LIGHTING EFFECT STRUCTURE FOR TRAMPOLINE

Abstract

The lighting effect structure for a trampoline includes a lighting effect assembly, a trampoline body configured to mount the lighting effect assembly, and a remote control configured to remotely control lighting effect. The lighting effect assembly includes a battery box, a circuit board disposed in an inner part of the battery box, and a light strip and a conductor that are disposed on the circuit board. Away from the circuit board, of the light strip is mounted at a top of the trampoline body after being connected to the battery box. The one end, away from the circuit board, of the conductor is mounted at a bottom of the trampoline body after being connected to the battery box. Due to disposing of the light strip, trampolining pleasure of a children is increased. Lighting effect of the light strip can be effectively controlled through the remote control or the terminal APP.

Description

TECHNICAL FIELD

The utility model relates to the field of trampoline technologies, and in particular to a lighting effect structure for a trampoline.

BACKGROUND

Trampolining is a kind of competitive sports, which show acrobatic skills in the air through rebound from a trampoline, and is one of gymnastics movements. The trampolining is called “air ballet”. With the continuous development of society, the trampolining becomes more popular. However, an existing trampoline has the following disadvantages in use:

While the trampolining becomes popular, more children join the trampolining. However, a structure of a common trampoline is single, children are easy to lose interest in sports. As a result, use effect is poor. Therefore, a lighting effect structure for a trampoline is provided to resolve the foregoing problems.

SUMMARY

To achieve the above objective, the utility model provides the following technical solutions: A lighting effect structure for a trampoline includes a lighting effect assembly, a trampoline body configured to mount the lighting effect assembly, and a remote control configured to remotely control lighting effect. The lighting effect assembly includes a battery box, a circuit board disposed in an inner part of the battery box, and a light strip and a conductor that are disposed on the circuit board. One end, away from the circuit board, of the light strip is mounted at a top of the trampoline body after being connected to the battery box. The one end, away from the circuit board, of the conductor is mounted at a bottom of the trampoline body after being connected to the battery box, a vibration sensor is mounted on one end of the conductor. The remote control and a wireless transceiver module that is wirelessly connected to a terminal APP are disposed on the circuit board.

As a preferable technical solution of the utility model, the trampoline body includes a trampoline chassis, a plurality of trampoline uprights disposed at a top of the trampoline chassis, trampoline supports disposed at a bottom of the trampoline, and a trampoline enclosure net disposed among the plurality of trampoline uprights.

As a preferable technical solution of the utility model, a support rope for the enclosure net is disposed on a cycle at a top of the trampoline enclosure net, and the one end, away from the circuit board, of the light strip is tied to the support rope for the enclosure net through straps.

As a preferable technical solution of the utility model, the battery box is mounted on the trampoline support, and the one end, away from the circuit board, of the conductor extends to the bottom of the trampoline chassis and is configured to detect a shaking state of the trampoline chassis.

As a preferable technical solution of the utility model, a sixteen-color lighting effect button group is disposed on the remote control and configured to control a lighting color of the light strip.

As a preferable technical solution of the utility model, an ON button, an OFF button, a time adjustment button, and a speed adjustment button that are located above the sixteen-color lighting effect button group are disposed on the remote control.

As a preferable technical solution of the utility model, a gradual changed lighting effect button I, a blinking lighting effect button, a gradual changed lighting effect button II, and a sensor mode button that are located on a side of a sixteen-color lighting effect button group are disposed on the remote control.

Compared with a conventional technology, the utility model provides a lighting effect structure for a trampoline, and has the following beneficial effects:

According to the lighting effect structure for a trampoline, due to disposing of the light strip, usability of the trampoline body is effectively increased, trampolining pleasure of a children is increased, interest of the children in trampolining is improved. Lighting effect of the light strip can be effectively controlled through the remote control or the terminal APP, and therefore, an operation mode is simple. Due to disposing of the vibration sensor, the lighting effect of the light strip can be displayed by sensing vibration frequency of the trampoline chassis. The lighting effect display frequency is the same as trampolining frequency of the children, and this further ensures the interest of the children in trampolining and meets economic benefits. Therefore, a prospect for use is broad.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a schematic diagram of a structure of a lighting effect structure for a trampoline according to the utility model;

FIG. 2 is an enlarged view of a structure at a position A in FIG. 1;

FIG. 3 is an enlarged view of a structure at a position B in FIG. 1;

FIG. 4 is a schematic diagram of a structure of a light strip of a lighting effect structure for a trampoline according to the utility model;

FIG. 5 is a schematic diagram of a structure of a lighting effect assembly of a lighting effect structure for a trampoline according to the utility model;

FIG. 6 is a schematic diagram of a structure of a circuit board of a lighting effect structure for a trampoline according to the utility model; and

FIG. 7 is a schematic diagram of a structure of a remote control of a lighting effect structure for a trampoline according to the utility model.

Reference numerals: 1: lighting effect assembly; 11: battery box; 12: circuit board; 13: light strip; 14: conductor; 15: vibration sensor; 16: wireless transceiver module; 17: strap; 2: trampoline body; 21: trampoline chassis; 22: trampoline upright; 23: trampoline support; 24: trampoline enclosure net; 25: support rope for the enclosure net; 3: remote control; 31: sixteen-color lighting effect button group; 32: ON button; 33: OFF button; 34: time adjustment button; 35: speed adjustment button; 36: gradual changed lighting effect button I; 37: blinking lighting effect button; 38: gradual changed lighting effect button II; 39: sensor mode button.

DESCRIPTION OF EMBODIMENTS

To understand the characteristics and technical content of embodiments of the present disclosure more clearly, implementations of embodiments of the present disclosure are described in detail below with reference to the accompanying drawings. The accompanying drawings thereof are only for reference and do not constitute an undue limitation to embodiments of the present disclosure. In the following description, for the sake of convenience, many details are illustrated to provide an adequate understanding of embodiments. However, one or more embodiments can also be implemented without these details. In other cases, to simplify drawings, well-known structures and apparatuses can be simplified for display.

It should be noted that, in embodiments of the present disclosure, the terms such as “upper”, “lower”, “inside”, “middle”, “outside”, “front”, and “rear” indicate the orientation or positional relationship shown in the accompanying drawings. These terms are mainly intended to better describe embodiments of the present disclosure, rather than to define that the devices, elements, and components indicated must have the specific orientation or be constructed and operated in the specific orientation. Besides, some of the terms mentioned above may be used to indicate other meanings in addition to indicating the orientation or positional relations. For example, the term “upper” may also be used to indicate an attachment relationship or a connection relationship in some cases. Those of ordinary skill in the art may understand specific meanings of the foregoing terms in embodiments of the present disclosure according to specific circumstances.

In addition, terms such as “arrangement”, “connection”, and “fixation” should be understood in a broad sense. For example, “connection” may be a fixed connection, a detachable connection, or an integrated structure; may be a mechanical connection or an electrical connection; may be a direct connection or an indirect connection via an intermediate medium; or may be intercommunication between two devices, elements, or components. Those of ordinary skill in the art may understand specific meanings of the foregoing terms in embodiments of the present disclosure according to specific circumstances.

Unless otherwise indicated, “a plurality of” means two or more.

It should be noted that, if there is no conflict, the following embodiments and features in embodiments of the present disclosure may be mutually combined.

Refer to FIG. 1 to FIG. 7. A lighting effect structure for a trampoline a lighting effect assembly 1, a trampoline body 2 configured to mount the lighting effect assembly 1, and a remote control 3 configured to remotely control lighting effect. The lighting effect assembly 1 includes a battery box 11, a circuit board 12 disposed in an inner part of the battery box 11, and a light strip 13 and a conductor 14 that are disposed on the circuit board 12. One end, away from the circuit board 12, of the light strip 13 is mounted at a top of the trampoline body 2 after being connected to the battery box 11. The one end, away from the circuit board 12, of the conductor 14 is mounted at a bottom of the trampoline body 2 after being connected to the battery box 11, a vibration sensor 15 is mounted on one end of the conductor 14. The remote control 3 and a wireless transceiver module 16 that is wirelessly connected to a terminal APP are disposed on the circuit board 12. The remote control 3 controls the light strip 13 through the wireless transceiver module 16 to display different lighting effect, and a terminal APP on a mobile phone of a user can also control the light strip 13 through the wireless transceiver module 16 to display the different light effect. A function of controlling the lighting effect of the terminal APP is the same as that of the remote control 3.

As a specific technical solution of this embodiment, the trampoline body 2 includes a trampoline chassis 21, a plurality of trampoline uprights 22 disposed at a top of the trampoline chassis 21, trampoline supports 23 disposed at a bottom of the trampoline, and a trampoline enclosure net 24 disposed among the plurality of trampoline uprights 22. A support rope for the enclosure net 25 is disposed on a cycle at a top of the trampoline enclosure net 24, and the one end, away from the circuit board 12, of the light strip 13 is tied to the support rope for the enclosure net 25 through straps 17. As shown in FIG. 3, a section of the light strip 13 that extends to an outer part of the battery box 11 is longer, and is tied with the straps 17 along the support rope for the enclosure net 25, to enable the light strip 13 to be mounted on the trampoline body 2. When the children use the trampoline body 2, the light strip 13 is lit in a ring. This effectively increases interest of the children in sports.

As a specific technical solution of this embodiment, the battery box 11 is mounted on the trampoline support 23, and the one end, away from the circuit board 12, of the conductor 14 extends to the bottom of the trampoline chassis 21 and is configured to detect a shaking state of the trampoline chassis 21. As shown in FIG. 2, the battery box 11 is mounted on the trampoline supports 23, and the conductor 14 and the light strip 13 are tied to the trampoline supports 23 through the straps 17. This ensures stability of the light strip 13 and the conductor 14.

As a specific technical solution of this embodiment, a sixteen-color lighting effect button group 31 is disposed on the remote control 3 and configured to control a lighting color of the light strip 13. The sixteen-color lighting effect button group 31 on the remote control 3 may control the light strip 13 to be displayed in sixteen colors.

As a specific technical solution of this embodiment, an ON button 32, an OFF button 33, a time adjustment button 34, and a speed adjustment button 35 that are located above the sixteen-color lighting effect button group 31 are disposed on the remote control 3. The ON button 32 is configured to turn on the light strip 13, and the OFF button 33 is configured to turn off the light strip 13. Lighting time of the light strip 13 is controlled by the time adjustment button 34, and frequency of the light strip 13 in different lighting effect modes may be controlled by the speed adjustment button 35.

As a specific technical solution of this embodiment, a gradual changed lighting effect button I 36, a blinking lighting effect button 37, a gradual changed lighting effect button II 38, and a sensor mode button 39 that are located on a side of a sixteen-color lighting effect button group 31 are disposed on the remote control 3. The gradual changed lighting effect button I 36 and the gradual changed lighting effect button II 38 respectively control the light strip 13 to display lighting effect of gradual weak and gradual strong. Frequency is controlled through the speed adjustment button 35. The blinking lighting effect button 37 is configured to control the light strip 13 to blink, and blinking frequency is controlled by the speed adjustment button. The sensor mode button 39 is configured to detect, for the light strip 13, the shaking state of the trampoline chassis 21 through the vibration sensor 15. The lighting effect display frequency is the same as trampolining frequency of the children, to further ensure the interest of the children in trampolining.

In conclusion, according to the lighting effect structure for a trampoline, due to disposing of the light strip 13, usability of the trampoline body 2 is effectively increased, trampolining pleasure of a children is increased, interest of the children in trampolining is improved. Lighting effect of the light strip 13 can be effectively controlled through the remote control 3 or the terminal APP, and therefore, an operation mode is simple. Due to disposing of the vibration sensor 15, the lighting effect of the light strip 13 can be displayed by sensing vibration frequency of the trampoline chassis 21. The lighting effect display frequency is the same as trampolining frequency of the children, and this further ensures the interest of the children in trampolining and meets economic benefits. Therefore, a prospect for use is broad.

Although embodiments of the utility model have been illustrated and described above, those of ordinary skill in the art can understand that various changes, modifications, replacements, and alterations may be made to these embodiments without departing from the principle and spirit of the utility model, and the scope of the utility model is defined by the claims and equivalents thereof.

Claims

1. A lighting effect structure for a trampoline, comprising a lighting effect assembly (1), a trampoline body (2) configured to mount the lighting effect assembly (1), and a remote control (3) configured to remotely control lighting effect, wherein the lighting effect assembly (1) comprises a battery box (11), a circuit board (12) disposed in an inner part of the battery box (11), and a light strip (13) and a conductor (14) that are disposed on the circuit board (12), one end, away from the circuit board (12), of the light strip (13) is mounted at a top of the trampoline body (2) after being connected to the battery box (11), the one end, away from the circuit board (12), of the conductor (14) is mounted at a bottom of the trampoline body (2) after being connected to the battery box (11), a vibration sensor (15) is mounted on one end of the conductor (14), and the remote control (3) and a wireless transceiver module (16) that is wirelessly connected to a terminal APP are disposed on the circuit board (12).

2. The lighting effect structure for a trampoline according to claim 1, wherein the trampoline body (2) comprises a trampoline chassis (21), a plurality of trampoline uprights (22) disposed at a top of the trampoline chassis (21), trampoline supports (23) disposed at a bottom of the trampoline, and a trampoline enclosure net (24) disposed among the plurality of trampoline uprights (22).

3. The lighting effect structure for a trampoline according to claim 2, wherein a support rope for the enclosure net (25) is disposed on a cycle at a top of the trampoline enclosure net (24), and the one end, away from the circuit board (12), of the light strip (13) is tied to the support rope for the enclosure net (25) through straps (17).

4. The lighting effect structure for a trampoline according to claim 3, wherein the battery box (11) is mounted on the trampoline support (23), and the one end, away from the circuit board (12), of the conductor (14) extends to the bottom of the trampoline chassis (21) and is configured to detect a shaking state of the trampoline chassis (21).

5. The lighting effect structure for a trampoline according to claim 1, wherein a sixteen-color lighting effect button group (31) is disposed on the remote control (3) and configured to control a lighting color of the light strip (13).

6. The lighting effect structure for a trampoline according to claim 1, wherein an ON button (32), an OFF button (33), a time adjustment button (34), and a speed adjustment button (35) that are located above the sixteen-color lighting effect button group (31) are disposed on the remote control (3).

7. The lighting effect structure for a trampoline according to claim 1, wherein a gradual changed lighting effect button I (36), a blinking lighting effect button (37), a gradual changed lighting effect button II (38), and a sensor mode button (39) that are located on a side of a sixteen-color lighting effect button group (31) are disposed on the remote control (3).