CN220689000U - Stage lamp convenient for data reading - Google Patents

Abstract

The utility model discloses a stage lamp convenient for data reading, which comprises a lamp holder for installing a light source, a supporting arm for supporting the lamp holder to rotate, a machine case for supporting the supporting arm to rotate, at least 2 near field communication modules for storing lamp parameters, wherein the lamp holder, the supporting arm and the machine case are enclosed by a plurality of shells and form accommodating cavities respectively, and the near field communication modules are arranged close to the side wall of at least one accommodating cavity respectively and are not in the same plane. The near field communication module for storing the lamp parameters is added into the stage lamp, information interaction with the lamp can be realized by utilizing the approach of the mobile device or other sensing devices, for example, the parameter information of the lamp is read or a wireless upgrading function is realized, and the operation is intelligent and convenient; and simultaneously, the near field communication module positioned on the non-same plane is arranged, so that the near field communication module can be sensed at least 2 directions of the stage lamp by using the mobile equipment, and the limitation of the lamp placement direction to the sensing recognition action is greatly reduced.

Description

Stage lamp convenient for data reading

Technical Field

The utility model relates to the technical field of stage lamps, in particular to a stage lamp convenient for data reading.

Background

NFC (Near Field Communication), namely near field communication, is formed by integrating a non-contact Radio Frequency Identification (RFID) technology and an interconnection technology, and two devices using NFC technology can realize rapid data exchange under the condition of being close to each other.

At present, some manufacturers can add NFC technology into lamp management, so that the accuracy and efficiency of lamp warehousing are effectively improved, and the software and hardware information of the lamps can be conveniently read daily. Most lamps on the market are a desk lamp which is only provided with an NFC module and is usually arranged on the front face of a lamp body, but various orientations of the lamps can occur in the transportation and use processes, or the front face of the lamp body is shielded so that NFC labels cannot be sensed, and the lamps need to be moved again to scan again, so that the lamp is inconvenient.

Disclosure of Invention

The utility model aims to overcome at least one defect in the prior art, provides a stage lamp convenient for data reading, and solves the problem that information interaction is difficult to realize rapidly in the transportation and use processes of the stage lamp.

In order to solve the technical problems, the utility model adopts the following technical scheme: the utility model provides a make things convenient for stage lamp of data reading, includes the lamp holder that is used for installing the light source, is used for supporting the rotatory support arm of lamp holder and is used for supporting the rotatory quick-witted case of support arm, the lamp holder the support arm with the machine case is enclosed by the polylith shell and is formed respectively and holds the chamber, still includes 2 near field communication modules that are used for storing lamps and lanterns parameter at least, near field communication module is close to at least respectively hold the lateral wall setting in chamber, and is not in the coplanar.

The near field communication module for storing the lamp parameters is added into the stage lamp, information interaction with the lamp can be realized by utilizing the approach of the mobile device or other induction devices, for example, the parameter information of the lamp is read or a wireless upgrading function is realized, and the operation is intelligent and convenient; and simultaneously, the near field communication module which is positioned on the non-same plane is arranged, so that the near field communication module can be induced in at least 2 directions of the stage lamp by using the mobile equipment, the identification efficiency of the lamp is further improved, and the limitation of the lamp placement direction to the induction identification action is greatly reduced.

Further, the near field communication module is an NFC module, each group of NFC modules comprises a data storage communication unit and a tag antenna which are electrically connected with each other, and the tag antennas are respectively close to the side wall of the accommodating cavity. The NFC module is mature in technology and higher in accuracy, and only will the tag antenna is close to the lateral wall setting that holds the chamber, simple structure is convenient for can easily realize installing additional in traditional stage lamp structure and upgrade moreover.

Further, the near field communication modules are all arranged on the case. Because most stage lamps are mainly controlled by the case, namely, a main control unit is arranged in the case, the near field communication modules are arranged in the case, wiring difficulty can be effectively reduced, the stage lamps are conveniently inverted in the airplane case, and data are read when the case is arranged on the airplane case.

Further, the number of the near field communication modules is 2, wherein 1 near field communication module is close to the bottom substrate of the case, and the other 1 near field communication module is close to the side plate of the case. Because the support arm pin joint of most stage lamps in the top of quick-witted case, if set up in the top and shelter from by the lamp holder, inconvenient with mobile device is close to the response, so will near field communication module set up in the base substrate with the mode of curb plate, the user of facilitating the use utilizes mobile device to carry out the response discernment that is close to more.

Further, a display panel is arranged on the side plate, a display window is hollowed out on the side plate of the case corresponding to the display panel, and one tag antenna of the near field communication module is located in a range limited by the display window. The user generally inquires and sets the lamp parameters through the display panel, so that the tag antenna is arranged close to the display panel, and when the user operates the display panel, the user can conveniently use the mobile device to realize information interaction with the near field communication module at the same time.

Further, the data storage communication unit is electrically connected with the tag antenna through a feeder line, wherein the tag antenna is positioned at the outer side of the accommodating cavity, and the data storage communication unit is positioned in the accommodating cavity; the side plate and/or the bottom substrate to which the tag antenna is connected is provided with a through hole through which the feeder line passes. By arranging the tag antenna outside the accommodating cavity, when a user uses the mobile device to perform identification sensing, the distance between the tag antenna and the accommodating cavity is shortened as much as possible, and the situation that the tag antenna is difficult to identify due to too far distance is avoided.

Further, the through hole is sealed with the outside of the feeder line. And water vapor is prevented from entering the inside of the case from the through hole.

Further, planes of the near field communication module are perpendicular to each other. With this arrangement, the mobile device can be used to perform recognition from 2 completely different directions, ensuring convenience of recognition.

Further, at least 1 near field communication module is arranged on each of the lamp cap and the supporting arm. The detection of a plurality of positions of the stage lamp can be realized, and the operation is more convenient.

Further, at least 2 near field communication modules are all arranged on the lamp cap. In the whole lamp size, the occupied part of the lamp cap is larger, and the installation positions provided for the near field communication module are more, so that the lamp cap is convenient to arrange.

Drawings

Fig. 1 is a schematic circuit structure of a near field communication module according to the present utility model.

Fig. 2 is a schematic diagram of the overall structure of the chassis provided with the near field communication module according to the present utility model.

Fig. 3 is a schematic bottom view of the chassis with the near field communication module according to the present utility model.

Fig. 4 is a schematic diagram of the whole lamp structure when 2 near field communication modules are arranged in a chassis.

Fig. 5 is a schematic diagram of the whole lamp structure at another view angle when the chassis is mounted with 2 near field communication modules in the present utility model.

In the figure:

100. a lamp base; 110. a light-emitting lens; 120. a light source; 130. an effect module; 200. a support arm; 300. a chassis; 310. a base substrate; 320. a side plate; 330. a display panel; 340. a display window; 350. a through hole; 360. a handle; 410. a first plate body; 420. a second plate body; 500. a near field communication module; 510. a data storage communication unit; 520. a tag antenna; 530. a feed line; 540. and a control unit.

Description of the embodiments

The drawings are for illustrative purposes only and are not to be construed as limiting the present patent; for the purpose of better illustrating the embodiments, certain elements of the drawings may be omitted, enlarged or reduced and do not represent the actual product dimensions; it will be appreciated by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted. The positional relationship depicted in the drawings is for illustrative purposes only and is not to be construed as limiting the present patent.

As shown in fig. 2, fig. 4 and fig. 5, a stage lamp convenient for data reading includes a lamp holder 100 for mounting a light source 120, a supporting arm 200 for supporting the lamp holder 100 to rotate, and a case 300 for supporting the supporting arm 200 to rotate, wherein the lamp holder 100, the supporting arm 200 and the case 300 are enclosed by multiple shells and form a containing cavity respectively, and further includes at least 2 near field communication modules 500 for storing lamp parameters, and the near field communication modules 500 are respectively arranged near the side walls of at least one containing cavity and are not in the same plane.

The near field communication module 500 for storing the lamp parameters is added into the stage lamp, and information interaction with the lamp can be realized by utilizing the approach of the mobile device or other sensing devices, for example, the parameter information of the lamp is read or a wireless upgrading function is realized, and the operation is intelligent and convenient; meanwhile, the near field communication module 500 which is located on the non-same plane is arranged, so that the near field communication module 500 can be sensed in at least 2 directions of the stage lamp by using the mobile device, the recognition efficiency of the lamp is further improved, and the limitation of the lamp placement direction to the sensing recognition action is greatly reduced.

Preferably, the light source 120 is mounted at one end of the lamp holder, and the lamp holder 100 is further provided with an effect module 130 for intercepting light and generating an effect, and a light-emitting lens 110 mounted at the other end of the lamp holder 100, wherein one of the near-field communication modules 500 is disposed close to the light-emitting lens 110, and when the lamp is placed on the ground, a user can conveniently perform induction identification by using a mobile device to obtain lamp information.

Preferably, the parameters of the luminaire include, but are not limited to, version of software in the luminaire, DMX address, configuration information of the luminaire, time of use, or error record.

Preferably, the side wall of the accommodating cavity includes a first board 410 and a second board 420, and the plurality of near field communication modules 500 are respectively disposed near the first board 410 and the second board 420.

As shown in fig. 1 and 2, in a preferred embodiment of the present utility model, the near field communication module 500 is an NFC module, and each group of NFC modules includes a data storage communication unit 510 and a tag antenna 520 that are electrically connected to each other, where the tag antenna 520 is disposed near a side wall of the accommodating cavity, respectively. The NFC module is mature in technology and higher in accuracy, and only will the tag antenna 520 is close to the side wall setting of holding the chamber, simple structure is convenient for can easily realize installing additional in traditional stage lamp structure and upgrade.

Preferably, the communication module 500 further includes a control unit 540 for processing information, and a plurality of the data storage communication units 510 are simultaneously electrically connected to the same control unit 540.

Preferably, the distance between the tag antenna 520 and the housing is less than 10CM, preferably less than 5CM, to avoid the situation that the sensing cannot be recognized due to the too far distance between the mobile device and the tag antenna 520.

As shown in fig. 2 to 4, in a preferred embodiment of the present utility model, the near field communication modules 500 are all disposed in the chassis 300. Because most stage lamps are mainly controlled by the case 300, that is, the main control unit is installed inside the case 300, the near field communication modules 500 are all arranged in the case 300, so that wiring difficulty can be effectively reduced, the stage lamps are conveniently inverted in the airplane case, and the case 300 reads data when being arranged on the airplane case.

Preferably, the supporting arm 200 is pivotally connected to the upper portion of the chassis 300 through the pivot, the chassis 300 includes a base substrate 310 for mounting the pivot, side plates 320 surrounding the periphery of the base substrate 310 and having one side connected to the base substrate 310, and handles 360, the number of the side plates 320 is 4, the handles 360 are mounted on 2 opposite side plates 320, and further includes an outer cover for wrapping the side plates 320, wherein the 2 opposite outer covers extend mutually, and after being combined, a top plate of the chassis 300 is formed; one of the antenna tags is located on the side plate 320 outside the handle 360, so that the handle 360 is prevented from blocking the mobile device, and the operation of a user during induction identification is facilitated.

In a preferred embodiment of the present utility model, the number of near field communication modules 500 is 2, wherein 1 near field communication module 500 is disposed near the bottom substrate 310 of the chassis 300, and another 1 near field communication module 500 is disposed near the side plate 320 of the chassis 300. Because the support arm 200 of most stage lamps is pivotally connected to the top of the chassis 300, if the support arm is arranged at the top and shielded by the lamp cap, it is inconvenient to place the mobile device close to the induction, so that the near field communication module 500 is arranged on the base substrate 310 and the side plate 320, which is more convenient for a user to use the mobile device to perform close induction recognition.

Preferably, the near field communication module 500 is disposed on at least one of the side plates 320.

In a preferred embodiment of the present utility model, a display panel 330 is disposed on the side plate 320, and a display window 340 is hollowed out on the side plate 320 of the chassis 300 corresponding to the display panel 330, where the tag antenna 520 of one of the near field communication modules 500 is located within a range defined by the display window 340. The user generally queries and sets the lamp parameters through the display panel 330, so that the tag antenna 520 is disposed near the display panel 330, and when the user is operating the display panel 330, the user can conveniently use the mobile device to interact with the near field communication module 500 to realize information interaction.

Preferably, the antenna tag is fixed to the base substrate 310 and/or the side plate 320 by means of adhesion or using a bracket.

In a preferred embodiment of the present utility model, the data storage communication unit 510 and the tag antenna 520 are electrically connected through a feeder line 530, wherein the tag antenna 520 is located outside the accommodating cavity, and the data storage communication unit 510 is located in the accommodating cavity; the side plate 320 and/or the bottom substrate 310 to which the tag antenna 520 is connected is provided with a through hole 350 through which the feeder line 530 passes. By arranging the tag antenna 520 outside the accommodating chamber, when a user uses a mobile device to perform recognition sensing, the distance between the tag antenna 520 and the accommodating chamber is shortened as much as possible, and the tag antenna 520 is prevented from being difficult to recognize due to the too long distance.

In a preferred embodiment of the utility model, the through hole 350 is sealed to the outside of the feed line 530. Moisture is prevented from entering the interior of the cabinet 300 through the through-holes 350. Alternatively, the sealing may be achieved by means of a sealant or a strip.

In a preferred embodiment of the present utility model, the planes of the near field communication module 500 are perpendicular to each other. With this arrangement, the mobile device can be used to perform recognition from 2 completely different directions, ensuring convenience of recognition.

In a preferred embodiment of the present utility model, at least 1 near field communication module 500 is disposed on each of the lamp cap 100 and the support arm 200. The detection of a plurality of positions of the stage lamp can be realized, and the operation is more convenient.

In a preferred embodiment of the present utility model, at least 2 near field communication modules 500 are disposed on the lamp base 100. In the overall lamp size, the portion occupied by the lamp cap 100 is larger, and more mounting positions are provided for the near field communication module 500, so that the arrangement is convenient.

It is to be understood that the above examples of the present utility model are provided for clarity of illustration only and are not limiting of the embodiments of the present utility model. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the utility model are desired to be protected by the following claims.

Claims (10)

1. Stage lamp convenient for data reading, including lamp holder (100) that is used for installing the light source, be used for supporting lamp holder (100) rotatory support arm (200) and be used for supporting support arm (200) rotatory quick-witted case (300), its characterized in that, lamp holder (100) support arm (200) with machine case (300) are enclosed by the polylith shell and are formed respectively and hold the chamber, still include at least 2 near field communication modules (500) that are used for storing lamps and lanterns parameter, near field communication module (500) are close to at least one respectively hold the lateral wall setting in chamber, and are not in the coplanar.

2. Stage lamp according to claim 1, wherein the near field communication modules (500) are NFC modules, each group of NFC modules comprising a data storage communication unit (510) and a tag antenna (520) electrically connected to each other, the tag antennas (520) being arranged close to the side walls of the receiving cavity, respectively.

3. Stage lamp according to claim 2, characterized in that the near field communication modules (500) are all arranged in the chassis (300).

4. A stage lamp according to claim 3, wherein the number of near field communication modules (500) is 2, wherein 1 near field communication module (500) is arranged close to the bottom substrate (310) of the chassis (300) and another 1 near field communication module (500) is arranged close to the side plate (320) of the chassis (300).

5. The stage lamp according to claim 4, wherein a display panel (330) is disposed on the side plate (320), and a display window (340) is hollowed out on the side plate (320) of the chassis (300) corresponding to the display panel (330), wherein the tag antenna (520) of one of the near field communication modules (500) is located within a range defined by the display window (340).

6. Stage lamp according to claim 5, characterized in that the data storage communication unit (510) is electrically connected with the tag antenna (520) by a feeder (530), wherein the tag antenna (520) is located outside the receiving cavity and the data storage communication unit (510) is located inside the receiving cavity; the side plate (320) and/or the bottom substrate (310) to which the tag antenna (520) is connected are provided with a through hole (350) through which the feeder line (530) passes.

7. Stage lamp according to claim 6, characterized in that the through hole (350) is sealed from the outside of the feed line (530).

8. Stage lamp according to claim 1, characterized in that the planes of the near field communication modules (500) are perpendicular to each other.

9. Stage lamp according to claim 1, characterized in that at least 1 near field communication module (500) is arranged on both the lamp head (100) and the support arm (200).

10. Stage lamp according to claim 1, characterized in that at least 2 near field communication modules (500) are arranged to the lamp head (100).