TERAHERTZ HEALTHY ROSARY STRUCTURE

Abstract

A terahertz healthy rosary structure includes a plurality of serial-connected rosary bead that include a silicon material and emit a terahertz wave, a through hole, a rope-based fixing structure, and a first rosary bead that includes a silicon material and emits a terahertz wave. The through hole is formed in the serial-connected rosary beads. The first rosary bead is arranged on the rope-based fixing structure and two sides of the first rosary bead are each connected with a respective one of the serial-connected rosary beads, so that the rope-based fixing structure connects each of the serial-connected rosary beads and the first rosary bead in series to form a rosary bead structure having a predetermined shape. The serial-connected rosary beads and the first rosary bead emit a terahertz wave that has a frequency of 0.1-10 THz and a wavelength of 0.03-3 mm to be absorbed by the human body.

Claims

1. A terahertz healthy rosary structure, comprising: a plurality of serial-connected rosary beads that comprise a silicon material and emit a terahertz wave, and is formed with at least one through hole; a rope-based fixing structure that extends through the through hole to have the serial-connected rosary beads arranged tightly close to each other; and a first rosary bead that comprises a silicon material and emits a terahertz wave, wherein the first rosary bead is arranged on the rope-based fixing structure, and two sides of the first rosary bead are each connected with a respective one of the serial-connected rosary beads, wherein when a human body absorbs the terahertz wave, resonance is induced, so as to improve human body functional system to promote blood circulation, enhance metabolism, and regulate autonomic nerves, and wherein the terahertz wave has a frequency of 0.1 THz to 10 THz and a wavelength of 0.03 mm to 3 mm.

2. The terahertz healthy rosary structure according to claim 1, wherein a plurality of segmenting rosary beads are arranged on the rope-based fixing structure, and two sides of each of the segmenting rosary beads are connected with the serial-connected rosary beads.

3. The terahertz healthy rosary structure according to claim 2, wherein the plurality of serial-connected rosary beads comprise one hundred and eight serial-connected rosary beads, and the plurality of segmenting rosary beads comprise four segmenting rosary beads.

4. The terahertz healthy rosary structure according to claim 1, wherein at least one first extended bead assembly is arranged at one side of the first rosary bead, wherein the at least one first extended bead assembly is arranged on the rope-based fixing structure, and the at least one first extended bead assembly comprises a silicon material and emits a terahertz wave.

5. The terahertz healthy rosary structure according to claim 4, wherein a first connection rosary bead is connected between the first rosary bead and the first extended bead assembly, and the first connection rosary bead is arranged on the rope-based fixing structure.

6. The terahertz healthy rosary structure according to claim 4, wherein the at least one first extended bead assembly comprises a plurality of first balls, a plurality of first extended rosary beads, a first join rosary bead, a plurality of second balls, and a first hanging rosary bead, wherein each of the first balls, each of the first extended rosary beads, the first join rosary bead, each of the second balls, and the first hanging rosary bead are interconnected with each other, a size of the first hanging rosary bead being greater than a size of the first rosary bead, the size of the first rosary bead being greater than a size of the serial-connected rosary beads, the size of the serial-connected rosary beads being greater than a size of the first extended rosary beads, the size of the first extended rosary beads being greater than a size of the first balls and a size of the second balls, the at least one first extended bead assembly comprising three first extended bead assemblies.

7. The terahertz healthy rosary structure according to claim 1, wherein a second rosary bead is arranged on the rope-based fixing structure, and two sides of the second rosary bead are each connected with a respective one of the serial-connected rosary beads, the second rosary bead comprising a silicon material and emitting a terahertz wave.

8. The terahertz healthy rosary structure according to claim 7, wherein one side of the second rosary bead is connected with a plurality of second extended rosary beads, the second extended rosary beads being connected with a second connection rosary bead, each of the second extended rosary beads and the second connection rosary bead being arranged on the rope-based fixing structure, the second extended rosary beads comprising a silicon material and emitting a terahertz wave.

9. The terahertz healthy rosary structure according to claim 8, wherein one side of the second connection rosary bead is connected with at least one second extended bead assembly, the second extended bead assembly being arranged on the rope-based fixing structure, each of the at least one second extended bead assembly comprising a silicon material and emitting a terahertz wave.

10. The terahertz healthy rosary structure according to claim 8, wherein the at least one second extended bead assembly comprises a plurality of third extended rosary beads, a second join rosary bead, a plurality of third balls, and a second hanging rosary bead, wherein each of the third extended rosary beads, the second join rosary bead, each of the third balls, and the second hanging rosary bead are interconnected with each other, a size of the second hanging rosary bead being greater than a size of the first rosary bead, the size of the first rosary bead being equal to a size of the second rosary bead, the size of the second rosary bead being greater than a size of the serial-connected rosary beads, the size of the serial-connected rosary beads being greater than a size of the third extended rosary beads, the size of the third extended rosary beads being greater than a size of the third balls, the at least one second extended bead assembly comprising two second extended bead assemblies.

11. The terahertz healthy rosary structure according to claim 1, wherein a plurality of decorative pieces are arranged on the rope-based fixing structure.

12. A terahertz healthy rosary structure, comprising: a plurality of serial-connected rosary beads that comprise a silicon material and emit a terahertz wave, and is formed with at least one through hole; a rope-based fixing structure that extends through the through hole to have the serial-connected rosary beads arranged tightly close to each other; and a first rosary bead that comprises a silicon material and emits a terahertz wave, wherein the first rosary bead is arranged on the rope-based fixing structure, and two sides of the first rosary bead are each connected with a respective one of the serial-connected rosary beads, so that the rope-based fixing structure connects, in series, each of the serial-connected rosary beads and the first rosary bead to form a rosary bead structure having a predetermined shape adapted for contact engagement with a portion of a human body to allow the human body to absorb the terahertz wave to induce resonance, so as to improve human body functional system to promote blood circulation, enhance metabolism, and regulate autonomic nerves, and wherein the terahertz wave has a frequency of 0.1 THz to 10 THz and a wavelength of 0.03 mm to 3 mm.

13. The terahertz healthy rosary structure according to claim 12, wherein a plurality of segmenting rosary beads are arranged on the rope-based fixing structure, and two sides of each of the segmenting rosary beads are connected with the serial-connected rosary beads.

14. The terahertz healthy rosary structure according to claim 13, wherein the plurality of serial-connected rosary beads comprise one hundred and eight serial-connected rosary beads, and the plurality of segmenting rosary beads comprise four segmenting rosary beads.

15. The terahertz healthy rosary structure according to claim 12, wherein at least one first extended bead assembly is arranged at one side of the first rosary bead, wherein the at least one first extended bead assembly is arranged on the rope-based fixing structure, and the at least one first extended bead assembly comprises a silicon material and emits a terahertz wave.

16. The terahertz healthy rosary structure according to claim 15, wherein a first connection rosary bead is connected between the first rosary bead and the first extended bead assembly, and the first connection rosary bead is arranged on the rope-based fixing structure.

17. The terahertz healthy rosary structure according to claim 15, wherein the at least one first extended bead assembly comprises a plurality of first balls, a plurality of first extended rosary beads, a first join rosary bead, a plurality of second balls, and a first hanging rosary bead, wherein each of the first balls, each of the first extended rosary beads, the first join rosary bead, each of the second balls, and the first hanging rosary bead are interconnected with each other, a size of the first hanging rosary bead being greater than a size of the first rosary bead, the size of the first rosary bead being greater than a size of the serial-connected rosary beads, the size of the serial-connected rosary beads being greater than a size of the first extended rosary beads, the size of the first extended rosary beads being greater than a size of the first balls and a size of the second balls, the at least one first extended bead assembly comprising three first extended bead assemblies.

18. The terahertz healthy rosary structure according to claim 12, wherein a second rosary bead is arranged on the rope-based fixing structure, and two sides of the second rosary bead are each connected with a respective one of the serial-connected rosary beads, the second rosary bead comprising a silicon material and emitting a terahertz wave.

19. The terahertz healthy rosary structure according to claim 18, wherein one side of the second rosary bead is connected with a plurality of second extended rosary beads, the second extended rosary beads being connected with a second connection rosary bead, each of the second extended rosary beads and the second connection rosary bead being arranged on the rope-based fixing structure, the second extended rosary beads comprising a silicon material and emitting a terahertz wave.

20. The terahertz healthy rosary structure according to claim 19, wherein one side of the second connection rosary bead is connected with at least one second extended bead assembly, the second extended bead assembly being arranged on the rope-based fixing structure, each of the at least one second extended bead assembly comprising a silicon material and emitting a terahertz wave.

21. The terahertz healthy rosary structure according to claim 19, wherein the at least one second extended bead assembly comprises a plurality of third extended rosary beads, a second join rosary bead, a plurality of third balls, and a second hanging rosary bead, wherein each of the third extended rosary beads, the second join rosary bead, each of the third balls, and the second hanging rosary bead are interconnected with each other, a size of the second hanging rosary bead being greater than a size of the first rosary bead, the size of the first rosary bead being equal to a size of the second rosary bead, the size of the second rosary bead being greater than a size of the serial-connected rosary beads, the size of the serial-connected rosary beads being greater than a size of the third extended rosary beads, the size of the third extended rosary beads being greater than a size of the third balls, the at least one second extended bead assembly comprising two second extended bead assemblies.

22. The terahertz healthy rosary structure according to claim 12, wherein the predetermined shape comprises one of a mattress, a pillow mat, a chest band, a waist chain, a necklace, and a wrist chain.

23. The terahertz healthy rosary structure according to claim 22, wherein the predetermined shape of the rosary bead structure comprises one of the waist chain, the necklace, and the wrist chain, wherein the rope-based fixing structure comprises a break-to-open portion, and the rope-based fixing structure is provided, at a location close to the break-to-open portion, with a connecting assembly, so that the rope-based fixing structure is connected or disconnected by means of the connecting assembly.

24. The terahertz healthy rosary structure according to claim 23, wherein the connecting assembly comprises one of a hook-and-loop fastener assembly and a magnetic assembly.

25. The terahertz healthy rosary structure according to claim 12, wherein the predetermined shape comprises one of a mattress, a pillow mat, and a chest band, and the rope-based fixing structure comprises a plurality of first ropes and a plurality of second ropes, the first ropes and the second ropes being arranged to extend through the through holes to successively connect the serial-connected rosary beads in series, so as to have the serial-connected rosary beads arranged tightly close to each other to form the predetermined shape of the rosary bead structure.

26. The terahertz healthy rosary structure according to claim 12, wherein a plurality of decorative pieces are arranged on the rope-based fixing structure.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0012] FIG. 1 is a perspective view showing a first embodiment;

[0013] FIG. 2 is a cross-sectional view showing the first embodiment;

[0014] FIG. 3 is a schematic view showing singing Buddha with the first embodiment;

[0015] FIG. 4 is a schematic view showing hanging of the first embodiment;

[0016] FIG. 5 is a schematic view showing wearing of the first embodiment;

[0017] FIG. 6 is a perspective view showing a second embodiment;

[0018] FIG. 7 is a perspective view showing a third embodiment;

[0019] FIG. 8 is a perspective view showing a fourth embodiment;

[0020] FIG. 9 is a perspective view showing a pillow mat of a fifth embodiment;

[0021] FIG. 10 is a perspective view showing a mattress of the fifth embodiment;

[0022] FIG. 11 is a schematic view showing implementation of a sixth embodiment;

[0023] FIG. 12 is a schematic view showing a chest band of a seventh embodiment;

[0024] FIG. 13 is a schematic view showing implementation of an eighth embodiment; and

[0025] FIG. 14 is a schematic view showing implementation of a ninth embodiment.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0026] Referring to FIGS. 1 and 2, it is seen from the drawings that the present invention comprises: [0027] a plurality of serial-connected rosary beads 2 that comprise a silicon material and emit a terahertz wave and are each formed with at least one through hole 21; [0028] a rope-based fixing structure 1 that extends through the through holes 21 to have the serial-connected rosary beads 2 arranged tightly close to each other; and [0029] a first rosary bead 3 that comprises a silicon material and emits a terahertz wave, wherein the first rosary bead 3 is arranged on the rope-based fixing structure 1 and two sides of the first rosary bead 3 are respectively connected with the serial-connected rosary beads 2, wherein absorption of the terahertz wave 4 by a human body induces resonance and improves body functions of the human body to promote blood circulation, enhance metabolism, and regulate autonomic nerves.

[0030] The silicon material is a substance of silicon having purity of 99.999%. Silicon is a hard and fragile crystal with a gray-blue metallic luster and is also a tetravalent metal-like semiconductor having a density of 2.329 g.Math.cm.sup.?3 (close to room temperature).

[0031] As an example, the serial-connected beads 2 each have one through hole 21.

[0032] Based on the above description, the structure of the present invention is understood. Based on a corresponding combination of the above structure, effects of prompting blood circulation, enhancing metabolism, and regulating autonomic nerves are fulfilled. An explanation of further details is provided below.

[0033] Referring to FIGS. 1 to 5, the serial-connected rosary beads 2 and the first rosary bead 3 emit a terahertz wave 4 all the time, and a human body only needs to be within a release range of the terahertz wave 4 to absorb the terahertz wave. Religious members, when chanting and singing Buddha, can absorb the terahertz wave 4 emitting from the serial-connected rosary beads 2 and the first rosary bead 3, because the rosary beads are positioned close to the human body.

[0034] The terahertz wave 4 is one of energy waves and is radioactive. The terahertz wave 4 refers to an electromagnetic wave having a frequency in the range of 0.1 THz to 10 THz and a wavelength between 0.03 mm and 3 mm, meaning its wavelength is between the end of the microwave band and the start of the infrared band. Most living creatures can release and absorb terahertz wave 4, and humans are no exception, and no human body safety concern occurs. The terahertz wave 4 does not cause bio-ionization and exhibits excellent transmittability, and compared to the two terahertz waves adopted in the prior art, which are 3.34 THz and 4.78 THz, it may say that the present invention may reach as high as 10 THz, making it more powerful in energy and better in effect.

[0035] The terahertz wave 4 is released at the frequency that is the fluctuations in the origin of life and is also a quantum wave that is extremely beneficial to the human body. When a baby is born, the radiation amount of its terahertz wave 4 is surprisingly large, and with the increase of age, the emission of the terahertz wave 4 will gradually decrease. When a person dies at the end of his life, the radiation from their body drops to the microwatt level. From this, it can be seen that through the radiation of terahertz wave 4 in the human body, whether a person's vitality is strong or not can be judged.

[0036] Furthermore, the terahertz wave 4 may also be referred to as quantum and can be used to find out cancel cells. Further, since quantum is extremely tiny and is even smaller than nanometer and the quantity is extremely large, when the terahertz wave 4 is absorbed by by the human body, resonance will be caused and may penetrate into inner layers of skin to activate water molecules inside the body, starting to vibrate at trillions of times per second, making some bad clogging substances in the capillaries detaching from vessel walls and making the volume of water clusters slowly shrink, thereby affecting the deep subcutaneous tissues of the human body, causing microvascular expansion, which in turn promotes blood circulation, enhances metabolism, and regulates autonomic nerves and may also removes bruises and eliminates toxins. As a result, the body's immunity and self-healing ability will be improved.

[0037] The terahertz wave 4 has the following advantages besides the above-mentioned performances: activating molecules in the human body such as nucleic acid proteins, which is conducive to the restoration and balance of functions, and achieves the purpose of disease prevention and treatment; improving the phagocytic function of cells in the organism, enhancing the cell performance of the human body, and benefiting the health of the human body; reducing the excitability of nerve endings, improving blood circulation, reducing edema, reducing the chemical and mechanical stimulation of nerve endings; effectively discharging toxins in the skin, slowing down spots, preventing common skin sub-health conditions such as acne.

[0038] When religious members are chanting and singing Buddha, they are prone to muscle soreness due to prolonged sitting or standing, but the muscle soreness can be relieved by improving the human body through the above terahertz wave 4. In addition, the religious members' spirits can also be kept up and their consciousnesses can also be restored when they feel tired and mentally weak. Whereby, the ritual of chanting and singing Buddha is no longer just for salvation and comfort in the soul, but also to substantially change the functions of the body, so that the body, mind, and soul are sublimated.

[0039] Furthermore, if there is no need to chant sutras and sign Buddha, a user may also wear the rope-based fixing structure 1 on their body, for example, hanging on the neck, wearing on a hand, or placing on a position close to their body. The first rosary bead 3 is similar to the serial-connected rosary beads 2 in releasing the terahertz wave 4 to improve human body's functional system, and as long as the spacing distance is within the radiation range of terahertz wave 4, the effects of promoting blood circulation, enhancing metabolism, and regulating autonomic nerves can be achieved.

[0040] It is appreciated that in the present invention, the serial-connected rosary beads 2 and the first rosary bead 3 are themselves made of a 99.999% pure silicon material. In brief, the serial-connected rosary beads 2 and the first rosary bead 3 of the present invention are each completely made of a silicon material. Compared to the terahertz wave of two peak frequencies, which are 3.34 THz and 4.78 THz, employed in the prior art, the terahertz wave 4 emitting in the present invention release terahertz wave having a frequency of 0.1 THz to 10 THz and a wavelength of 0.03 mm to 3 mm. The overall performance is stronger and more complete than the prior art and there is no concern about ineffective in truly promoting blood circulation.

[0041] Referring to FIG. 6, in the instant embodiment, one side of the first rosary bead 3 is further configured with at least one first extended bead assembly 5, and a first connection rosary bead 81 is connected between the first rosary bead 3 and first extended bead assembly 5, and the first extended bead assembly 5 comprises a silicon material and emits a terahertz wave. In the instant embodiment, each first extended bead assembly 5 has a plurality of first extended rosary beads 51 and a first hanging rosary bead 52. As an example, the number of the at least one first extended bead assembly 5 is two; the number of the plurality of first extended rosary beads 51 is ten; and the number of the plurality of serial-connected rosary beads 2 is 108, this being the same as that of the previous embodiment.

[0042] With the above structures, the present invention may produce various forms of rosary structures to suit t different users' needs. The instant embodiment only provides a different way of implementation but does not impose limitation to the size and arrangement.

[0043] Referring to FIG. 7, in the instant embodiment, a plurality of segmenting rosary beads 6 and a second rosary bead 7 are further configured on the rope-based fixing structure 1. The two sides of the segmenting rosary bead 6 are respectively connected with the serial-connected rosary beads 2, and the two sides of the second rosary bead 7 are also similarly connected with the serial-connected rosary beads 2. In the instant embodiment, the segmenting rosary beads 6 are each a transparent bead as an example, but is not so limited.

[0044] One side of the first rosary bead 3 is connected with at least one first connection rosary bead 81, and one side of the first connection rosary bead 81 away from the first rosary bead 3 is connected with at least one first extended bead assembly 5. The first connection rosary bead 81 and first extended bead assembly 5 are configured on the rope-based fixing structure 1. Furthermore, each first extended bead assembly 5 has a plurality of first balls 53, a plurality of first extended rosary beads 51, a first join rosary bead 54, a plurality of second balls 55, and a first hanging rosary bead 52. One side of the first connection rosary bead 81 is connected with the first balls 53; one side of the first balls 53 is connected with the first extended rosary beads 51; one side of the first extended rosary beads 51 is connected with the first join rosary bead 54; one side of the first join rosary bead 54 is connected with the second balls 55; and one side of the second balls 55 is connected with the first hanging rosary bead 52.

[0045] One side of the second rosary bead 7 is connected with a plurality of second extended rosary beads 71; one side of the second extended rosary beads 71 is connected with a second connection rosary bead 82; one side of the second connection rosary bead 82 is connected with at least one second extended bead assembly 9; and the second extended rosary beads 71, the second connection rosary bead 82, and the at least one second extended bead assembly 9 are configured on the rope-based fixing structure 1. Furthermore, each second extended rosary bead assembly 9 has a plurality of third extended rosary beads 91, a second join rosary bead 92, a plurality of third balls 93, and a second hanging rosary bead 94. One side of the second connection rosary bead 82 is connected with the third extended rosary beads 91; one side of the third extended rosary beads 91 is connected with the second joint rosary bead 92; one side of the second join rosary bead 92 is connected with the third balls 93; and one side of the third balls 93 is connected with the second hanging rosary bead 94.

[0046] In the instant embodiment, the first rosary bead 3, the second rosary bead 7, the serial-connected rosary beads 2, the first extended rosary beads 51, the second extended rosary beads 71, the third extended rosary beads 91, the first join rosary bead 54, the second join rosary bead 92, the first balls 53, the second balls 55, the third balls 93, the first hanging rosary bead 53, and the second hanging rosary bead 94b all comprise a silicon material and emit a terahertz wave.

[0047] In the instant embodiment, sizes of the first hanging rosary bead 52 and the second hanging rosary bead 94 are the same; sizes of the first rosary bead 3 and the second rosary bead 7 are the same; sizes of the first extended rosary bead 51, the second extended rosary bead 71, and the third extended rosary bead 91b are the same; sizes of the first ball 53, the second ball 55, and the third ball 93b are the same. The size of the first hanging rosary bead 52 is larger than the size of the first rosary bead 3; the size of the first rosary bead 3 is larger than a size of the serial-connected rosary beads 2; the size of the serial-connected rosary beads 2 is larger than the size of the first extended rosary bead 51; and the size of the first extended rosary bead 51 is larger than the size of the first ball 53.

[0048] In the instant embodiment, as an example, the number of the at least one first extended bead assembly 5 is three; the number of the at least one second extended bead assembly 9 is two; and the number of the serial-connected rosary beads 2 is 108. The segmenting rosary beads 6 include a plurality of first segmenting rosary beads 61 and a plurality of second segmenting rosary beads 62, and the number of the first segmenting rosary beads 61 and the number of the second segmenting rosary beads 62 are two. The number of the serial-connected rosary beads 2 between the second rosary bead 7 and the first segmenting rosary bead 61 is seven, and the number of the serial-connected rosary beads 2 between the first segmenting rosary bead 61 and second segmenting rosary bead 62 is fourteen, and the number of the serial-connected rosary beads 2 between the second segmenting rosary bead 62 and first rosary bead 3 is thirty-three.

[0049] The structure of the present embodiment is a rosary structure used by Soka Gakkai International (SGI), and SGI members are many. The number of people who use this kind of rosary structure to chant sutras and sing Buddha is countless. With the silicon material emitting the terahertz wave, the members of SGI or users of this kind of rosary can obtain the effects of promoting blood circulation, enhancing metabolism, and regulating the autonomic nerves when using the rosary, thereby benefiting more religious members in the world.

[0050] Referring to FIG. 8, in the instant embodiment, the number of the serial-connected rosary beads 2 is changed to fifty-four, and the number of the first extended rosary beads 51 is changed to six. The instant embodiment only shows the serial-connected beads 2 can be implemented with a different number, so as to show that the number is not limited in the present invention.

[0051] Referring to FIGS. 9 and 10, the present invention comprises: [0052] a plurality of serial-connected rosary beads 2 that comprise a silicon material and emit a terahertz wave and are each formed with at least one through hole 21; [0053] a rope-based fixing structure 1 that extends through the through holes 21 to have the serial-connected rosary beads 2 arranged tightly close to each other; and [0054] a first rosary bead 3 that comprises a silicon material and emits a terahertz wave, wherein the first rosary bead 3 is arranged on the rope-based fixing structure 1 and two sides of the first rosary bead 3 are respectively connected with the serial-connected rosary beads 2, such that the rope-based fixing structure 1 connects each of the serial-connected rosary beads 2 and the first rosary bead 3 together to form a rosary bead structure A having a predetermined shape to be contacted by a portion of a human body, wherein absorption of the terahertz wave by the human body induces resonance and improves body functions of the human body to promote blood circulation, enhance metabolism, and regulate autonomic nerves.

[0055] In the instant embodiment, as an example, the number of the through holes 21 of the serial-connected rosary beads 2 is two, and the two through holes 21 are arranged orthogonal to each other and are in communication with each other. Further, the rope-based fixing structure 1 comprises a plurality of first ropes 11 and a plurality of second ropes 12. The first ropes 11 and the second ropes 12 are arranged to respectively extend through the through holes 21 and successively connect the serial-connected rosary beads 2 in series, so as to have the serial-connected rosary beads 2 arranged tightly close to each other to form a rosary bead structure A of a predetermined shape.

[0056] The above-mentioned predetermined shape is one of a mattress, a pillow mat, a chest band, a waist chain, a necklace, and a waist chain.

[0057] In the instant embodiment, as an example, the predetermined shape of the rosary bead structure A shown in FIG. 9 is a pillow mat. With an attempt to have the head enjoying the effect of health caring during sleep, a user may place the rosary bead structure A flat on a pillow case, and under such a condition, the head of the user may lie on the rosary bead structure A to have the head receiving the terahertz wave emitting from the serial-connected rosary beads 2 and the first rosary bead 3 during the sleep of the user, so as to, for the head, organize the random electric waves of the head and regulate autonomic nerves, and may also achieve an effect of reducing swelling of a bruise portion if there is any on the head. Taking the rosary bead structure A in the form of a mattress shown in FIG. 10, it can function as a mattress laid on a bed to allow any pain and sore portion of the body, such as the sides, the back, the hands and the feet, resulting from tiredness to receive the terahertz wave emitting from the serial-connected rosary beads 2 and the first rosary bead 3 during the sleep of the user, so as to, for the human body, achieve the advantages of relieving muscle soreness, increasing body immunity, improving human metabolic system, regulating autonomic nervous, and reducing swelling and bruises.

[0058] Referring to FIG. 11, in the instant embodiment, the predetermined shape of the rosary bead structure A is in the form of a waist chain, a waist chain, or a necklace, in which the rope-based fixing structure 1 comprises a break-to-open portion 13, and the rope-based fixing structure 1 comprises a connecting assembly 14 at a location adjacent to the break-to-open portion 13, so that the rope-based fixing structure 1 may be connected or separated by means of the connecting assembly 14. The connecting assembly 14 can be one of a hook-and-loop fastener assembly and a magnetic assembly. As such, where the connecting assembly 14 is separated, the break-to-open portion 13 is formed in the rope-based fixing structure 1, and under such a condition, the rope-based fixing structure 1 on which the serial-connected rosary beads 2 and the first rosary bead 3 are arranged can be wound around a hand, the neck, or the waist of the user and then the connecting assembly 14 is applied to connect the two opposite ends of the rope-based fixing structure 1 to thereby put on the user's body, achieving another form of exhibition. Further, with the arrangement of the connecting assembly 14, the user is allowed to fast attach the rosary bead structure A to the body, and as such, the effect of promoting blood circulation, enhancing metabolism, and regulating autonomic nerves can be applied to the hand, the neck, and the waist to specifically improve certain civilized diseases of modern people caused by prolonged use of mobile phones and computers and suffering from sore hands, sore neck, or low back pain due to poor sitting posture.

[0059] Referring to FIG. 12, in the instant embodiment, as an example, the number of the through holes 21 of the serial-connected rosary beads 2 is two, and the two through holes 21 are arranged orthogonal to each other and are in communication with each other. Further, the rope-based fixing structure 1 comprises a plurality of first ropes 11 and a plurality of second ropes 12, and the first ropes 11 and the second ropes 12 extend through the through holes 21, respectively, and successively connect the serial-connected rosary beads 2 in series, so as to have the serial-connected rosary beads 2 arranged tightly close to each other to form a rosary bead structure A of a p redetermined shape. In the instant embodiment, the predetermined shape of the rosary bead structure A shown in FIG. 16 is a chest band, which can be worn on the chest of a user so as to utilize the effects that the terahertz wave provides for prompting blood circulation and improving metabolism to thereby avoid breast modules, breast hyperplasia, and breast inflammation occurring in the chest.

[0060] Referring to FIG. 13, in the instant embodiment, a plurality of decorative pieces 15 are arranged on the rope-based fixing structure 1, and each of the decorative pieces 15 can be of a polygonal shape or an irregular shape. In the instant embodiment, as an example, the decorative pieces 15 are rectangular in shape. The decorative pieces 15 comprise at least one decoration through hole 151 to receive the rope-based fixing structure 1 to extend therethrough for implementation of regular arrangement. Here, regular arrangement refers to one decorative piece 15 being subsequently arranged after every two arranged serial-connected rosary beads 2, and so on, in order to allow the rosary bead structure A of the predetermined shape according to the present invention to be used in various types, such as a waist chain, a necklace, and a wrist chain, to provide more diversified variations to suit the needs of use by different age groups or even different regions, and to achieve another kind of realm in terms of feeling of touch. Further, the shapes of the decorative pieces 15 themselves are different from that of the serial-connected rosary beads 2, making the overall visual appearance richer and more varied.

[0061] Referring to FIG. 14, in the instant embodiment, a plurality of decorative pieces 15 are arranged on the rope-based fixing structure 1, and each of the decorative pieces 15 can be of a polygonal shape or an irregular shape. In the instant embodiment, as an example, the decorative pieces 15 are rectangular in shape. The decorative pieces 15 comprise at least one decoration through hole 151 to receive the rope-based fixing structure 1 to extend therethrough to implementation of irregular arrangement. Here, irregular arrangement refers to the numbers of the serial-connected rosary beads 2 arranged among multiple decorative pieces 15 are not fixed, in order to allow the rosary bead structure A of the predetermined shape according to the present invention to be used in various types, such as a waist chain, a necklace, and a wrist chain, to provide more diversified variations to suit the needs of use by different age groups or even different regions, and to achieve another kind of realm in terms of feeling of touch. Further, the shapes of the decorative pieces 15 themselves are different from that of the serial-connected rosary beads 2, making the overall visual appearance richer and more varied.