and the plastic expansion element of the connecting element by ? placed inside the tubular part of the needle, which has both blunt ends.

5. The device for forming the puncture for jewelry according to claims 1, 2, wherein the pin is made of stainless steel.

6. The device for forming the puncture for jewelry according to claims 1, 2, wherein a diameter of the body and the shank of the plastic expansion element of the connecting element is 2-3% larger than an inner diameter of the tubular part of the needle.

7. The device for forming the puncture for jewelry according to claims 1, 2, wherein the hollow rod of the base for piercing has a circumferential thread on an inner surface.

8. The device for forming the puncture for jewelry according to claims 1, 2, wherein the pin of the connecting element has a circumferential thread.

9. The device for forming the puncture for jewelry according to claims 1, 2, wherein the hollow rod of the base for the piercing is made straight or curved.

10. The device for forming the puncture for jewelry according to claims 1, 2, wherein the locking element of the base for the piercing is made removable or non-removable.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0028] The essence of the invention is illustrated by images.

[0029] FIG. 1 shows a device in which the needle, connector and piercing base form a single piercing assembly without a drop in external circumference.

[0030] FIG. 2 shows a device in which the needle and the connecting element form a single piercing unit without a drop in external circumference.

[0031] FIG. 3 shows the stages of piercing with a device in which the needle, the connecting element and the piercing base form a single piercing unit without a drop in external circumference.

[0032] FIG. 4 shows the stages of piercing with a device in which the needle and the connecting element form a single piercing unit without a drop in external circumference.

[0033] FIG. 5 schematically shows the connecting element.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

[0034] FIG. 1 shows a device in which the needle, connector and piercing base form a single piercing assembly without a drop in external circumference.

[0035] This design is achieved in this way: [0036] Step 1. A needle 100 is taken, which consists of a tubular part 110, which has one sharp end 111 formed by a cut at a certain angle and designed to penetrate the body of people, and the second end is made blunt 112; the head 221 of the plastic spacer 220 of the connector 200 is guided into the blunt end 112 of the tubular portion 110 of the needle 100. [0037] Step 2. The head 221, the body 222 and the shank 223 of the plastic spacer 220 of the connector 200 are advanced inside the tubular part 110 of the needle 100 so that only the pin 210 remains outside the tubular part 110 of the needle 100. This is achieved by the fact that the head 221 of the plastic spacer 220 has a conical shape. The diameter of the body 222 and the shank 223 of the plastic expansion element 220 of the connecting element 200 is 2-3% larger than the inner diameter of the tubular part 110 of the needle 100, while the body 222 is made in the form of truncated conical elements with a ribbed side surface; shank 223 is made in the form of two truncated conical elements, combined with bases and a ribbed surface. The ribs of the side surface of the shank, when moving inside the tubular part 110 of the needle 100, are slightly crushed, which as a result ensures that the connecting element 200 is tightly fixed inside the needle 100. [0038] Step 3. The pin 210 of the plastic spacer 220 of the connector 200 is placed in the inner part 311 of the hollow rod 310 of the base for the piercing 300 until it fully contacts the blunt end 112 of the tubular part 110 of the needle 100 and forms a single piercing node without a drop external circumference. An even more effective knot is obtained if the internal thread 311 of the hollow rod 310 of the base for the piercing 300 is put on the circumferential thread of the pin 210 of the plastic spacer 220 of the connecting element 200 until it is in full contact with the blunt end 112 of the tubular part 110 of the needle 100 and the formation of a single piercing node without a drop in external circles.

[0039] FIG. 2 shows a device in which the needle and the connecting element form a single piercing unit without a drop in external circumference.

[0040] This design is achieved in this way: [0041] Step 1. A needle 100 is taken, which consists of two parts, where the first tubular part 110 has one sharp end 111 formed by a cut at a certain angle and designed to penetrate the body of people, and the second end is made blunt 112 and the second tubular part 120 has two blunt ends 121, 122; the head 221 of the plastic spacer 220 of the connector 200 is guided into the blunt end 121 or 122 of the tubular part 120 of the needle 100. [0042] Step 2. The head 221 and the body part 222 of the plastic spacer 220 of the connector 200 are advanced inside the tubular part 120 of the needle 100 so that ? of the connector 200 is inside the tubular part 120 of the needle 100. This is achieved by the fact that the head 221 of the plastic spacer element 220 has a conical shape. The diameter of the body 222 of the plastic spacer 220 of the connecting element 200 is 2-3% larger than the inner diameter of the tubular part 120 of the needle 100, while the body 222 is made in the form of truncated conical elements with a ribbed side surface; shank 223 is made in the form of two truncated conical elements, combined with bases and a ribbed surface. The ribs of the side surface of the shank, when moving inside the tubular part 120 of the needle 100, are slightly crushed, which results in a tight fixation of ? of the connecting element 200 inside the tubular part 120 of the needle 100. [0043] Step 3. The second end, made blunt 112 of the tubular part 110 of the needle 100, is put on the pin 210 and the shank 223, capturing the rest of the body 222 of the plastic spacer 220 of the connecting element 200 until it fully contacts the blunt end 121 or 122 of the tubular part 120 of the needle 100 and forms a single piercing node without a drop in external circumference.

[0044] FIG. 3 shows the stages of piercing with a device in which the needle, the connecting element and the piercing base form a single piercing unit without a drop in external circumference. [0045] Step 1. A needle 100 is taken, which consists of a tubular part 110, which has one sharp end 111 formed by a cut at a certain angle and designed to penetrate the body of people, and the second end is made blunt 112; the head 221 of the plastic spacer 220 of the connector 200 is guided into the blunt end 112 of the tubular portion 110 of the needle 100. [0046] Step 2. The head 221, the body 222 and the shank 223 of the plastic spacer 220 of the connector 200 are advanced inside the tubular part 110 of the needle 100 so that only the pin 210 remains outside the tubular part 110 of the needle 100. This is achieved by the fact that the head 221 of the plastic spacer 220 has a conical shape. The diameter of the body 222 and the shank 223 of the plastic expansion element 220 of the connecting element 200 is 2-3% larger than the inner diameter of the tubular part 110 of the needle 100, while the body 222 is made in the form of truncated conical elements with a ribbed side surface; shank 223 is made in the form of two truncated conical elements, combined with bases and a ribbed surface. The ribs of the side surface of the shank, when moving inside the tubular part 110 of the needle 100, are slightly crushed, which as a result ensures that the connecting element 200 is tightly fixed inside the needle 100. [0047] Step 3. The pin 210 of the plastic spacer 220 of the connector 200 is placed in the inner part 311 of the hollow rod 310 of the base for the piercing 300 until it fully contacts the blunt end 112 of the tubular part 110 of the needle 100 and forms a single piercing node without a drop in external circumference. An even more effective knot is obtained if the thread on the inner part 311 of the hollow rod 310 of the base for the piercing 300 is put on the pin 210 with a circumferential thread of the plastic spacer 220 of the connecting element 200 until it fully contacts the blunt end 112 of the tubular part 110 of the needle 100 and forms a single piercing node without a drop in external circumference. [0048] Step 4. The piercing is carried out in such a way that the resulting knot is completely pulled through the body until the locking element 320 of the piercing base 300 stops. [0049] Step 5 Disconnect the needle with the connector 200 inside the needle 100 from the piercing base. This is achieved by the fact that the connecting element 200 is tightly fixed inside the needle 100. Inside the body (earlobe, nose cartilage, tongue, other parts of the body through which the puncture is made), a hollow rod 310 of the base for the piercing 300 remains. [0050] Step 6. The jewelry (decorative) is placed in the inner surface 311 of the hollow rod 310 of the base piercing 300. Even more effectively, when the jewelry (decorative) is placed in the inner surface 311 of the hollow bar 310 of the base piercing 300 by threading.

[0051] FIG. 4 shows the stages of piercing with a device in which the needle and the connecting element form a single piercing unit without a drop in external circumference. [0052] Step 1. A needle 100 is taken, which consists of two parts, where the first tubular part 110 has one sharp end 111 formed by a cut at a certain angle and designed to penetrate the body of people, and the second end is made blunt 112 and the second tubular part 120 has two blunt ends 121, 122; the head 221 of the plastic spacer 220 of the connector 200 is guided into the blunt end 121 or 122 of the tubular part 120 of the needle 100. [0053] Step 2. The head 221 and the body part 222 of the plastic spacer 220 of the connector 200 are advanced inside the tubular part 120 of the needle 100 so that ? of the connector 200 is inside the tubular part 120 of the needle 100. This is achieved by the fact that the head 221 of the plastic spacer element 220 has a conical shape. The diameter of the body 222 of the plastic spacer 220 of the connecting element 200 is 2-3% larger than the inner diameter of the tubular part 120 of the needle 100, while the body 222 is made in the form of truncated conical elements with a ribbed side surface; shank 223 is made in the form of two truncated conical elements, combined with bases and a ribbed surface. The ribs of the side surface of the shank, when moving inside the tubular part 120 of the needle 100, are slightly crushed, which results in a tight fixation of ? of the connecting element 200 inside the tubular part 120 of the needle 100. [0054] Step 3. The second end, made blunt 112 of the tubular part 110 of the needle 100, is put on the pin 210 and the shank 223, capturing the rest of the body 222 of the plastic spacer 220 of the connecting element 200 until it fully contacts the blunt end 121 or 122 of the tubular part 120 of the needle 100 and forms a single piercing node without a drop in external circumference. [0055] Step 4. The puncture is carried out in such a way that the resulting knot is pulled through the body and a part of the tubular part 120 of the needle 100 is pulled through the puncture. [0056] Step 5 Disconnect the tubular portion 110 of the needle 100 from the resulting assembly. This is achieved by the fact that ? of the connecting element 200 is tightly fixed inside the needle 100, and the design of the shank 223, which is made in the form of two truncated conical elements, combined with bases and a ribbed surface, allows you to freely remove the tubular part 120 of the needle 100. [0057] Step 6. Push the rest of the body 222 and the shank 223 into the tubular part 120 of the needle 100 so that only the pin 210 remains outside the tubular part 120 of the needle 100. [0058] Step 7. The pin 210 of the plastic spacer 220 of the connector 200 is placed in the inner part 311 of the hollow rod 310 of the base for the piercing 300 until it fully contacts the blunt end 121 or 122 of the tubular part 120 of the needle 100 and forms a single piercing node without a drop in external circumference. An even more effective knot is obtained if a pin 210 with a circumferential thread of the plastic spacer 220 of the connecting element 200 is screwed into the threads on the inner part 311 of the hollow rod 310 of the base for the piercing 300 until it fully contacts the blunt end 121 or 122 of the tubular part 120 of the needle 100 and forms a single piercing node without a drop in external circumference. [0059] Step 8. The resulting knot is pulled through the body until the locking element 320 of the piercing base 300 stops. [0060] Step 9 Disconnect the needle with the connector 200 inside the needle 100 from the piercing base. This is achieved by the fact that the connecting element 200 is tightly fixed inside the needle 100. Inside the body (earlobe, nose cartilage, tongue, other parts of the body through which the puncture is made), a hollow rod 310 of the base for the piercing 300 remains. [0061] Step 10. The jewelry (decorative) is placed in the inner surface 311 of the hollow base rod 310 of the base piercing 300. Even more effectively, when the jewelry (decorative element) is placed in the inner surface 311 of the hollow rod 310 of the base piercing 300 by screwing onto the threads.

[0062] FIG. 5 schematically shows the connecting element.

[0063] The connecting element 200, which consists of a pin 210, in one embodiment, one side of which has a circumferential thread, on the other side is placed a plastic spacer 220 having a head 221, a body 222 and a shank 223; moreover, the plastic spacer element 220 of the connecting element 200 is an anchor mechanism, contains a head 221 of a conical shape, a body 222, in the form of truncated conical elements with a ribbed side surface and a shank 223, in the form of two truncated conical elements, combined with bases and a ribbed surface, and a pin 210 has the possibility of dressing the hollow rod 311 of the base for the piercing 300 of jewelry or placing it in the inner surface 311 of the hollow rod 310 of the base for the piercing 300 by screwing onto the thread.