CN108720193B - Buddha bead string - Google Patents

Abstract

A Buddha bead string belongs to the field of Buddhism articles, and comprises a Buddha bead, string ropes and string buttons; the Buddha beads are provided with a plurality of two ends connected with the string ropes; the string rope is arranged between the two Buddha beads or between the Buddha beads and the string button; the string knot install between two beads, have and to send golden yellow light by oneself, better supplementary the artistry of Buddha statue building and the characteristics of infectivity.

Description

Buddha bead string

Technical Field

The invention belongs to the field of decorative lighting, and particularly relates to a Buddha bead string decorated on Buddha figures of temples and tourist attractions.

Background

Most of the existing beads are made of materials, such as wood, and the like, which are the same as the building materials of the Buddha statue, the beads are made into the shape of the beads, are arranged at the corresponding positions of the Buddha statue, and the exterior of the beads is coated with the color matched with the Buddha statue; however, these beads and Buddha can only be decorated with powder by means of external illumination, and since the external illumination is characterized by large-area illumination and irradiates the outer surface of the beads, the self-luminous characteristics of the beads cannot be highlighted.

Disclosure of Invention

Aiming at the problems of the prior Buddha beads, the invention provides a Buddha bead string, which is characterized in that: comprises beads, strings and buckles; the Buddha beads are arranged in a plurality of numbers, and the proper numbers are arranged and connected in sequence one by one; two ends of the Buddha beads are connected to the string; the string rope is arranged between the two Buddha beads or between the Buddha beads and the string buckles, and two ends of the string rope are respectively connected with the Buddha beads or the string buckles; the string button is arranged between the two beads and is connected with the beads through a string; the string button is golden yellow in appearance, and the external dimension is matched with the diameter of the Buddha beads.

Furthermore, the Buddha bead comprises a bead body, a light-emitting component and a sleeve; the beads are spherical, are made of glass or other transparent materials, are golden yellow or are coated with golden yellow transparent coatings on the outer surfaces; the middle part of the bead body is provided with a hole, and an annular groove or a recess is arranged in the hole; the light-emitting component is arranged in a sleeve in the inner hole of the bead body; the sleeve is sleeved on the periphery of the light-emitting component, is positioned in the inner hole of the bead body and is made of transparent elastic materials.

And the two ends of the string rope are respectively provided with a plug and a socket, and the plug and the socket are respectively matched with the plug and the socket on the light-emitting component.

The string rope is made of fiber braided fabric on the outer layer, the inner core is provided with a conductive circuit, and the conductive circuit is respectively connected with the plug at two ends and the socket or a control chip in the string buckle.

The light-emitting component is arranged in the bead body, and two ends of the light-emitting component are connected with the string rope and can emit golden yellow light.

Furthermore, the light-emitting component comprises a plug, a connecting frame, an LED light source and a socket; the plug is arranged at one end of the connecting frame and is a cylindrical plug-in type plug, the middle of the plug is provided with an anode, the periphery of the plug is provided with a cathode, and the led-out electric conductor is fixedly connected with the connecting frame to ensure that the plug can be electrified; the two connecting frames are respectively arranged on two sides of the LED light source, and the connecting pieces in the middle of the two connecting frames are respectively connected with positive and negative PIN PINs of the LED light source to ensure that current can be conducted; the two ends of the connecting frame are respectively fixedly connected with the plug and the socket, and are respectively fixedly connected with the positive and negative electric conductors on the plug and the socket and are consistent with the positive and negative electrodes on the LED light source; the LED light source is arranged between the two connecting frames and is a light source emitting golden yellow light, and the color temperature of the golden yellow light is as follows: tc 2000-2200K; XY coordinate range X: 0.5117-0.5477; y: 0.4402-0.4828; the positive and negative electrodes led out from the PIN PINs are respectively fixedly connected with the connecting frames at the two side edges and are positioned between the two connecting frames; the socket is arranged at the other end of the connecting frame opposite to the plug and is a cylindrical socket, the middle of the socket is provided with a positive pole, the periphery of the socket is provided with a negative pole, and lead-out electric conductors of the positive pole and the negative pole are respectively fixedly connected with the connecting frame at the same side of the plug.

The plug comprises a base, an outer insertion cylinder, a tension ring and an insertion core; the base is made of an insulator, the upper surface of the base is fixedly connected with the outer insertion cylinder and the insertion core, and the lower bottom surface of the base is respectively led out of the electric conductors of the outer insertion cylinder and the insertion core, and the electric conductors are respectively positioned on two sides of the base and are not connected with each other; the outer inserting cylinder is arranged on the upper surface of the base and is made of a thin-wall hollow cylindrical metal conductor, the diameter of the outer circle of the outer inserting cylinder is smaller than or equal to the inner diameter of an outer inserting sleeve of the socket, and the inner diameter of the outer inserting cylinder is larger than the outer diameter of an inner inserting sleeve on the socket; the cross sections of the outer inserting cylinder and the inserting core are concentric circles; the tensioning ring is arranged in the middle of the outer inserting cylinder, is made of the outer inserting cylinder through metal plastic deformation, has an arc-shaped cross section and protrudes out of the outer circumferential surface of the outer inserting cylinder by less than 0.5 mm; the inner insertion core is arranged on the upper surface of the base and is cylindrical, the cross section of the inner insertion core is circular, the circle center of the inner insertion core is concentric with the circular cross section of the outer insertion cylinder, and the diameter of the inner insertion core is smaller than or equal to the inner diameter of the inner insertion sleeve on the socket.

The connecting frame comprises a lead and a connecting body; the lead is a metal wire which has good welding performance; the connecting body is arranged in the middle of the lead, the thickness of the connecting body is the same as the diameter of the lead, and the length of the connecting body is smaller than the length and the width of a lead of the LED light source, and the distance from the center of the lead of the LED light source to the outer diameter edge of the colloid is the same.

The LED light source comprises an electrode lead and a luminous body; the two lead wires are positioned at the lower end of the luminous body and are respectively connected with PIN PINs in the luminous body; the luminous body is positioned at the upper part of the lead, the diameter of the luminous body is less than 3 mm, the height of the luminous body is less than 5 mm, and the top of the luminous body is a hemisphere.

The LED light source luminous body comprises a PIN foot, a metal heat sink, a fluorescent glue layer, a chip and a colloid; the two PIN PINs are respectively positioned on two sides of the metal heat sink, the outer ends of the two PIN PINs are connected with the connecting frame, and the inner ends of the two PIN PINs are respectively connected with the anode and the cathode of the chip; the metal heat sink is positioned in the colloid, the central part of the metal heat sink is provided with a groove for mounting the chip, the groove is matched with the single chip, the upper part of the metal heat sink is connected with the fluorescent glue layer, and the lower part of the metal heat sink is connected with the colloid; the fluorescent glue layer is positioned on the upper part of the periphery of the chip and is formed by mixing green fluorescent powder, red fluorescent powder and glue, wherein the green fluorescent powder: Lu-YAG, wavelength: 520-540nm, the red phosphor is silicon-based nitride, 1113 structure, wavelength: 600-620 nm; the glue is epoxy resin glue or organic silica gel; the ratio of the green fluorescent powder to the red fluorescent powder is 10:1, and the glue concentration is 150% -250%; the fluorescent glue layer is formed by dispensing the mixture on a chip by a dispenser, and the shape of the fluorescent glue layer is hemispherical; the chip is a single blue light LED chip, the wavelength of the chip is 450-460 nm, the rated working voltage is 2.7-3.3V, the chip is arranged at the center of the metal heat sink, the chip is fixed by adopting a colloid, and the anode and the cathode of the chip are respectively connected with the two PIN PINs; the colloid is white organic silica gel, is coated outside the metal heat sink and the fluorescent glue layer and is integrally hemispherical; the whole body is formed by the reflow soldering and furnace-passing of 8 temperature zones of the coated fluorescent glue layer, the white glue body, the metal heat sink, the chip and the PIN foot.

The socket comprises a seat, an outer inserting sleeve and an inner inserting sleeve; the seat is made of insulating materials and is in a cylindrical sheet shape, the upper surface of the seat is connected with the outer plug bush and the inner plug bush, the lower surface of the seat is provided with electric conductors respectively connected with the outer plug bush and the inner plug bush, and the corresponding electric conductors are respectively connected with the end parts of the connecting frames at the two sides; the outer plug bush is arranged on the upper surface of the seat and fixedly connected with the seat, the outer plug bush is in a thin-walled cylindrical shape, more than 1 notch is arranged on the wall of the outer plug bush, and the depth of the notch is more than one half of that of the outer plug bush; the section of the outer plug bush is circular, the circle center of the outer plug bush is concentric with the circle center of the inner plug bush, the outer diameter of the outer plug bush is smaller than the diameter of an inner hole on the bead body, and the inner diameter of the outer plug bush is larger than or equal to the outer diameter of an outer plug cylinder on the plug and smaller than the diameter of an outer circle of a rising and tightening ring of the plug; the inner inserting sleeve is positioned at the central part of the seat and is a thin-wall hollow cylindrical body, and the section of the inner inserting sleeve is concentric with the circle center of the section of the outer inserting sleeve; the inner diameter of the inner plug bush is larger than or equal to the outer diameter of the plug core on the plug, and the outer diameter of the inner plug bush is smaller than the inner diameter of the outer plug bush on the plug.

The sleeve is arranged on the periphery of the light-emitting component, is positioned in the inner hole of the bead body and comprises a lower sleeve, a middle ring and an upper sleeve; the lower sleeve is made of elastic transparent plastic and is a thin-walled tubular body, the inner diameter of the lower sleeve is 0.1-0.3 mm smaller than the maximum size of the external section of the combined light-emitting assembly, and the outer diameter of the lower sleeve is 0.1-0.3 mm larger than the diameter of the inner hole of the bead body; the middle ring is arranged between the lower sleeve and the upper sleeve, two ends of the middle ring are respectively connected with the lower sleeve and the upper sleeve, the middle ring is a hollow ring body and made of elastic transparent plastic, the wall thickness of the middle ring is the same as that of the lower sleeve and the upper sleeve, the outer diameter of the middle ring is larger than the diameter of the inner hole of the bead body and smaller than the maximum diameter of the inner groove or the recess of the inner hole of the bead body, and the height of the middle ring is smaller than the width of the inner groove or the recess of the; the upper sleeve is arranged at the upper part of the middle ring, and the material and the shape and the size of the upper sleeve are the same as those of the lower sleeve; the length of the lower sleeve, the middle ring and the upper sleeve after combination is less than the length of the inner hole of the bead body.

The string buckle comprises a lower shell, an upper cover, a control chip and a battery; the lower shell is arranged at the lower end of the upper cover and is a thin-wall cavity body with an upper opening, and the upper opening of the lower shell is provided with a fastening groove or a flange which is fastened with the upper cover; the upper cover is arranged at the upper opening of the lower shell, the lower part of the upper cover has the same size as the upper part of the lower shell, and a fastening groove or a flange which is buckled with the lower shell is formed; the control chip is arranged in the lower shell, is clamped with the control chip clamping groove in the lower shell and is connected with the wire on the string rope and the battery or an external power supply through the wire; the battery is a high-efficiency button lithium battery, is arranged on a battery clamping seat in the lower shell and is connected with the control chip through a wire.

Further, a photosensitive sensor is arranged outside the lower shell and connected with the control chip; an external power socket is arranged on the upper cover.

The lower shell comprises a shell bottom, a control chip clamping groove, a threading hole, a battery clamping seat, a conductive spring piece and a side wall; the shell bottom is made of wood or plastic, and the surface of the shell bottom is coated or doped with colors to enable the shell bottom to show golden yellow; the shell bottom is plate-shaped and square, and the lower ends of the side walls of the four peripheral parts of the shell bottom are smoothly connected; the control chip clamping groove is arranged between the side wall and the shell bottom, is in a hollow two-end clamping groove shape, and is respectively provided with a connecting circuit at the contact part with the control chip output circuit so as to ensure that the control chip is communicated with an external lead-in wire; the threading hole is arranged at the lower part of the side wall, penetrates through the two symmetrical side walls and is parallel to the control chip clamping groove; the battery clamping seat is arranged between the shell bottom and the side wall and is parallel to the control chip clamping groove, the middle part of the battery clamping seat is provided with a step-shaped groove, the diameter of the step-shaped groove is matched with the shape of the button lithium battery, and the side edge or the side bottom of the battery clamping seat is provided with a conductive circuit which is communicated with the conductive circuit arranged on the shell bottom or the side wall; the conductive spring piece is arranged on the side wall and corresponds to the central part of the battery clamping seat; one end of the conductive spring piece is fixedly connected with the side wall, the other end of the conductive spring piece is suspended and bent in the middle, and the bent top of the conductive spring piece protrudes towards the battery clamping seat and is opposite to the center of the battery clamping seat; the fixed end of the conductive spring piece is connected with a conductive circuit arranged on the bottom or the side wall of the shell;

the side wall is arranged on the periphery of the shell bottom and is vertical to the shell bottom; and a clamping groove or a flange matched with the buckling cover is arranged at the upper end of the side wall.

The upper cover comprises a lower bottom, a decoration part, a floating spike and a wire connecting hole; the lower bottom part is positioned below the decoration part, the shape of the lower bottom part is the same as that of the upper opening of the lower shell, and a buckle groove or a lug boss buckled with the upper part of the lower shell is arranged; the decoration part is positioned above the lower bottom and is integrated with the lower bottom into a whole; the appearance of the decoration part is gourd-shaped with a big bottom and a small top; the floating ears are arranged at the top of the decoration part, a plurality of fiber ropes form a cluster shape, one end of the floating ears is fixedly connected with the top of the decoration part, and the connection mode is compression joint or bonding; the wire connecting hole is arranged in the center of the lower surface of the lower bottom and is vertical to the lower bottom, penetrates through the decoration part, and can enable the wire to penetrate out of the middle of the floating spike on the upper part of the decoration part from the interior of the wire when an external power supply is needed.

Advantageous effects

The invention has the advantages that the invention can be matched with golden statue of Buddha, and can show the solemn and magical joss of Buddha; the LED illuminating light source is adopted, so that energy is saved, the luminous ball body naturally emits light, and the emitted golden yellow light is more infectious by being irradiated from inside to outside through the ball body; the light-emitting component has small volume and high light-emitting efficiency, and can be applied to small space in the bead body; the golden yellow LED light source has good photochromism, low cost, moderate voltage, strong thermal stability, long service life, high light efficiency and no glare; the string knot can make reasonable use of the structural characteristics of the Buddha bead string, reasonably match the power supply and the control device and do not influence the appearance of the Buddha bead string.

Drawings

FIG. 1 is a schematic view of the external structure of the present invention

1. Buddha bead, 2 string rope, 3 string button.

FIG. 2 is a schematic view of a Buddha bead structure

11. Bead, 12 light emitting component, 13 sleeve.

FIG. 3 is a schematic view of a light emitting device

121. Plug, 122, connecting frame, 123, LED light source, 124, socket.

FIG. 4 is a schematic view of the structure of the plug

1211. The base, 1212. outer inserted cylinder, 1213. tension ring, 1214. lock pin.

FIG. 5 is a schematic view of the structure of the connection frame

1221. Lead, 1222 connector.

FIG. 6 is a schematic view of an appearance structure of an LED light source

123a. lead, 123b. illuminant.

FIG. 7 is a schematic diagram of the internal structure of an LED light source

1231, PIN feet, 1232, metal heat sink, 1233, fluorescent glue layer, 1234, chip, 1235 colloid.

FIG. 8 is a schematic view of the structure of the socket

1241. Seat 1242, external plug bush 1243, internal plug bush.

FIG. 9 is a schematic view of the structure of the sleeve

131. Lower sleeve, 132 middle ring, 133 upper sleeve.

FIG. 10 is a schematic view of the structure of the string buckle

31. Lower case, 32, upper cover.

FIG. 11 is a cross-sectional view of a buckle

31. Lower case, 32 upper cover, 33 control chip, 34 battery.

FIG. 12 is a structural schematic view of the lower case

311. The shell bottom, 312, a control chip clamping groove, 313, a threading hole, 314, a battery clamping seat, 315, a fastening groove, 316, a connecting circuit, 317, a conductive spring piece and 318 side walls.

FIG. 13 is a schematic view of the structure of the upper cover

321. The lower bottom part, 322, a decoration part, 323, a floating ear and 324, a wire connecting hole.

Detailed Description

For further explanation of the technical solutions of the present invention, specific embodiments of the present invention will now be described with reference to the accompanying drawings; in the present embodiment, as shown in fig. 13, wood or plastic is selected as the material of the lower bottom 321 and the decoration portion 322, preferably plastic, and the two materials are self-insulating, so as to facilitate the arrangement of the circuit; the golden yellow coloring agent is doped into the plastic particles to enable the appearance of the plastic particles to be golden yellow, so that the color of the whole Buddha bead string is matched conveniently; in this example, the lower bottom 321 is made into a square shape to meet the positive meaning of the square, a step is arranged on the periphery of the lower part of the lower bottom 321, the depth of the step is matched with the height of the fastening groove 315 on the lower shell 31, a flange with the height not higher than 0.5 mm is arranged on the periphery of the lower part of the step, and the height of the flange is less than or equal to the depth of the fastening groove 315; in this example, two sections of circular arc curves are selected to rotate around the vertical center line of the lower bottom 321 to enable the shape of the circular arc curves to be similar to the shape of a gourd, and the circular arc curves and the rotating radius of the decorative part 322 are ensured to be larger than the curve radius and the rotating radius of the upper part; a hole with the diameter of 2-3 mm is arranged at the center point of the lower bottom 321, is vertical to the lower bottom surface of the lower bottom 321 and vertically penetrates through the decorative part 322 entity to be used as a wire connecting hole 324; in this embodiment, a golden yellow fabric rope for the Buddha bead string is used to form a cluster shape as the floating spike 323, and one end of the rope is bonded to the upper top surface of the decoration part, so that the implementation of the upper cover 32 is completed, the structure is simple, the decoration performance is strong, and the functional requirements of the upper cover 32 of the string buckle 3 are met.

As shown in fig. 12, in this example, the shell bottom 311, the side wall 318, the fastening groove 315, the threading hole 313 and the control chip slot 312 are made of plastic by molding; a connecting circuit 316 is manufactured on a shell bottom 311 and a side wall 318 of a lower shell 31 by adopting a thin-wall copper plate commonly used in the industry, one connecting conductive spring piece 317 and a positive contact of a control chip 33 on a control chip clamping groove 312, the other connecting battery clamping seat 314 and a negative contact of the control chip 33 on the control chip clamping groove 312, and meanwhile, a plug-in type connecting terminal commonly used in the industry is arranged at the lower part of the control chip clamping groove 312 and is respectively connected with a lead on a string rope 2 and a lead which is led to an upper cover lead connecting hole 324 when an external power supply is connected; meanwhile, a photosensitive sensor is arranged near the threading hole 313 and is connected with a sensor contact on the control chip clamping groove 312, so that the implementation of the lower shell 31 is completed; has the characteristics of compact structure and strong functionality.

Referring to fig. 10 and 11, in this example, an LED light source control chip commonly used in the industry is selected as the control chip 33, which can control the on/off of the LED light source 123 and provide rated operating voltage and current for the LED light source 123, and the LED light source is clamped in the control chip clamping slot 312 and connected to the connection circuit; in this example, a 3.6V button lithium ion battery commonly available in the industry is selected as the battery 34, the battery case is a negative electrode, the inner core is a positive electrode, and the battery is mounted in the battery card holder 314, so that the case is in contact with the connection circuit 316 in the battery card holder 314, and the inner core is in contact with the conductive spring piece 317; the upper cover 32 is fastened to the upper opening of the lower case 31, and the string fastening 3 is completed.

As shown in fig. 9, in this example, transparent elastic plastic commonly used in the industry is selected as the material of the sleeve 13, and a lower sleeve 131, an intermediate ring 132 and an upper sleeve 133 are respectively manufactured by using a mold; the lower sleeve 131 and the upper sleeve 133 are ensured to be thin-walled tubular bodies, the inner diameter of the thin-walled tubular bodies is less than the maximum dimension of the external section of the combined light-emitting assembly by 0.1-0.3 mm, and the outer diameter of the thin-walled tubular bodies is greater than the diameter of the inner hole of the bead body by 0.1-0.3 mm; the middle ring 132 is arranged between the lower sleeve 131 and the upper sleeve 133, two ends of the middle ring are respectively connected with the lower sleeve 131 and the upper sleeve 133, the middle ring is a hollow ring body, the wall thickness of the middle ring is the same as that of the lower sleeve 131 and the upper sleeve 133, the outer diameter of the middle ring is larger than the diameter of the inner hole of the bead body 11, is smaller than the maximum diameter of the inner groove or the recess of the inner hole of the bead body 11, and the height of the middle ring is smaller than the width of the inner groove or the recess of; the combined length of the lower sleeve 131, the middle ring 132 and the upper sleeve 133 is less than the length of the inner hole of the bead body 11.

Referring to fig. 8 and 4, in this embodiment, a PCB board commonly used in the industry is used as a base 1241, riveting holes of an outer sleeve 1242 and an inner sleeve 1243 are formed in the base, and a printed circuit is formed on the bottom surface of the base and is used as a connecting conductor of the outer sleeve 1242 and the inner sleeve 1243, and is connected with the riveting portion of the outer sleeve 1242 and the riveting portion of the inner sleeve 1243 and then welded; the diameter of the selected seat 1241 is smaller than the diameter of the inner hole of the bead body 11; the structure mode of a coaxial cable socket which is universal in the industry is selected, the outer plug bush 1242 is selected to be a thin-wall cylindrical body, 2 notches are symmetrically formed in the wall of the cylindrical body through the circle center of the cylindrical body, and the depth of each notch is larger than one half of that of the outer plug bush, so that the outer plug bush 1242 has certain elasticity, and the plug 121 can be combined more tightly after being inserted; the section of the outer plug bush is selected to be circular, the circle center of the outer plug bush is concentric with the circle center of the inner plug bush 1243, the outer diameter of the outer plug bush is smaller than or equal to the diameter of the seat 1241, the inner diameter of the outer plug bush is equal to the outer diameter of an outer plug cylinder on the plug 121, and the outer diameter of the outer plug bush is smaller than the outer diameter of an upper tensioning ring 1213 of the plug; the inner inserting sleeve 1243 is selected to be positioned at the center of the seat 1241 and is a thin-wall cavity cylinder, the section of the inner inserting sleeve 1243 is concentric with the section circle center of the outer inserting sleeve 1242, the inner diameter of the inner inserting sleeve 1243 is equal to the outer diameter of the inserting core 1214 on the plug 121, and the outer diameter is smaller than the inner diameter of the outer inserting cylinder 1212 on the plug 121; the structure form of the coaxial cable plug which is commonly used in the industry and matched with the socket 124 is also selected as the plug 121, the PCB which is commonly used in the industry is selected as the base 1211, the upper surface of the PCB is fixedly connected with the outer inserting cylinder 1212 and the inserting core 1214, the lower bottom surface of the PCB is respectively used as the electric conductors of the outer inserting cylinder 1212 and the inserting core 1214 by adopting the printed circuit, the two electric conductors are respectively positioned at two sides of the base 1211 and are not connected with each other, but are respectively communicated with the riveting part of the outer inserting cylinder 1212 and the inserting core 1214 and then are welded; the outer sleeve 1212 is made of thin-wall hollow cylindrical metal conductor, whose outer diameter is equal to the inner diameter of the outer sleeve 1242 of the socket 124 and whose inner diameter is larger than the outer diameter of the inner sleeve 1243 of the socket 124; the cross sections of the outer inserting cylinder 1212 and the inserting core 1214 are selected to be concentric circles; the tensioning ring 1213 is arranged in the middle of the outer inserting cylinder 1212, and is formed by the outer inserting cylinder 1212 through a die, the cross section of the outer inserting cylinder 1212 is arc-shaped and protrudes 0.2 mm out of the outer circumferential surface of the outer inserting cylinder 1212; the ferrule 1214 is mounted on the upper surface of the base 1211, and has a cylindrical shape with a circular cross section, the center of the circle of the ferrule is concentric with the circular cross section of the outer sleeve 1212, and the diameter of the ferrule is equal to the inner diameter of the inner sleeve 1243 of the socket 124; the wall thickness of the thin-wall cylindrical body does not exceed 0.2 mm, so that the implementation of the socket 124 and the plug 121 is completed, and the socket is characterized in that the socket is miniaturized, the LED light source 123 is also cooled while the mutual connection is met, and the normal and stable work of the LED light source 123 is ensured.

Referring to fig. 6, 7 and 3, in this example, a PIN of an LED light source commonly used in the industry is selected as the PIN 1231, and in this example, a copper material is selected as the material of the PIN 1231; a commercially available metal heat sink commonly used in the industry is selected as the metal heat sink 1232 in the present embodiment, two PIN PINs 1231 are selected to be respectively located at two sides of the metal heat sink 1232, the outer end is welded with a copper lead 123A to be connected with the connecting frame 122, and the inner end is respectively connected with the anode and the cathode of the chip 1234; placing a metal heat sink 1232 inside the colloid 1235, wherein a groove for mounting the single chip 1234 and matching with the chip 1234 is formed in the center of the metal heat sink 1232, the upper part of the metal heat sink is connected with the fluorescent glue layer 1233, and the lower part of the metal heat sink is connected with the colloid 1235; the fluorescent glue layer 1233 is arranged on the upper portion of the periphery of the chip 1234 and is formed by mixing green fluorescent powder, red fluorescent powder and glue, wherein the green fluorescent powder is Lu-YAG and has the wavelength of 520-620 nm, the red fluorescent powder is silicon-based nitride, and the fluorescent glue layer has a 1113 structure and has the wavelength of 600-620 nm; selecting organic silica gel as glue; the proportion of the green fluorescent powder to the red fluorescent powder is 10:1 when mixing, and the glue concentration is 150-250%; the mixture is dispensed on the chip 1234 by a dispenser to form a fluorescent glue layer 1233, the shape of which is hemispherical, so that the illuminant 123B can emit golden yellow light conveniently, the overall size of the illuminant can be reduced conveniently, and the overall diameter is ensured to be 2.5 mm and the height is ensured to be 3 mm; the chip 1234 is selected as a single blue light LED chip, the wavelength of the chip is 450-460 nm, and the rated working voltage is 2.7-3.3V, so that the chip cost is reduced compared with the case of adopting multi-chip light mixing, the size is reduced, the working voltage is increased, and the stable work of the chip 1234 is ensured; the chip 1234 is installed at the center of the metal heat sink 1232, and is fixed from the lower part by using colloid, and the positive and negative electrodes of the chip 1234 are respectively connected with the two PIN PINs 1231 in a welding manner; the colloid 1235 is white organic silica gel, is coated outside the metal heat sink 1232 and is integrally hemispherical; the whole body is formed by reflow soldering and furnace-passing of 8 temperature zones of the coated fluorescent glue layer 1233, the white colloid 1235, the metal heat sink 1232, the chip 1234 and the PIN 1231; thus, the implementation of the LED light source 123 is completed, and the LED light source has the characteristics of small volume, good light color, no glare, stable work and low cost.

Referring to fig. 5 and 3, in this example, a copper wire with a diameter of 0.2 mm is selected as the wire 1221; selecting a thin copper sheet as a connecting body 1222, arranging the connecting body 1222 in the middle of the wire 1221, wherein the thickness of the connecting body 1222 is the same as the diameter of the wire 1221, the length of the connecting body 1222 is smaller than the length of the lead 123A of the LED light source 123, the width of the connecting body 1222 is equal to the distance from the center of the lead 123A of the LED light source 123 to the outer diameter edge of the colloid 1235, and welding the connecting body 1222 in the middle of the wire 1221 to align, thereby completing the implementation of the connecting frame 122, which is characterized in that the distance between the two wires can be ensured, the short circuit can be avoided, and the; two connecting frames 122 are selected, the connecting frames 122 are welded on two side edges of the LED light source 123 and are parallel to each other, two ends of the connecting frames 122 are flush and are respectively welded on the bottom connecting conductors of the plug 121 and the socket 124, and the positive and negative electrodes of the LED light source 123 are consistent with the positive and negative electrodes of the plug 121 and the socket 124, so that the implementation of the light-emitting component 12 is completed, and the light-emitting component has the advantages of being small in structure and capable of being suitable for small-space golden yellow light emission.

As shown in fig. 1 and fig. 2, the light emitting assembly 12 is installed in the sleeve 13 and then installed in the inner hole of the ball 11, so that the middle ring 132 of the sleeve 13 is ensured to be clamped in the recess of the inner hole of the ball 11; in the embodiment, crystal, glass or acrylic is used as a material of the bead body 11, a mold is adopted to mold the bead body 11 into a sphere with an inner hole, and the outer surface of the sphere is coated with a thin golden yellow coating to ensure that the sphere can transmit light; after the light emitting component 12 is installed in the bead body 11, the outer edges of the plug 121 and the socket 124 at the two ends are lower than the surface of the bead body 11, thus completing the implementation of the Buddha bead 1; the Buddha beads 1 can emit golden yellow light from the interior, so that the Buddha beads have a mysterious feeling of the holy, and the Buddha atmosphere is better rendered; according to Buddhism tradition, selecting a proper number of Buddha beads, for example 18, connecting two ends of the string rope 2 with the plug 121 and the socket 124 at two ends of the Buddha bead 1 respectively, finally connecting the string rope 2 into the interior of the string buckle 3 through the threading holes 313 at two sides of the string buckle 3 to be connected with the wiring terminal of the control chip 33 to form a closed loop, and hanging the closed loop on a Buddha hand or a neck, thereby completing the implementation of the invention.

When the Buddha statue display device is used, a battery or an external power supply supplies power to the lighting assembly through the control chip, the LED light source is lightened, the LED light source emits golden yellow light, the golden yellow light irradiates the air through the beads of the Buddha statue, and due to the effect of the convex lens of the beads, the light rays are emitted in four directions, so that the boundless Buddha statue and the Buddha statue are displayed, and the artistry and the infectivity of the Buddha statue building are better assisted; if it is outdoor, when light was stronger daytime, photosensor sent the light intensity signal for control chip, and control chip cuts off the power of LED light source according to the judgement, and light-emitting component stops giving out light, and when light was darker, photosensor sent the signal, and control chip switch on the power of LED light source makes it give out light, and light-emitting component sends golden yellow light.

Claims (1)

1. A Buddha bead string is characterized in that: comprises beads, strings and buckles; the Buddha beads are multiple; two ends of the Buddha beads are connected to the string; the string ropes are arranged between the two beads and between the beads and the string buckles, and two ends of the string rope between the two beads are respectively connected with the two beads; one end of a string rope between the Buddha beads and the string buckles is connected with the Buddha beads, and the other end of the string rope is connected with the string buckles; the string button is arranged between the two beads and is connected with the beads through string ropes; the Buddha beads comprise beads, a light-emitting component and a sleeve; the beads are spherical, are made of glass or other transparent materials and are golden yellow; the middle part of the bead body is provided with a hole, and an annular groove or a recess is arranged in the hole; the light-emitting component is arranged in the sleeve in the bead hole and can emit golden yellow light; the sleeve is sleeved on the periphery of the light-emitting component and is positioned in the bead hole; the two ends of the string between the Buddha beads are respectively provided with a plug and a socket, and the plug and the socket are respectively matched with the plug and the socket on the luminous component; the string rope is characterized in that the outer layer of the string rope is made of a fiber braided fabric, the inner core of the string rope is provided with a conductive circuit, the conductive circuit of the string rope positioned between two Buddha beads is respectively connected with a plug or a socket at two ends of the string rope, one end of the string rope positioned between the Buddha beads and the string buckles is connected with the plug or the socket at the end part of the string rope, and the other end of the string rope is connected with a control chip on the string buckles; the sleeve is made of transparent elastic material; the external surface of the bead body is coated with a golden yellow light-transmitting coating; the exterior of the string button is golden yellow, and the external dimension is matched with the diameter of the Buddha bead; the light-emitting component comprises a plug, a connecting frame, an LED light source and a socket; the plug of the light-emitting component is arranged at one end of the connecting frame and is a cylindrical plug-in type plug, the middle of the plug is provided with a positive pole, the periphery of the plug is provided with a negative pole, and the led-out electric conductor is fixedly connected with the connecting frame to ensure that the plug can be electrified; the two connecting frames are respectively arranged on two sides of the LED light source, and the connecting pieces in the middle of the two connecting frames are respectively connected with positive and negative PIN PINs of the LED light source to ensure that current can be conducted; the two ends of the connecting frame are respectively fixedly connected with the plug of the light-emitting component and the socket of the light-emitting component, and are respectively fixedly connected with the positive and negative electric conductors on the plug of the light-emitting component and the socket of the light-emitting component and are consistent with the positive and negative electrodes on the LED light source; the LED light source is arranged between the two connecting frames and is a light source emitting golden yellow light, and the color temperature of the golden yellow light is as follows: tc 2000-2200K; XY coordinate range X: 0.5117-0.5477; y: 0.4402-0.4828; the positive and negative electrodes led out from the PIN PINs are respectively fixedly connected with the connecting frames at the two side edges and are positioned between the two connecting frames; the socket of the light-emitting component is arranged at the other end of the connecting frame opposite to the plug of the light-emitting component, the socket is in a cylindrical sleeved connection, the middle of the socket is provided with an anode, the periphery of the socket is provided with a cathode, and lead-out electric conductors of the anode and the cathode are respectively fixedly connected with the connecting frame with the same side polarity as the plug of the light-emitting component.

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