阅读说明：本技术 一种用于光纤彩灯地板的画布回收机构 (Canvas recovery mechanism for optical fiber color lamp floor ) 是由 高斌 于 2021-06-23 设计创作，主要内容包括：本发明公开了一种用于光纤彩灯地板的画布回收机构,包括回收画布钢管、减速电机、磁铁、钢丝棉、火纸条和磁铁片,所述钢丝棉上方设置有两个磁铁,一个所述磁铁通过电机信号线和减速电机相连接,另一个所述磁铁通过电机信号线连接电源,所述钢丝棉之间设置有火纸。本发明中的回收机构通过表演者脚踏进行物理驱动,采用火纸进行燃烧传递,以保证燃烧信号的顺利传递,启动准确,灵敏。(The invention discloses a canvas recovery mechanism for an optical fiber color lamp floor, which comprises a recovered canvas steel pipe, a speed reducing motor, magnets, steel wool, a fire paper strip and magnet pieces, wherein two magnets are arranged above the steel wool, one magnet is connected with the speed reducing motor through a motor signal wire, the other magnet is connected with a power supply through a motor signal wire, and fire paper is arranged between the steel wool. The recovery mechanism is physically driven by pedals of performers, and adopts fire paper to carry out combustion transmission, so that smooth transmission of combustion signals is ensured, and the recovery mechanism is accurate and sensitive in starting.)

1. The canvas recovery mechanism for the optical fiber colored lamp floor is characterized by comprising a recovered canvas steel pipe, a speed reducing motor, magnets, steel wool, fire paper strips and magnet pieces, wherein two magnets are arranged above the steel wool, one magnet is connected with the speed reducing motor through a motor signal line, the other magnet is connected with a power supply through a motor signal line, and fire paper is arranged between the steel wool.

2. The canvas recycling mechanism for an optical fiber fancy lantern floor as claimed in claim 1, wherein magnet pieces are arranged at regular intervals in the steel wool.

3. The canvas recycling mechanism for optical fiber fancy lantern floors according to claim 1, wherein a layer of tinfoil or fire-proof cloth is arranged at the bottom of the steel wool.

4. The canvas recycling mechanism for the optical fiber fancy lantern floor as claimed in claim 1, wherein the canvas recycling mechanism is a motor connected with a rotating shaft through a gear mechanism to roll up the canvas for recycling.

5. The canvas recycling mechanism for a fiber-optic festoon lamp floor as claimed in claim 1, wherein the canvas recycling mechanism start signal can be light signal, pressure signal, wireless signal to control the start and stop of the recycling mechanism.

6. The canvas retrieval mechanism for a fiber optic fancy lantern floor as claimed in claim 1, wherein the retrievable mechanism controlled by a signal and overlaid on the sub-floor is capable of adjusting the operating speed of the retrievable mechanism.

7. The canvas recycling mechanism for a fiber optic festoon lighting floor, as claimed in claim 1, wherein: when the user walks on the surface of the upper canvas, a signal transmitting board is arranged below each shoe of the user, and a battery, a power supply lead and a thermal resistance wire are arranged above the signal transmitting board.

8. The canvas retrieval mechanism for a fiber optic festoon lighting floor, as claimed in claim 1, wherein the retrieval mechanism can be activated directly upon receiving a wireless signal according to design requirements.

9. The canvas recycling mechanism for optical fiber fancy lantern floors as claimed in claim 1, wherein the recycling mechanism is in a modular design, the frameworks of the recycling mechanisms can be connected and fixed, and the operation state is uniformly controlled by a control board.

Technical Field

The invention relates to a color lamp floor, in particular to a canvas recovery mechanism for an optical fiber color lamp floor. And can be independently used on other floor planes.

Background

The floor on the existing stage is only one type, namely the LED lamp can be lightened when the simple LED colored lamp floor receives external sensing signals such as gravity, and the single effect is that the LED lamp is simply lightened, so that other display effects can not be increased. The LED colored lamp ornaments on the clothes of the user can not be powered at any position in function, and the power can be supplied only by the batteries of the LED colored lamps, so that the styles and the number of the LED colored lamp ornaments decorated on the clothes are greatly limited, and the overall weight of the clothes is increased, and the performance effect of the user on a stage is also limited.

In view of the above problems, the present applicant has proposed an optical fiber colored lamp floor having power supply performance and dynamic effect, which is a stage floor having a layered display effect by opening canvas covered on the floor when a performer walks.

Disclosure of Invention

Aiming at the technical defects, the invention aims to provide a canvas recovery mechanism for an optical fiber colored lamp floor, which can recover canvases at corresponding positions according to the walking of performers and has a good performance effect.

In order to solve the technical problems, the invention adopts the following technical scheme:

the invention provides a canvas recovery mechanism for an optical fiber color lamp floor, which comprises a recovered canvas steel pipe, a speed reducing motor, magnets, steel wool, a fire paper strip and magnet pieces, wherein two magnets are arranged above the steel wool, one magnet is connected with the speed reducing motor through a motor signal wire, the other magnet is connected with a power supply through a motor signal wire, and fire paper is arranged between the steel wool.

Preferably, magnet pieces are arranged in the steel wool at certain intervals.

Preferably, a layer of tinfoil or fireproof cloth is arranged at the bottom of the steel wool.

Preferably, the recycling mechanism is used for rolling up and recycling canvas by connecting a motor with a rotating shaft through a gear mechanism.

Preferably, the starting signal of the recycling mechanism of the canvas can be a light signal, a pressure signal or a wireless signal for controlling the starting and stopping of the recycling mechanism.

Preferably, the steel wool ignition signal in the recovery mechanism starting signal is a steel wool ignition signal which is obtained by installing a signal transmitting plate below each shoe of a user, and arranging a battery, a power supply lead and a thermal resistance wire above the signal transmitting plate. The device is used for igniting the steel wool on the canvas and further starting the recovery mechanism.

Preferably, the recoverable mechanism covered on the lower floor and controlled by the signal can be directly started without a steel wool burning signal when the signal is received.

Preferably, the recoverable mechanism adopts a modular design, the frameworks of the recoverable mechanisms can be fixedly connected, and the running state is uniformly controlled through the control panel.

The invention has the beneficial effects that: the recovery mechanism can be physically driven by the pedal of the performer and can also be directly driven by a wireless signal. Adopt the fire paper to burn the transmission when carrying out the physics drive to guarantee the smooth transmission of burning signal, start accurate, sensitive, it is safe in utilization.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a partially enlarged view of a canvas for a fiber-optic colored lamp floor according to the present invention;

FIG. 2 is a schematic structural diagram of a recycling mechanism for a floor of an optical fiber color lamp according to the present invention;

fig. 3 is a schematic structural diagram of an upper canvas of a recycling mechanism for a fiber-optic colored lamp floor provided by the invention.

Fig. 4 is a schematic structural diagram of a signal emitting plate of a recovery mechanism for starting a floor of an optical fiber festoon lamp according to the present invention.

Description of reference numerals: 1-steel tube, 2-speed reducing motor, 3-recovery mechanism, 31-motor signal wire, 32-magnet, 33-steel wool, 34-fire paper strip, 35-tinfoil, 36-magnet piece, 37-filament yarn, 4-electric heating wire, 5-positive plate, 6-negative plate, 7-negative wire and 8-positive wire.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Embodiment 1, as shown in fig. 1 to 4, a canvas recovery mechanism for a fiber-optic colored lamp floor includes a recovery canvas steel pipe 1, a reduction motor 2, magnets 32, steel wool 33, fire paper strips 34, tinfoil 35 and magnet pieces 36, the steel pipe 1 is connected with the canvas, the canvas is provided with strip-shaped steel wool 33, two magnets 32 are arranged above the steel wool 33, one magnet 32 is connected with the reduction motor 2 through a motor signal line 31, the other magnet 32 is connected with a power supply through a motor signal line 31, the steel wool 33 is provided with fire paper, and combustion transmission between the steel wool on each canvas adopts trace fire paper for combustion transmission so as to ensure smooth transmission of combustion signals.

Furthermore, magnet pieces 36 are arranged in the steel wool 33 at regular intervals for preventing the fragments from splashing on the canvas when the steel wool 33 is burnt.

Furthermore, a layer of tinfoil 35 or fireproof cloth is arranged at the bottom of the steel wool 33 and used for quickly dissipating heat generated by combustion of the steel wool 33, and meanwhile, the flame retardant function is achieved, so that the canvas is prevented from being damaged when the steel wool 33 is combusted, and the safety protection function is achieved;

furthermore, the recycling mechanism is used for rolling up and recycling canvas by connecting a motor with a rotating shaft through a gear mechanism.

Further, the starting signal of the recycling mechanism of the canvas can be a light signal, a pressure signal or a wireless signal for controlling the starting and stopping of the recycling mechanism.

Furthermore, the steel wool ignition signal in the recovery mechanism starting signal is that a signal transmitting plate is arranged below each shoe of a user, and a battery, a power supply lead and a thermal resistance wire are arranged on the upper side of the signal transmitting plate and used for igniting the steel wool on the canvas, so that the recovery mechanism is started.

Further, the recoverable mechanism which is controlled by the signal and covers the lower floor can be directly started without a steel wool combustion signal when the signal is received.

Furthermore, the recoverable mechanism adopts a modular design, the frameworks of the recoverable mechanisms can be fixedly connected, and the operation state is uniformly controlled through the control panel.

Furthermore, the signal transmitting plate is formed by connecting a positive plate 5 and a negative plate 6 through a heating wire 4, the positive plate 5 is connected with a positive lead wire 8 of a battery, and the negative plate 6 is connected with a negative lead wire 7 of the battery.

When a user walks on the surface of the upper canvas, a signal receiving board is arranged below each shoe of the user, a battery wire and a thermal resistance wire are arranged above the signal receiving board, the battery supplies power to the resistance wire to enable the resistance wire to reach the temperature of igniting the steel wool 33 on the canvas, when the thermal resistance wire contacts the steel wool 33 on the canvas, the steel wool 33 on the canvas is ignited and is transmitted to the adjacent canvas through the fire paper until the steel wool 33 burns to the steel wool 33 signal conversion device, the steel wool 33 burning signal is converted into an electric signal, and the speed reducing motor 2 of the recovery mechanism 3 on the canvas is started to recover a group of canvases at corresponding positions.

The canvas which is controlled by the signal and covers the lower floor and can recycle the mechanism is a starting signal receiving device with the recycling mechanism on the surface of the canvas, along with the movement of the steps of the user, a starting signal on the recycling mechanism corresponding to the position of the canvas is triggered, a motor on the recycling mechanism runs to recycle the canvas in the same group, and the optical fiber color lamp floor covered by the canvas and having the power supply performance is displayed.

The recovery mechanism is physically driven by pedals of performers, adopts fire paper to carry out combustion transmission, ensures smooth transmission of combustion signals, and is accurate and sensitive in starting and safe in use.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.