CN108808215B - Backlight type antenna with atmosphere effect - Google Patents

Abstract

The invention discloses a backlight antenna with an atmosphere effect, which comprises a shell, wherein an antenna unit for receiving antenna signals is arranged in the shell, and a light effect component is arranged at the back of the shell, wherein the light effect component transmits light outwards from the back of the shell to illuminate a space area outside the back of the shell, so that an indoor television antenna not only has the function of receiving and transmitting conventional television signals, but also has the function of backlight decoration, thereby greatly improving the ornamental value of the indoor television antenna and improving the visual perception when watching television.

Description

Backlight type antenna with atmosphere effect

Technical Field

The invention relates to the technical field of antenna technology, in particular to a backlight antenna with an atmosphere effect.

Background

In the field of indoor antenna units, an indoor television antenna is hung or placed on a wall surface, a television or a desktop in a manner of being fixed on the wall surface, the television or the desktop, so that a wireless television signal is received and converted into a television playing signal to be transmitted to the television; the existing antenna unit only has the function of receiving and transmitting signals, and various traditional antenna units on the market have the decorative effect by being manufactured into various shapes, but still have no atmosphere adjusting function, especially the adjustment of lamplight atmosphere; with the improvement of living standard, consumers are willing to accept products with novel shapes and functions.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide the television antenna with the backlight effect, which not only has the function of receiving and transmitting signals, but also has the function of adjusting the light atmosphere.

In order to achieve the above-mentioned objective, the backlight antenna with an atmosphere effect provided by the present invention comprises a housing, wherein an antenna unit for receiving antenna signals is disposed in the housing, and a light effect component is disposed at the back of the housing, wherein the light effect component transmits light outwards from the back of the housing to illuminate a space region outside the back of the housing.

Further, the light effect assembly comprises a light source unit, a light transmitting sheet and a fixing unit fixedly arranged in the shell, wherein the fixing unit is provided with a containing groove for fixedly installing the light source unit, and the light transmitting sheet covers the opening of the containing groove.

Further, the light effect assembly comprises a light source unit and a fixing unit fixedly arranged in the shell, wherein a plurality of light holes for light emitted by the light source unit to be transmitted outwards are formed in the back of the shell.

Further, the casing is spliced by first casing and second casing and is constituteed, wherein, the back department of first casing and second casing all takes shape and presss from both sides the die cavity to be convenient for when first casing and second casing splice are closed, two press from both sides the die cavity butt joint and form the installation die cavity that supplies the printing opacity piece looks joint to cooperate.

Further, a clamping groove for embedding a convex part preformed on the edge of the light-transmitting sheet is formed in the inner side surface of any one of the clamping mold cavities.

Further, the fixing unit is formed by splicing two installation parts, wherein the back of each installation part is provided with a groove, so that when the two installation parts are spliced and folded, the two grooves are butted to form a containing groove.

Further, the light source unit is an LED light strip with single color or mixed color.

Further, the receiving plane of the antenna unit is perpendicular to the conductor plane of the light source assembly.

Further, the antenna unit is in communication with the outside to receive a preset light control signal to enable the light source assembly to make corresponding light adjustment.

Further, the antenna unit comprises two groups of symmetrically arranged UHF receiving components and VHF receiving components, wherein each UHF receiving unit comprises a first radiating unit and an impedance matching unit which are in an L shape, each VHF receiving unit comprises a second radiating unit, and the second radiating unit consists of a short side, an arc side and a long side which are sequentially connected; one end of each group of the first radiating units is connected with the outer side of the impedance matching unit, and the other end of each group of the first radiating units, the inner side of the impedance matching unit and the long side end part of the second radiating unit are connected to serve as a feed part.

The invention adopts the scheme, and has the beneficial effects that: the light emitted by the light effect component at the back of the shell is outwards transmitted from the back of the shell to illuminate a space area outside the back, so that the indoor television antenna has the functions of receiving and transmitting conventional television signals and backlight decoration, the ornamental value of the indoor television antenna is greatly improved, and the visual feeling when watching television is improved; in addition, a predetermined light control signal may be transmitted to the antenna unit to allow the light source assembly to perform a corresponding light adjustment.

Drawings

Fig. 1 is a rear view of an antenna of the first embodiment.

Fig. 2 is a longitudinal sectional view of an antenna of the first embodiment.

Fig. 3 is an exploded view of the housing of the first embodiment.

Fig. 4 is an enlarged view of a portion p in fig. 3.

Fig. 5 is an exploded view of a light effect module and an antenna unit according to the first embodiment.

Fig. 6 is an enlarged view of a portion q in fig. 5.

Fig. 7 is a schematic structural diagram of an antenna unit according to the first embodiment.

Fig. 8 is a rear view of the antenna of the second embodiment.

The antenna comprises a 1-shell, a 11-first shell, a 12-second shell, a 13-clamping groove, a 2-antenna unit, a 21-UHF receiving component, a 211-first radiating unit, a 212-impedance matching unit, a 22-VHF receiving component, a 221-second radiating unit, a 23-feeding part, a 3-light effect component, a 31-light source unit, a 32-light transmitting sheet, a 321-protruding part and a 33-fixing part.

Detailed Description

The invention will be further illustrated with reference to specific examples.

Embodiment one: referring to fig. 1 to 7, in the present embodiment, a backlight type antenna with an atmosphere effect includes a housing 1, an antenna unit 2 and a light effect component 3, wherein the housing 1 may have various shapes (such as a cylinder, a square, etc., even other specific shapes, which are adapted according to actual production conditions).

In this embodiment, the housing 1 is formed by splicing the first housing 11 and the second housing 12 (i.e., the first housing 11 and the second housing 12 are fixed together by screws); clamping cavities are formed on the back surfaces of the first shell 11 and the second shell 12, wherein when the first shell 11 and the second shell 12 are spliced and folded, the two clamping cavities symmetrically form an installation cavity for the light-transmitting sheet 32 to be matched in a clamping manner.

In this embodiment, the light efficiency assembly 3 includes a light source unit 31, a light-transmitting sheet 32 and a fixing unit fixedly disposed in the housing 1, where the shape of the light-transmitting sheet 32 is consistent with the shape of the installation cavity, that is, a slot 13 (the slot 13 in this embodiment extends along the length direction of the inner side surface of the clip cavity) is formed on the inner side surface of each clip cavity for embedding a protrusion 321 formed on the edge of the light-transmitting sheet 32, so that the two clip cavities respectively play a role of clamping and embedding the edge of the light-transmitting sheet 32, thereby realizing that the light-transmitting sheet 32 is fixedly installed on the installation cavity.

In this embodiment, the fixing unit is formed by splicing two mounting portions 33, that is, a groove is formed on the back of each mounting portion 33 (the cross section of each mounting portion 33 is "U") and opposite ends of the two mounting portions 33 are respectively formed with a clamping portion and a clamping position for the clamping portion to be matched with in a clamping manner, so that the two mounting portions 33 are spliced to form the fixing unit through the clamping portion and the clamping position in a clamping manner, and when the two mounting portions 33 are spliced and folded, the two grooves are butted to form a containing groove for the light source unit 31 to be mounted; next, the mounting assembly is disposed in the housing and near the rear side of the housing (fixedly mounted between the first housing 11 and the second housing 12 by screws), and the light-transmitting sheet 32 fixedly mounted on the rear side of the housing is covered on the opening of the accommodating groove on the rear side of the fixing unit, so that the light-transmitting sheet 32 and the mounting assembly together form a cavity for accommodating the light source unit 31, and the light source unit 31 is diffusely reflected in the cavity and is transmitted through the light-transmitting sheet 32 when the cavity is in operation.

In the present embodiment, the light source unit 31 is a lamp strip (LED lamp strip) having a width of not more than 5mm, which is fixedly mounted on the inner side surface of the accommodating groove (i.e., the lamp strip is glued and adhered on the inner side surface of the mounting portion 33 formed by two mutually spliced portions); the lamp strip is arranged in the accommodating groove, so that the lamp strip has enough space in the accommodating groove to dissipate heat and volatilize, and the service effect and the service life of the light source unit 31 are ensured.

Secondly, the light-transmitting sheet 32 has any one color of single color or mixed color (the single color is not limited to one of red, orange, yellow, green, cyan, blue and purple, and other colors can be used), so that the light emitted by the light source unit 31 arranged at the back of the casing 1 during operation is outwards transmitted by the light-transmitting sheet 32, so that the space area outside the back of the casing 1 is illuminated, the antenna is more attractive in appearance, and the space area outside the back of the casing 1 is illuminated by the light, so that the back of the indoor television antenna has decorative light effect under the light reflection, the aesthetic feeling of the indoor television antenna is greatly improved, and the television viewing experience is not affected by the formed backlight effect.

In this embodiment, the antenna unit 2 includes two sets of symmetrically arranged UHF receiving components 21 and VHF receiving components 22 disposed on an insulating substrate, where two sets of the UHF receiving units are formed by half-wave folded array deformation and VHF is deformed by basic half-wave array form to maximize performance in a limited volume, each of the UHF receiving units includes a first radiating unit 211 and an impedance matching unit 212 (the impedance matching unit 212 in this embodiment is in a regular rectangular shape), each of the VHF receiving units includes a second radiating unit 221, and the second radiating unit 221 is formed by sequentially connected short sides, arc sides and long sides; one end of each group of the first radiating units 211 is connected with the outer side of the impedance matching unit 212, and the other end of each group of the first radiating units 211, the inner side of the impedance matching unit 212 and the long side end of the second radiating unit 221 are connected as the feeding part 23, so that the first radiating unit 211 and the second radiating unit 221 respectively form an impedance matching network with the impedance matching unit 212. The two sets of symmetrically arranged UHF receiving components 21 are used for receiving UHF frequency band signals and the two sets of symmetrically arranged VHF receiving units are used for receiving VHF frequency band signals; the standing wave ratio is improved and the signal output characteristic is enhanced through the impedance blocking matching unit. Secondly, the receiving plane of the antenna unit 2 is perpendicular to the conductor plane of the light source unit 31 (in this embodiment, the conductor plane of the light source unit 31 is the surface plane of the lamp band), so that the receiving plane and the conductor plane are kept in a perpendicular state, and the light source unit 31 (the conductor plane has small thickness) has minimal influence on the reflection surface of the wireless signal according to the skin effect and the principle of the yagi reflection network, so that the interference on the signal reception of the antenna unit 2 is minimal, the influence of the light source unit 31 on the received signal is avoided, and the stability of the antenna unit 2 for receiving the wireless signal is ensured. In addition, a predetermined distance value is formed between the receiving plane of the antenna unit 2 and the conductor plane of the light source unit, and a predetermined certain distance value is maintained between the receiving plane of the antenna unit 2 and the conductor plane of the light source unit, so that the influence of the light source assembly on the wireless signal reception is further reduced.

In order to facilitate the installation of the antenna unit 2, a plurality of connection posts are formed on the front surfaces of the two installation parts 33, and a plurality of threaded holes are formed on the insulating substrate of the antenna unit 2 to be aligned with the connection posts one by one and connected through screws, so that the antenna unit 2 and the installation assembly are fixedly matched.

In this embodiment, the antenna unit 2 communicates with the outside to receive a preset light control signal to make the light source component perform corresponding light adjustment, that is, a remote control device using RF wireless communication transmission, and in this technical field, the RF (radio frequency) of this embodiment has the advantage of long distance and no need of alignment. In order to facilitate understanding of the remote controller, the remote controller comprises a singlechip, four keys and an RF transmitting unit, wherein the RF receiving unit is connected with the input end of the singlechip, the RF transmitting unit is connected with the output end of the singlechip, when a key is pressed, the singlechip is interrupted to wake up, the singlechip obtains a distinguishing effective key value through keyboard scanning, if the distinguishing effective key value is a preset command of RF transmitting power, the singlechip sets the RF transmitting power to a corresponding value through a preset transmitting power unit, and then the corresponding light control signal is sent to the antenna unit 2 through the RF transmitting unit, and the four keys of the embodiment respectively correspond to the on/off, high brightness and low brightness of the light source unit 31, namely, the RF transmitting unit transmits corresponding codes (control wireless signals) according to different keys, so that the antenna unit 2 receives the signals; the transmitting frequency band of the RF transmitting unit is 433MHz; in the technical field, the principle of the remote controller is known to those skilled in the art, and the remote controller belongs to a conventional technical means, and can refer to patent documents such as chinese patent CN201298287Y, CN202495931U, etc., and those skilled in the art can make an extended scheme according to actual situations, so that the description is omitted herein. In addition, after receiving the light control signal sent by the remote controller, the antenna unit 2 transmits the light control signal to a preset microprocessor for processing (the antenna unit 2 is connected with the input end of the microprocessor), the microprocessor converts and gives PWM information preset with the light source driving controller according to the received light control signal (the light source driving controller is connected with the output end of the microprocessor), so that the light source driving controller receives the PWM information, and adjusts and drives the light source unit 31 (the light source driving controller is connected with the light source unit 31) according to the duty ratio of the PWM signal, namely, in the embodiment, by pressing different keys, the antenna unit 2 respectively receives corresponding control wireless signals, so that the microprocessor gives out corresponding PWM information, and the light source driving controller correspondingly adjusts the light source unit 31 according to the PWM information; that is, the light source driving controller adjusts the current of the light source unit 31 (light band) according to the PWM information, so that the light source unit 31 is turned on, turned off, and has a higher brightness, and a lower brightness, and the principle of wireless signal conversion in the present embodiment can be referred to the chinese patent CN201220139025.6, and the description of the principle thereof is omitted herein.

Through the indoor television antenna, the conventional television signal receiving and transmitting function and the backlight effect function can be realized, so that the indoor television antenna has a more attractive effect and has a better visual effect when watching television, meanwhile, the brightness, the color and the switch of the light source unit 31 can be subjected to adaptive wireless control processing according to the requirements of a user, and the remote operation and adjustment of the user are greatly facilitated.

Embodiment two:

referring to fig. 8, the distinguishing features of this embodiment compared with the first embodiment are: the light effect component 3 comprises a light source unit 31 and a fixing unit fixedly arranged in the casing 1, wherein the back of the casing 1 is provided with a plurality of light holes for outward transmission of light rays emitted by the light source unit 31, namely, the light rays emitted by the light source unit 31 during operation are directly transmitted to a space region outside the back of the casing 1 through the light holes, so that a backlight effect for illuminating the region outside the back of the casing is realized.

The above-described embodiments are merely preferred embodiments of the present invention, and are not intended to limit the present invention in any way. Any person skilled in the art, using the disclosure above, may make many more possible variations and modifications of the technical solution of the present invention, or make many more modifications of the equivalent embodiments of the present invention without departing from the scope of the technical solution of the present invention. Therefore, all equivalent changes according to the inventive concept are covered by the protection scope of the invention without departing from the technical scheme of the invention.

Claims (9)

1. The utility model provides an antenna in a poor light with atmosphere effect, is including casing (1), wherein, be provided with in casing (1) and be used for receiving antenna element (2), its characterized in that: the back of the shell (1) is provided with a light effect component (3), wherein the light effect component (3) transmits light outwards from the back of the shell (1) to illuminate a space area outside the back of the shell (1); the antenna unit (2) comprises two groups of UHF receiving assemblies (21) and VHF receiving assemblies (22) which are symmetrically arranged, wherein each UHF receiving assembly (21) comprises a first radiating unit (211) and an impedance matching unit (212) which are in an L shape, each VHF receiving assembly (22) comprises a second radiating unit (221), and each second radiating unit (221) consists of a short side, an arc side and a long side which are sequentially connected; one end of each group of the first radiating units (211) is connected with the outer side of the impedance matching unit (212), and the other end of each group of the first radiating units (211), the inner side of the impedance matching unit (212) and the long side end part of the second radiating unit (221) are connected to serve as a feed part (23).

2. A backlit antenna with an ambient effect as claimed in claim 1, wherein: the light effect assembly (3) comprises a light source unit (31), a light transmitting sheet (32) and a fixing unit fixedly arranged in the shell (1), wherein the fixing unit is provided with a containing groove for fixedly installing the light source unit (31), and the light transmitting sheet (32) covers the opening of the containing groove.

3. A backlit antenna with an ambient effect as claimed in claim 1, wherein: the light effect assembly (3) comprises a light source unit (31) and a fixing unit fixedly arranged in the shell (1), wherein a plurality of light holes for light emitted by the light source unit (31) to be outwards transmitted are formed in the back of the shell (1).

4. A backlit antenna with an ambient effect as claimed in claim 2, characterized in that: the shell (1) is formed by splicing a first shell (11) and a second shell (12), wherein clamping cavities are formed in the back sides of the first shell (11) and the second shell (12), so that when the first shell (11) and the second shell (12) are spliced and folded, the two clamping cavities are butted to form an installation cavity for the light-transmitting sheet (32) to be matched in a clamping mode.

5. A backlit antenna with an ambient effect as recited in claim 4, wherein: the inner side surface of any mold clamping cavity is provided with a clamping groove (13) for embedding a protruding part (321) preformed on the edge of the light-transmitting sheet (32).

6. A backlit antenna with an ambient effect as claimed in claim 2, characterized in that: the fixing unit is formed by splicing two mounting portions (33), wherein the back of each mounting portion (33) is provided with a groove, so that when the two mounting portions (33) are spliced and folded, the two grooves are butted to form a containing groove.

7. A backlit antenna with an ambient effect as claimed in claim 2, characterized in that: the light source unit (31) is an LED lamp strip with single color or mixed color.

8. A backlit antenna with an ambient effect as claimed in claim 2, characterized in that: the receiving plane of the antenna unit (2) is perpendicular to the conductor plane of the light source unit (31).

9. A backlit antenna with an ambient effect as claimed in claim 1, wherein: the antenna unit (2) communicates with the outside to receive a preset light control signal to make the light source unit (31) make a corresponding light adjustment.