PL64278Y1 - A flexible tubular light - Google Patents

Description

2 PL 64 278 Υ1

Pattern description

The subject of the utility model is a flexible light hose intended as decorative lighting.

So far, neon lights have been used as decorative lighting, which are characterized by their clear color, variety of colors, even distribution and soft light. Therefore, neon lights are widely used indoors, for making signs, on notice boards, in dancing clubs, bars, pubs, on building walls and so on. However, neon lights have high power consumption, high voltage, high manufacturing cost, and their outer glass tube breaks easily, is difficult to repair and transport, cannot be bent to change shape, cannot be cut, and for installation and repair professional maintenance is necessary, neon lights cannot be easily protected and are not safe. Thus, there is a need for light that can replace neon light for many years to come.

Therefore, a flexible light hose was used instead of neon light. A flexible light hose, also known as soft neon light, made of plastic was introduced to the market. The known flexible light tube uses LEDs as illumination elements to avoid high current consumption, maintenance difficulties, susceptibility to breakage and the need to use high voltages. Due to the improvements made, the improved flexible light hose is capable of bending, elongating and showing suitability for various shape requirements. However, due to the greater spacing between adjacent LEDs, the light emitted from each LED is not continuous, making it impossible to obtain a light producing neon light effects. Therefore, a translucent cover for diffusing the light of the LEDs is attached to the outer periphery of the flexible light hose, in order to obtain the same haze effect as in neon light. However, adding a translucent cover to the outer periphery of the flexible light hose increases its manufacturing cost. Moreover, when the translucent cover is added, the flexible light hose stops bending and loses its shape changeability.

There is another flexible light hose made of acrylic resin that can be bent when heated, and the light beam is soft and continuous, which is an excellent substitute for neon light. However, this flexible light hose is still brittle at room temperature. Moreover, for this flexible light hose, a soft printed circuit board is used as the electrical connection medium between the elements and, in order to fix the elements on the printed circuit board, a method of filling with closure material is performed, which drastically complicates the manufacturing process and increases its cost.

The known flexible light hose includes a core, a plurality of LEDs, and a cladding layer. The core is extruded from a soft material, has two main wires electrically connected to the power supply line disposed opposite on one side of the core and a plurality of transverse holes made separately on the other side of the core. The plurality of light-emitting LEDs are connected to each other by wire leads and are connected to at least one resistor to form a string of LEDs, the first and last wire leads connected to the main wires and LEDs, and the wire leads and resistor are mounted on the LEDs. corresponding transverse holes. The cladding layer is molded from soft plastic, has a length equal to the length of the core, covers the core and the LEDs, and has an arched top surface.

As shown in the figure, in a perspective view, the known flexible light hose consists of an elongated plastic core 110, two wires 120, 130, a plurality of elongated holes 140 or transverse holes 150a, 150b. 150c. 150d. 150e to accommodate multiple bulbs 160a. 160b, 160c and wire terminals 170a. 170b connecting each of the bulbs 160a, 160b, 160c. A transparent cladding layer 180 is formed outside the core 110. In the event that the core of the known flexible light hose comprises light sources in the slots and the directions of the light sources are aligned with the core axis, the known flexible light hose is referred to as a horizontal type hose. When the core of a known flexible light hose comprises light sources in transverse openings and the directions of the light sources are perpendicular to the core axis, the known flexible light hose is called a vertical type hose. In U.S. Patent No. 4,607,317 of August 19, 1986. disclosed an invention under the name "non-neon light". The invention is a flexible light hose of the vertical type as described above. 3 PL 64 278 Υ1

It provides greater safety in use and is easier to install and maintain than any other known neon light. However, the invention does not overcome the drawback that the light from the point light source is discontinuous. That is, the flexible light hose still employs LEDs as a light source, without any modification to soften the point effect of the LEDs. From US Patent No. 6,186,645B1 dated February 13, 2001, an invention is known, which is called a flexible lighting system and a mounting system. The invention is a flexible horizontal light hose having the light diffusion capability of LEDs. However, the light of the LEDs is not sufficiently softened and therefore does not emit soft and continuous light compared to the neon light on the market. In turn, in U.S. Patent No. 6,565,251 B2 of May 20, 2003. disclosed an invention called a tubular decorative light cord. The invention is an improved horizontal type flexible light hose having a core and a cladding layer on the outside of the core. The core and the cladding layer can have different shapes, for example round, square, oval and even wavy. At least one longitudinal space may be formed between the core and the cladding layer, and at least one longitudinal space may be filled with an insulating fluid to improve light diffusion. Although the ability to emit soft and continuous light with the effect of neon light is stated for this flexible light hose, there is no specific structure to show how light is reflected and / or refracted.

Known flexible light hoses are widely used in horticulture, in advertising, and for decorating spaces around houses and the like. Flexible light hoses are manufactured in automatic production, are low-cost to manufacture, are easily bent in use, can be joined or cut to lengthen or shorten, are impact resistant, safe and reliable, and can be designed as a decorative pattern according to individual requirements recipient. Flexible light hoses create wonderful and colorful decorative effects. However, known flexible light hoses shine with discontinuous illumination and non-uniform light beams, as is the case with neon light. The reason why known flexible light tubes cannot be as continuous and homogeneous as neon light is that the illumination elements inside the flexible light tube are multiple light points such as miniature light bulbs or LEDs separately mounted and configured.

The flexible light hose of the present utility model comprises a core, a plurality of LEDs and a cladding layer, the core being extruded from a soft material, having two main wires electrically connected to a power cable, disposed opposite on one side of the core, and a plurality of openings. transverse ones made separately on the other side of the core, and a plurality of light-emitting LEDs are connected to each other by wire leads and are connected to at least one resistor to form an LED string, the first and last wire leads connected to the main wires and the LEDs , and the wire leads and the resistor are mounted in the corresponding transverse holes, and the cladding layer is extruded from soft plastic, has a length equal to the length of the core, covers the core and LEDs, and has an arched top surface, and is characterized by a milky and semi-translucent finish. a diffusing body with a length equal to the length of the core, which is positioned on top of the LEDs to diffuse the light emitted from the LEDs and is covered with a cladding layer.

The flexible hose has an LED driver located on the power cord.

The LED driver is a rectifier.

The LED driver is a pulse current driver for LEDs.

The diffuser body and the cladding layer are integrally formed.

The diffuser body is made of polyvinyl chloride PVC.

The diffusing body has a longitudinal channel.

The core has an inverted trapezoidal recess formed on top of the core and corresponding to the LEDs.

The flexible light tube according to this utility model has the advantage that it imitates neon light giving a continuous, uniform, colored and soft light.

Another advantage of this flexible light hose is that it can be joined or cut to length or shorten. 4 PL 64 278 Υ1

Moreover, the flexible light hose according to the present utility model can be mass-produced at low cost.

The object of the utility model is shown in its forms in the drawing, Fig. 1 of which shows a flexible light hose according to the present utility model, in a perspective view, Fig. 2 - shows a flexible light hose according to the present utility model, in a cross-section along the line AA in Fig. 1, showing its internal structure, fig. 3 - shows the formation of a casing layer on the core and a diffusing body on top of the core, schematically in a perspective view, fig. 4 - shows a light effect from a flexible light hose according to the present utility model, in a schematic view. Fig. 5 - is a perspective view of a second embodiment of a flexible light hose according to the present utility model; Fig. 6 is a cross sectional view of a flexible light hose taken along line BB in Fig. 5, Fig. 7 - is a second embodiment of a flexible light hose according to the present utility. utility model embossed with an extruder, in frontal view in a perspective view, fig. 8 - is a schematic view of the light effect from a flexible light hose according to a second embodiment of the present utility model, fig. 9 - is a schematic view of another embodiment of a flexible light hose according to the present utility model, in a perspective view, fig. 10 - is a schematic view of the light hose, in a cross-section taken along line CC of Fig. 9, Fig. 11 - shows the three different internal structures of the core of the present utility model and Fig. 12 - shows the use of a flexible light hose according to the present utility model in a schematic view.

Fig. 1 shows a flexible light hose according to the present utility model in a perspective view. Fig. 2 is a sectional view taken along line AA in Fig. 1 showing the internal structure of the flexible light hose according to the present utility model, and Fig. 3 is a schematic perspective view of the formation of a casing layer 14 outside the core 02 and the diffusing body 08 on top of the core 02 .

A method of manufacturing a flexible light hose according to the present utility model is described below. Two main copper wires Ola, Olb are fed through an extruder (not shown). The extruder automatically and continuously extrudes core 02. Core 02 is made of a soft and matt plastic, usually a soft and matt white PVC or other color. Main wires Ola, Olb are assembled in core 02. The flexible light hose may have two, three or four main wires 01 a. 01 b. A number of transverse holes 03a, 03b are made in core 02. 03c, 03d formed on one side of core 02 to suitably accommodate the LEDs 04a, 04b. The main wires Ola, Olb are placed on the other side of the core 02, opposite to the transverse holes 03a, 03b. 03c. 03d. Transverse holes 03a. 03b. 03c. 03d can form one column, two columns or three columns.

As shown in Fig. showing the known solution, transverse holes 150a, 150b, 150c. 150d. 150e and 160a bulbs. 160b. 160c with leads 170a. 170b to the lamp bulb is placed between the main wires 120, 130. However, in Fig. 1 and Fig. 2 it can be seen that since the two main wires Ola, Olb are on one side in the core 02 and the transverse openings 03a, 03b . 03c. 03d are on the other side of the core 02, then when the flexible light hose is bent as shown in Fig. 12, the tensile force on each of the main wires 01 a, 01 b will be the same, thus eliminating the difficulties of bending of the flexible light hose and breakage of the main wires Ola, 01 b. Due to low energy consumption, low temperature, high brightness and compactness of LEDs, the number of LEDs in the flexible light tube has been increased according to the current utility model and the distance between adjacent LEDs has been shortened without overheating, increasing the brightness of the flexible light hose. As a result, the brightness of the flexible light tube can surpass the neon light. In one form of the present utility model, the LEDs have a diameter of 3 to 5 mm and the brightness of the LEDs is about 200 mkd (milikandela). The distance between adjacent transverse holes 03a, 03b, 03a, 03d is approximately 1/2 inch.

After the core 02 is formed, the LEDs 04a, 04b are inserted into transverse holes 03a, 03c in core 02. There are a plurality of transverse holes 03b, 03d between adjacent LEDs 04a, 04b. in which wire leads 05 or a resistor 06 are inserted. Wire leads 05 connect the LEDs in series. The first wire lead 07 and the last wire lead 5 PL 64 278 Υ1 (not shown) of the LED string are connected to the main wires Ola, 01b in core 02, respectively.

When the serial LED string connects to the core 02, the core with the milky translucent body which is the diffusing body 08 passes through the port 21. in the extruder 20. As shown in Fig. 3, a soft plastic 22 is extruded, for example, clear PVC polyvinyl chloride covers the core 02 and the diffuser body 08 to form a cladding layer 14 of the same length with core 02. The cladding layer 14 has an arcuate top surface extending from the top of the diffuser body 08 and the LEDs 04a, 04b. imitating a surface emitting neon light.

Moreover, when the diffusing core 02 and the diffusing body 08 pass through the through hole 21 in the extruder 20, the diffusing body 08 must be above the LEDs 04. Therefore, the LEDs 04 should be below the diffusing body 08 and preferably below the symmetry axis of the diffuser body 08. 08.

Since the core 02 is made of frosted plastic, the LEDs cannot emit light through the two sides of the core 02 when the LEDs are mounted in the transverse openings of the core 02. Therefore, the frosted core 02 partially covers the side light of the LEDs 04. For this reason, , the light from the LEDs 04 only emits from above through the diffuser body 08.

As is apparent from the disclosure, the width and height of the diffuser body 08 are related to the brightness and the emission angle of the LEDs. If the LEDs have a higher brightness or a larger emission angle, the height and width of the diffuser body 08 are larger. If the LEDs have a lower brightness or a smaller emission angle, the height and width of the diffuser body 08 are smaller. The greater the width and height of the diffusing body 08, the weaker the brightness of the flexible light tube according to the present utility pattern, but the greater the elimination of the effect of the light dots. The smaller the width and height of the diffusing body 08, the stronger the brightness of the flexible light tube according to the present utility pattern, but less elimination of the effect of the light dots. In one form of the present utility model, each LED has a diameter of 3 to 5 mm, a brightness of 200 mcd, and an emission angle of 45 degrees. The distance between adjacent transverse holes 03a, 03b, 03a, 03d is 1/2 inch. The height H of the diffuser body 08 is 14 mm and the width L is 8 mm as shown in Fig. 2. According to Fig. 4, the light emitted by the LEDs is refracted by the cladding layer 14 and is refracted 1 diffused by the diffuser body 08. Edges adjacent LED lights 04a. 04b. 04c. 04d overlap to form overlapping sections 12. The overlapping sections 12 increase the brightness of the edges of the LEDs almost to a brightness equal to that of the central section of the LEDs. So, the top of the LEDs 04a. 04b. 04c. 04d, being an arcuate top surface 10 of cladding layer 14, emits continuous and uniform light, such as neon light.

When the cladding layer is formed, the main wires Ola, Olb are electrically connected to the feed wire 1 ±. The connection section is covered with a plastic sheath which forms the connection 12 as shown in Fig. 1. The ends of the core 02 and the facing layer 14 are covered with a plastic sheath which forms a plug 13 To enhance the lighting effect of the present utility model on the conduit the power supply 11 is provided by injection molding to an LED driver 15 as shown in Fig. 1. The LED driver 15 may be an AC to DC converter rectifier, AC to DC, to provide DC to the LEDs and stabilize the LED light. and elimination of LED flashing. The rectifier may contain four rectifier diodes or other, more specifically, rectifying circuits. The L5 LED driver may be a pulsed current LED driver, providing a current pulse to the LEDs to increase the efficiency of the LEDs and to reduce power costs. Thus, an LED provides brighter light at the same energy cost. In addition, the brightness of the flexible light hose is increased.

Figures 5, 6 and 7 show a second embodiment of the present utility model where the diffusion body is not preformed when filling the core 02 with a string of LEDs. The diffusing body 09 is integrated with the cladding layer 141 and is extruded on the extruder 16 as the core 02 passes through the port 17 in the extruder 16, which forms the diffusing body 09 on top of core 02 and forms a cladding layer 141 on the underside and two sides of the core 02. The material 19 used to make the diffusing body 09 and the cladding layer 141 is a soft, milky and translucent plastic, especially soft, milky and translucent PVC. The height H of the diffusion body 09 on top of the core 02 is 14 mm and the width L is 8 mm.

Moreover, see Fig. 8, the diffuser body 09 diffuses and refracts the light of the LEDs. Light edges of adjacent LEDs 04a, 04b, 04c. 04d overlap to form overlapping sections 121. The overlapping sections 12 increase the brightness of the edges of the LEDs almost to a brightness equal to the central section of the LEDs.

Figures 9 and 10 show a third embodiment of the present utility model in which a longitudinal channel 091 is provided in the diffusing body 090 on top of the core 02 to save materials. The diffusing body 090 and the cladding layer 141 are integrated and embossed. Due to the poorer scattering effect for the air inside the longitudinal channel 091 than for the diffusion body 090, the height H1 and width L1 of the diffusion body 090 on top of core 02 as shown in Figs. 9 and 10 should be greater than the height H and width L of the diffuser body. 09 in the embodiment shown in Figs. 5 and 6. As the dimension of the longitudinal channel 091 varies, the height H1 and the width L1 of the diffusion body 090 have to be varied accordingly.

Referring to Fig. 11, core 02 has an inverted trapezoidal recess which is formed in core 020 over the top of the LEDs 04, respectively. The sloping sides of the inverted trapezoidal recesses in core 020 reflect and focus the light emitted from the LEDs 04. Therefore the LEDs can only emit light from the arcuate top surface 10, which is capable of emitting continuous and soft light like neon light. The three cross-sections A1-A1, B1-B1 and C1-C1 respectively show first, second and third embodiments of the present utility model.

Fig. 12 shows a flexible light hose according to the present utility model used to imitate neon light in the form of the word "OPEN". In use, the flexible light hose is cut as appropriate to obtain the appropriate lengths. Then, using the clamp 30, the lengths of the flexible light tube are firmly fastened to the board 31. From the top surface 10 of the flexible light tube it is noticeable that this light is continuous and thus gives a soft continuous effect which is the same as when emitting neon light. . Moreover, due to the simpler manufacturing method, the manufacturing cost is low, allowing mass production to be realized.

Protective Claims 1. A flexible light hose comprising a core, a plurality of LEDs and a cladding layer, the core being extruded from a soft material, having, electrically connected to a power cable, two main wires disposed opposite on one side of the core and a plurality of transverse openings made separately on the other side of the core, and a plurality of light-emitting LEDs are connected to each other via wire leads and are connected to at least one resistor to form a string of LEDs, the first and last wire leads being connected to the main wires and the LEDs, and The wire leads and the resistor are mounted in the corresponding transverse holes, and the cladding layer is extruded from soft plastic, has a length equal to the length of the core, covers the core and LEDs, and has an arcuate top surface characterized by a milky and translucent body in a washing machine (08, 09, 090) with a length equal to the length of the core (02) which is arranged on top of the LEDs (04, 04a, 04b) to diffuse the light emitted from the LEDs (04, 04a, 04b) and is covered with a cladding layer Q4, 141).

2. Flexible hose according to claim The flexible hose according to claim 2, characterized in that the LED driver Q5) is located on the power cable (UJ 3. The flexible hose according to claim 2, characterized in that the LED driver Q5) is a rectifier. 4. Flexible hose according to Claim The method of claim 2, characterized in that the LED driver Q5) is a pulsed current LED driver. 5. Flexible hose according to claim The dispersion of claim 1, wherein the diffusing body (09) and the cladding layer (141) are integrally formed. 6. Flexible hose according to claim The dispersion body of claim 1, wherein the diffusing body (08, 09, 090) is made of polyvinyl chloride PVC.

Claims (8)

1. Protective Claims 1. A flexible light line comprising a core, numerous LEDs and a cladding layer, the core being extruded from a soft material, electrically connected to power cord, two main wires opposite on one side of the core and numerous transverse openings made separately on the other side of the core, and a plurality of light-emitting LEDs are connected to each other and, through lead wires, are connected to at least one resistor to form a string of LEDs, the first and last wire terminals are connected to the main wires and LEDs, and the wire leads and the resistor are mounted in corresponding transverse holes, and the veneer layer is embossed with of plastic, has a length equal to the length of the core, covers the core with LEDs and has an arched upper surface, characterized by the fact that it has a milky and semi-transparent diffusing body (08, 09, 090) of a length equal to the length of the core (02), which is located on top of the LEDs (04, 04a, 04b) to diffuse the light emitted it is made of LEDs (04, 04a, 04b) and is covered with a layer of veneer (14, 141). 2. Flexible hose according to claim The driver of claim 1, characterized in that it has an LED driver (15) located on the power cable (11) 3. Flexible hose according to claim The method of claim 2, characterized in that the LED driver (15) is a rectifier. 4. Flexible hose according to claim The method of claim 2, characterized in that the LED driver (15) is a pulse LED driver. 5. Flexible hose according to claim The method of claim 1, characterized in that the diffusing body (09) and the casing layer (141) are integrally formed. 6. Flexible hose according to claim The method as claimed in claim 1, characterized in that the diffusing body (08, 09, 090) is made of polyvinyl chloride PVC. 7. Flexible hose according to claim The method as claimed in claim 5, characterized in that the diffusing body (090) has a slack channel 1 (091). 8. Flexible hose according to claim The method of claim 1, characterized in that the core (02) has an inverted trapezoidal lance formed on top of the core (02) and corresponding to the LEDs (04, 04a, 04b). Drawings PL 64 278 Y1 8PL 64 278 Y1 9PL 64 278 Y1 10PL 64 278 Y1 11PL 64 278 Y1 12PL 64 278 Y1 13PL 64 278 Y1 14PL 64 278 Y1 15PL 64 278 Y1 16 Publishing Department UP RP PL PL PL