CN219229097U - Vibration luminous garment - Google Patents

Abstract

The utility model discloses a vibration luminous garment, which belongs to the field of garments and comprises a garment body, a first connecting piece, a second connecting piece and a miniature vibration luminous lamp, wherein the first connecting piece is fixed on the garment body, the second connecting piece is fixed on the miniature vibration luminous lamp, the first connecting piece is detachably connected with the second connecting piece, the garment body is provided with a containing bag, and the first connecting piece is arranged in the containing bag. According to the vibration luminous garment, through the arrangement of the miniature vibration luminous lamp which is detachably arranged with the garment body, vibration luminescence is realized when a wearer walks or moves, and a good reminding function can be achieved at night.

Description

Vibration luminous garment

Technical Field

The utility model belongs to the field of clothing, and particularly relates to vibration luminous clothing.

Background

Clothing refers to a general name of clothing, shoes, toys, ornaments and the like, and refers to multi-finger clothing.

The night light is darker, vehicles coming and going on the road often neglect driving safety, and because pedestrians at night are less to cause the vehicle speed to be faster, traffic accidents are easy to happen with pedestrians going out, running and exercising at night, and potential safety hazards exist. In order to ensure the safety of the wearer, especially the safety at night, the prior art adopts reflective materials on the garment, and strong reflection can occur under the irradiation of an external light source so as to ensure the safety of the wearer at night. However, the above-described effects cannot be exhibited without irradiation by an external light source.

The existing adoption plays a role in reminding when the lamp is arranged on the clothes. The garment with safety light with publication number CN202552223U discloses: the garment with the safety lamp comprises a garment body and a controller, wherein the controller is arranged at the bottom of the right side of the garment body, a battery groove is arranged in the controller, a laser lamp is arranged at the rear part of the garment body, and a control switch is arranged at the top of the controller. Although the problem that the reflective material can exert the effect only by the irradiation of an external light source is solved, a battery and a controller are required to be arranged, the controller and a control switch are required to control the lamp irradiation, and if the battery is used for supplying power, the long-time power supply cannot be maintained, the battery is required to be replaced frequently, and the cost is high.

Disclosure of Invention

The utility model aims to provide a vibrating luminous garment, which can realize vibrating luminescence when a wearer walks or moves through the arrangement of a miniature vibrating luminous lamp detachably arranged with a garment body and can play a good reminding function at night.

To achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides a vibrating light-emitting garment, which comprises a garment body, a first connecting piece, a second connecting piece and a miniature vibrating light-emitting lamp, wherein the first connecting piece is fixed on the garment body, the second connecting piece is fixed on the miniature vibrating light-emitting lamp, the first connecting piece is detachably connected with the second connecting piece, the garment body is provided with a containing bag, and the first connecting piece is arranged in the containing bag.

Preferably, the micro vibration light-emitting lamps are a plurality of and are symmetrically arranged along the central line of the clothing body.

Preferably, the receiving bag is opened/closed by a zipper, and the receiving bag has a light hole through which light of the micro vibration light is transmitted.

Preferably, the light transmission holes are provided with a transparent TPU film layer.

Preferably, the first connecting piece is a magic tape surface, and the second connecting piece is a magic tape hook surface.

Preferably, the miniature vibration luminescent lamp comprises a shell, an LED module, a magnet group, a coil group and a sliding rail, wherein the sliding rail is arranged in an inner cavity of the shell, the magnet group is arranged in the sliding rail in a sliding manner, the coil group is sleeved outside the sliding rail, and an outgoing line of the coil group extends out and is used for being connected with the LED module.

Preferably, the coil group comprises a plurality of groups of coils, the winding directions of adjacent coils are opposite, the magnet group comprises a plurality of magnets, and the polarities of the opposite faces of the adjacent magnets are different.

Preferably, the magnet group is vertically installed in the accommodating pocket.

Preferably, the movement stroke of the magnet assembly in the slide rail is sufficient to enable one end of the magnet assembly to extend out of the corresponding end of the coil assembly in the same direction, and the other end of the magnet assembly to retract into the corresponding other end of the coil assembly in the same direction.

Preferably, springs are respectively arranged at two ends of the magnet group, one end of each spring is connected or propped against the inner wall of the sliding rail or the inner wall of the shell, and the springs are kept in a compressed state when the sliding rail or the shell is stationary.

Preferably, an inductance element is connected in the circuit of the miniature vibration light-emitting lamp, and the inductance element is connected with the LED module in parallel.

Preferably, the length of the coil assembly is greater than the length of the magnet assembly.

Preferably, the magnets of the magnet group are ring magnets, the middle channel of the magnet group is penetrated with a support rod, and two ends of the support rod are respectively propped against or connected with the springs.

Preferably, the shell comprises a shell body, an end cover and a protruding part, one end of the shell body is closed, the other end of the shell body is provided with an opening, the opening of the shell body is detachably connected with the end cover, the outer side wall of the shell body is provided with the protruding part, and the outer side wall of the protruding part is a plane and is used for installing the second connecting piece.

The beneficial effects of the utility model are as follows:

1. through the setting of miniature vibration luminescent light, realize vibration luminescence when the wearer walks or moves, can play fine warning function at night, improve wearer self security. The miniature vibration light-emitting lamp and the garment body can be arranged in a detachable mode, so that the miniature vibration light-emitting lamp can be detached and installed on the garment during use, and can be detached from the garment without using the garment. And vibration power generation is adopted, and batteries and charging are not needed.

2. The miniature vibration luminescent lamp is prevented from being damaged on the one hand and falling off on the other hand by the arrangement of the accommodating bag. Through the first connecting piece of setting cooperation of light trap for miniature vibration luminescent light installation back, light can see through the light trap, ensures the light and reminds the effect.

3. Through the cooperation of hook face and magic subsides hair face, make things convenient for the dismouting of miniature vibration luminescent lamp.

4. The magnet group moves linearly and reciprocally in the slide rail, and the magnetic flux of the plurality of groups of magnets and the plurality of groups of coils is changed respectively to obtain induction current. When a current is generated, the LED module is immediately lightened. In addition, in the vibration process, the flickering effect is obtained along with the existence and the direction switching of the current. The LED module works in real time along with the generation of current, so that a storage battery is saved, the volume is saved, the weight is reduced, and the failure rate is reduced. The miniature vibration luminous lamp has small volume and high power generation efficiency, so that the effect of not affecting the appearance and wearing comfort of the garment is achieved.

5. The plurality of groups of coils are matched with the plurality of magnets, so that the plurality of power generation units can generate power simultaneously, the generated energy is improved, each vibration can be utilized more effectively, and the power generation efficiency is improved.

6. Through the arrangement of the inductance element, electric energy is converted into magnetic energy to be stored, so that electric quantity can be kept, and then the LED module cannot be extinguished immediately, but is extinguished slowly.

7. Through the arrangement of the springs, the magnet group can be kept at a relatively stable position when the vibration amplitude is smaller, and the vibration speed of the magnet group is quickened and the power generation rate is improved in the vibration power generation process. And the spring can prevent the magnet group from colliding with the slide rail and the end cover, keep silence and prevent damage.

Drawings

Fig. 1 is a schematic front view of a first embodiment of the present utility model (except for the accommodating bag).

Fig. 2 is a schematic front view of a micro-vibration light-emitting lamp according to an embodiment of the present utility model.

Fig. 3 is a schematic cross-sectional view of a micro-vibration light-emitting lamp according to an embodiment of the present utility model.

Fig. 4 is a schematic front view of the first embodiment of the present utility model (except for the accommodating bag, the micro vibration light and the second connector).

Fig. 5 is a schematic top view of a micro-vibration light-emitting lamp according to an embodiment of the utility model.

Fig. 6 is a schematic front view of a first embodiment of the present utility model.

Fig. 7 is an enlarged schematic view of a in fig. 6.

Fig. 8 is a circuit diagram of a micro-vibration light-emitting lamp according to an embodiment of the present utility model.

Fig. 9 is a schematic diagram of a front view structure of a second embodiment of the present utility model.

The marks in the drawings are: the garment comprises a garment body, a first connecting piece, a second connecting piece, a 4-miniature vibration light-emitting lamp, a 5-accommodating bag, a 6-zipper, a 7-light hole, a 41-housing, a 42-LED module, a 43-magnet group, a 44-coil group, a 45-sliding rail, a 46-spring, a 47-supporting rod, a 411-housing, a 412-end cover, a 413-protruding part, an 8-inductance element and a 9-transparent TPU film layer.

Detailed Description

The utility model will now be further described with reference to the drawings and detailed description.

What is not described in detail in this specification is prior art known to those skilled in the art. In the description of the present utility model, it should be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," etc. indicate or refer to the orientation or positional relationship shown in the drawings, merely for convenience of description and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the utility model. Furthermore, the terms "first," "second," "third," and the like are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

Embodiment one:

as shown in fig. 1 to 8, the garment provided in this embodiment is a jacket, and includes a garment body 1, a first connecting piece 2, a second connecting piece 3, and a micro vibration light-emitting lamp 4, wherein the garment body 1 is fixed with the first connecting piece 2, the micro vibration light-emitting lamp 4 is fixed with the second connecting piece 3, the first connecting piece 2 is detachably connected with the second connecting piece 3, the garment body 1 has a containing bag 5, the first connecting piece 2 is arranged in the containing bag 5, the containing bag 5 is opened/closed by a zipper 6, the containing bag 5 has a light hole 7 through which light of the micro vibration light-emitting lamp 4 passes, and the light hole 7 is provided with a transparent TPU film layer 9. The four micro vibration light-emitting lamps 4 of the embodiment are symmetrically arranged along the central line of the coat, and two micro vibration light-emitting lamps 4 are respectively arranged at the left side and the right side of the coat body. In particular to a coat body which is vertically arranged on a coat. Through the setting of miniature vibration luminescent lamp 4, realize vibration luminescence when the wearer walks or moves, can play fine warning function at night, improve wearer's self security. And vibration power generation is adopted, and batteries and charging are not needed. The miniature vibration light-emitting lamp 4 and the garment body 1 can be detachably arranged, so that the miniature vibration light-emitting lamp 4 can be detached and installed on the garment during use, and can be detached from the garment without using the garment. The miniature vibration luminescent lamp 4 is prevented from being damaged on the one hand and from falling off on the other hand by the arrangement of the accommodating bag 5. Through the setting of light trap 7 cooperation first connecting piece 2 for miniature vibration luminescent light 4 installs the back, and light can see through light trap 7, ensures the light and reminds the effect. Through the setting of transparent TPU thin film layer 9, play good water-proof effects, avoid the rainwater to get into in the accommodation bag 5 through light trap 7 to make light can penetrate. When the miniature vibration light-emitting lamp 4 needs to be taken down, the zipper 6 is opened, the miniature vibration light-emitting lamp 4 is taken down from the first connecting piece 2, and the accommodating bag 5 is taken out. When the miniature vibration light-emitting lamp 4 is required to be installed, the zipper 6 is opened, the miniature vibration light-emitting lamp 4 stretches into the accommodating bag 5, the second connecting piece 3 and the first connecting piece 2 are aligned for installing the miniature vibration light-emitting lamp 4, and the zipper 6 is tensioned and closed after the installation is finished.

The first connecting piece 2 is a magic tape surface and is connected with the garment body 1 in a sewing mode, the second connecting piece 3 is a magic tape hook surface and is connected with the miniature vibration light-emitting lamp 4 in an adhesive mode. Through the cooperation of hook face and magic subsides hair face, make things convenient for the dismouting of miniature vibration luminescent lamp 4.

The micro vibration light-emitting lamp 4 comprises a shell 41, an LED module 42, a magnet group 43, a coil group 44 and a sliding rail 45 (in a cylinder shape), wherein the sliding rail 45 is arranged in an inner cavity of the shell 41, the magnet group 43 is arranged in the sliding rail 45 in a sliding way, the coil group 44 is sleeved and fixed outside the sliding rail 45, and the coil group 44 is directly arranged on the sliding rail 45 and is fixed, so that other fixing mechanisms such as a coil framework are omitted, the structure is simplified, the volume is saved, and the weight is reduced. The lead wires of the coil assembly 44 extend for connection with the LED module 42. The coil set 44 includes a plurality of coils, the winding directions of adjacent coils are opposite, and the magnet set 43 includes two layers of magnets which are sleeved and arranged in a straight line, and the polarities of the opposite surfaces of the adjacent magnets are different. The cooperation of multiunit coil and a plurality of magnet is equivalent to obtaining a plurality of generating units and generates electricity simultaneously, improves the generated energy, can utilize every vibration more effectively, promotes generating efficiency. The magnet group 43 is vertically installed in the accommodating bag 5, so that the magnet group 43 moves up and down when the human body moves. The magnet group 43 performs linear reciprocating motion in the slide rail 45, and the magnetic flux of the plurality of groups of magnets and the plurality of groups of coils is changed respectively, so that induced current is obtained. When current is generated, the LED module 42 is immediately turned on. In addition, in the vibration process, the flickering effect is obtained along with the existence and the direction switching of the current. And under the cooperation of the coil group 44 and the magnet group 43, the power generation efficiency is higher, and the strongest current can be obtained. The LED module 42 operates in real time with the generation of current, eliminating the need for a battery, saving volume, reducing weight, and reducing failure rate. The miniature vibration light-emitting lamp 4 has small volume and high power generation efficiency, so that the effect of not affecting the appearance and wearing comfort of the garment is realized.

In order to generate electricity effectively during vibration, the movement stroke of the magnet assembly 43 within the slide rail 45 is sufficient to allow one end of the magnet assembly 43 to extend beyond the corresponding end of the coil assembly 44 and the other end of the magnet assembly 43 to retract into the corresponding end of the coil assembly 44. In the present utility model, it can be considered that the magnet group 43 is disposed in the passage of the coil group 44 and performs a rectilinear reciprocating motion.

The circuit of the micro vibration light-emitting lamp 4 is connected with an inductance element 8, and the inductance element 8 is connected with the LED module 42 in parallel. By the arrangement of the inductance element, the electric energy is converted into magnetic energy to be stored, so that the electric quantity can be kept, and the LED module 42 is not extinguished immediately, but is extinguished slowly. Specifically, since the inductance element 8 is connected in parallel with the LED module 42, when the LED module 42 is powered on, the LED module 42 reaches normal brightness, and when the LED module is disconnected, the LED module 42 flashes on for a while to be turned off.

The upper and lower ends of the magnet assembly 43 in this embodiment are respectively provided with a spring 46, the inner end of the spring 46 is connected with the magnet assembly 43, the upper end of the spring 46 positioned above abuts against the inner wall of the housing 41, and the lower end of the spring 46 positioned below abuts against the inner wall of the slide rail 45. At rest, the spring 46 remains compressed. Specifically, the magnets of the magnet set 43 are ring magnets, a support rod 47 is arranged in the middle channel of the magnet set 43 in a penetrating manner, and two ends of the support rod 47 are respectively connected with the springs 46. The shell 41 includes casing 411, end cover 412 and bulge 413, and slide rail 45's lower extreme is sealed, and the upper end opening sets up, and casing 411's opening part is dismantled and is connected with end cover 412, and end cover 412 and casing 411 junction is equipped with the sealing washer, and casing 411's lateral wall (back lateral wall) has bulge 413, and bulge 413's lateral wall is the plane for install second connecting piece 3, in order to guarantee the connection stability in first connecting piece 2.

When assembling, the closed lower end of the sliding rail 45 is installed in the shell 411 towards the shell 411, then the coil group 44 is sleeved, the assembled spring 46, the supporting rod 47 and the magnet group 43 are placed in the sliding rail 45, and finally the end cover is covered, and the end cover is kept propped against the spring 46.

In order to effectively change the magnetic flux in the coil group 44 as the position of the magnet group 43 is changed during vibration, when the magnet group 43 is at both ends of the movement stroke, respectively, both ends of the magnet group 43 protrude beyond the coil group 44, respectively, and the magnetic flux passing through the coil group 44 is changed as much as possible. In the present embodiment, the length of the coil group 44 is longer than the length of the magnet group 43. When the micro vibration light 4 is stationary, the spring 46 is kept in a compressed state, and the magnet group 43 is restrained in the passage of the coil group 44 by the spring 46. When the magnet group 43 moves upwards during vibration, the springs 46 at the upper ends are further compressed, the upper ends of the corresponding magnet groups 43 move out of the coil groups 44, and the springs 46 at the lower ends are released or stretched; continuing to vibrate, the magnet assembly 43 moves in the opposite direction, the upper springs 46 are released or stretched, the upper ends of the corresponding magnet assemblies 43 re-move into the channels of the coil assembly 44, the lower springs 46 compress, and the lower ends of the corresponding magnet assemblies 43 move out of the coil assembly 44. One vibration period is completed, and continuous change of magnetic flux is realized twice, so that current with opposite directions is obtained. Under the action of the spring 46, the magnet group 43 can be kept at a relatively stable position when the vibration amplitude is small, and the vibration speed of the magnet group 43 is quickened and the power generation rate is improved in the vibration power generation process. And the spring 46 can prevent the magnet group 43 from colliding with the slide rail 45 and the end cover, keep silence and prevent damage.

Embodiment two:

as shown in fig. 9, this embodiment differs from the first embodiment in that:

the garment is trousers, and the two miniature vibration light-emitting lamps 4 are symmetrically arranged along the central line of the trousers and are vertically arranged on the trouser legs of the trousers.

The above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art will understand that; the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (10)

1. A vibrating light-emitting garment, characterized in that:

comprises a garment body (1), a first connecting piece (2), a second connecting piece (3) and a miniature vibration light-emitting lamp (4);

the garment body (1) is fixed with a first connecting piece (2);

the miniature vibration light-emitting lamp (4) is fixed with a second connecting piece (3);

the first connecting piece (2) is detachably connected with the second connecting piece (3);

the garment body (1) is provided with a containing bag (5), and the first connecting piece (2) is arranged in the containing bag (5).

2. The vibrant luminous garment of claim 1, wherein:

the miniature vibration light-emitting lamps (4) are multiple and are symmetrically arranged along the central line of the garment body (1).

3. The vibrant luminous garment of claim 1, wherein:

the accommodating bag (5) is opened/closed by a zipper (6);

the containing bag (5) is provided with a light hole (7) for the light of the miniature vibration light-emitting lamp (4) to penetrate.

4. A vibratory light garment as set forth in claim 3 wherein:

the light holes (7) are provided with transparent TPU film layers (9).

5. The vibrant luminous garment of claim 1, wherein:

the first connecting piece (2) is a magic tape surface, and the second connecting piece (3) is a magic tape hook surface.

6. The vibrant luminous garment of claim 1, wherein:

the miniature vibration light-emitting lamp (4) comprises a shell (41), an LED module (42), a magnet group (43), a coil group (44) and a sliding rail (45);

the sliding rail (45) is arranged in the inner cavity of the shell (41), the magnet group (43) is arranged in the sliding rail (45) in a sliding way, the coil group (44) is sleeved and fixed outside the sliding rail (45), and the outgoing line of the coil group (44) extends out and is used for being connected with the LED module (42);

the coil group (44) comprises a plurality of groups of coils, and the winding directions of adjacent coils are opposite;

the magnet group (43) comprises a plurality of magnets, and the polarities of the opposite faces of adjacent magnets are different.

7. The vibrant luminous garment of claim 6, wherein:

the magnet group (43) is vertically arranged in the accommodating bag (5).

8. The vibrant luminous garment of claim 6, wherein:

an inductance element (8) is connected in the circuit of the miniature vibration light-emitting lamp (4), and the inductance element (8) is connected with the LED module (42) in parallel.

9. The vibrant luminous garment of claim 6, wherein:

the two ends of the magnet group (43) are respectively provided with a spring (46), one end of the spring (46) is connected with or propped against the magnet group (43), and one end of the spring (46) is connected with or propped against the inner wall of the sliding rail (45) or the inner wall of the shell (41);

at rest, the spring (46) remains in a compressed state;

the magnet of the magnet group (43) is a ring magnet, a supporting rod (47) is arranged in the middle channel of the magnet group (43) in a penetrating way, and two ends of the supporting rod (47) are respectively abutted against or connected with the spring (46).

10. The vibrant luminous garment of claim 6, wherein:

the housing (41) comprises a shell (411), an end cap (412), and a protrusion (413);

one end of the shell (411) is closed, the other end of the shell is opened, and an end cover (412) is detachably connected to the opening of the shell (411);

the outer side wall of the shell (411) is provided with a protruding part (413), and the outer side wall of the protruding part (413) is a plane for installing the second connecting piece (3).

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