CN211752479U

CN211752479U - Kite with LED lamp area

Info

Publication number: CN211752479U
Application number: CN201921519992.3U
Authority: CN
Inventors: 谢宗源; 谢子柠
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-09-12
Filing date: 2019-09-12
Publication date: 2020-10-27
Anticipated expiration: 2029-09-12

Abstract

The utility model discloses a kite with LED lamp area, including the kite main part that is the tube-shape, set up in the kite skeleton of kite main part one side and the take-up pulley main part through kite line connection kite skeleton, the kite main part is conical tubular structure, and the great one side of kite main part opening is connected with a set of kite skeleton, the outer fringe face of kite main part encircles and is provided with the first LED lamp area of multiunit, and the kite main part keeps away from the attached multiunit second LED lamp area that is provided with of one end of kite skeleton, the take-up pulley main part is located the outer activity foreign steamer of fixed interior wheel including a set of fixed interior wheel and cover that are the loop configuration, be provided with a set of handle in the fixed interior wheel, and the outer fringe face of fixed interior wheel and the inner fringe face of activity foreign wheel construct the recess that supplies the roller embedding. The kite with the LED lamp belt and the take-up pulley thereof have the advantages of reasonable structure, attractive appearance, practicability, easiness in winding and unwinding of kite lines and higher practical value.

Description

Kite with LED lamp area

Technical Field

The utility model belongs to the technical field of the kite, concretely relates to kite with LED lamp area.

Background

Kites were invented by Chinese people, Zhai, made of wood, developed for three years, were the earliest kite origin of human beings, and later, its students, Luban, were improved with bamboo. The material of kite for inky Dian is further developed into multi-line kite today.

At present, kites on the market generally do not have a light source, so that the kites lack of attractiveness and can only be placed in the daytime, and the kites can be restricted when night or outdoor light is insufficient, and the existing wire-rewinding wheel structure for kites is mostly a manual wire-rewinding wheel, consumes manpower during wire rewinding, and is easy to twist off kite wires due to uneven speed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a kite with LED lamp area to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a kite with LED lamp bands comprises a cylindrical kite main body, a kite framework arranged on one side of the kite main body and a take-up pulley main body connected with the kite framework through kite lines;

the kite body is of a conical tubular structure, one side, with a larger opening, of the kite body is connected with a group of kite frameworks, multiple groups of first LED lamp strips are arranged on the outer edge surface of the kite body in a surrounding mode, and multiple groups of second LED lamp strips are attached to one end, away from the kite frameworks, of the kite body;

the take-up pulley main body comprises a group of fixed inner wheels in an annular structure and a movable outer wheel sleeved outside the fixed inner wheels, a group of handles are arranged in the fixed inner wheels, grooves for embedding rollers are formed in the outer edge surfaces of the fixed inner wheels and the inner edge surfaces of the movable outer wheels, a group of first storage batteries are formed at the bottom ends of the fixed inner wheels, and a set of take-up motors for driving the movable outer wheels are fixedly mounted on one sides of the first storage batteries;

the movable outer wheel is provided with an annular gear groove towards one side of the take-up motor, the bottom end of the take-up motor is matched with a set of motor shaft, one end, far away from the take-up motor, of the motor shaft is matched with a transmission gear of a set of conical gear structure, and transmission teeth of the transmission gear are meshed with transmission teeth of the gear groove inner structure.

Preferably, the kite skeleton includes a set of arc skeleton and connects the horizontal chassis at arc skeleton both ends, one side that horizontal chassis was kept away from to the arc skeleton is connected by a set of battery frame that is on a parallel with horizontal chassis, and is connected with three vertical link of group perpendicularly between horizontal chassis and the battery frame.

Preferably, one side of the fixed inner wheel, which is far away from the wire-rewinding motor, is symmetrically provided with two groups of extending plates of the connecting shaft, the connecting shaft is provided with a group of wire-pressing wheels, and the kite wire penetrates through the bottom ends of the wire-pressing wheels to be connected into the wire-winding grooves of the movable outer wheel.

Preferably, at least two groups of annular battery hooping and fixing rings are arranged on the battery frame, the battery hooping and fixing rings are fixed on the outer edge surface of the second storage battery, and the second storage battery is electrically connected with the first LED lamp strip and the second LED lamp strip through wires.

Preferably, the three groups of longitudinal connecting frames are all provided with stranded wire rings connected by wind kite wires, the stranded wire rings of the three groups of longitudinal connecting frames are arranged in a triangular mode, and the kite wires are divided into three strands and are respectively connected with the three groups of stranded wire rings.

The utility model discloses a technological effect and advantage: according to the kite with the LED lamp belts, the first LED lamp belt coated on the outer edge and the second LED lamp belt dragged by the tail are arranged on the kite main body, so that the visibility at night is effectively realized, and the attractiveness is improved; the arrangement of the take-up motor on the take-up pulley main body enables the transmission gear to transmit the movable outer pulley sleeved outside the fixed inner pulley, so that the movable outer pulley can rotate for winding, compared with manual winding, the labor input is reduced, and meanwhile, the kite line can be prevented from being twisted at a constant speed for winding; the arrangement of the line pressing wheel between the two groups of extension plates further realizes the pressing down of the kite line when the kite line enters the winding groove, and the kite line is further prevented from being twisted due to the fact that the kite line is not stretched straight.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the main body of the take-up pulley of the present invention;

fig. 3 is a schematic structural diagram of the kite skeleton of the present invention.

In the figure: the kite comprises a kite main body 1, a first LED lamp strip 101, a second LED lamp strip 102, a kite skeleton 2, an arc skeleton 201, a transverse underframe 202, a battery frame 203, a longitudinal connecting frame 204, a take-up pulley main body 3, a fixed inner wheel 4, a first storage battery 401, a movable outer wheel 5, a winding groove 501, a take-up motor 6, a motor shaft 601, a transmission gear 7, a gear groove 701, an extending plate 8, a connecting shaft 801, a line pressing wheel 802, a kite line 9, a 901 twisting ring, a handle 10, a roller 11, a battery hoop fixed ring 12 and a second storage battery 13.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model provides a kite with LED lamp belt as shown in fig. 1-3, which comprises a tubular kite main body 1, a kite framework 2 arranged at one side of the kite main body 1 and a take-up pulley main body 3 connected with the kite framework 2 through a kite line 9;

the kite body 1 is of a conical tubular structure, one side, with a larger opening, of the kite body 1 is connected with one group of kite frameworks 2, multiple groups of first LED lamp belts 101 are arranged on the outer edge surface of the kite body 1 in a surrounding mode, multiple groups of second LED lamp belts 102 are attached to one end, away from the kite frameworks 2, of the kite body 1, and the first LED lamp belts 101, wrapping the outer edge of the kite body 1, of the kite body 1 and the second LED lamp belts 102 dragged by the tail of the kite body 1 can effectively achieve visibility at night and improve attractiveness;

the take-up pulley main body 3 comprises a group of fixed inner wheels 4 in an annular structure and movable outer wheels 5 sleeved outside the fixed inner wheels 4, a group of handles 10 are arranged in the fixed inner wheels 4, grooves for embedding rollers 11 are formed in the outer edge surfaces of the fixed inner wheels 4 and the inner edge surfaces of the movable outer wheels 5, a group of first storage batteries 401 are formed at the bottom ends of the fixed inner wheels 4, and a group of take-up motors 6 for driving the movable outer wheels 5 are fixedly mounted on one sides of the first storage batteries 401;

the movable outer wheel 5 is provided with an annular gear groove 701 towards one side of the take-up motor 6, the bottom end of the take-up motor 6 is matched with a group of motor shafts 601, one end, far away from the take-up motor 6, of each motor shaft 601 is matched with a transmission gear 7 of a group of conical gear structures, transmission teeth of the transmission gears 7 are meshed with transmission teeth of structures in the gear groove 701, the take-up motor 6 is arranged on the take-up wheel main body 3, so that the transmission gears 7 can be sleeved with the movable outer wheel 5 outside the fixed inner wheel 4 in a transmission mode, the movable outer wheel 5 is convenient to rotate for winding, compared with manual winding, when manpower input is reduced, the constant-speed winding can prevent kite lines 9 from being.

Specifically, kite skeleton 2 includes a set of arc skeleton 201 and connects horizontal chassis 202 at arc skeleton 201 both ends, one side that horizontal chassis 202 was kept away from to arc skeleton 201 is connected by a set of battery frame 203 that is on a parallel with horizontal chassis 202, and is connected with three vertical link 204 of group perpendicularly between horizontal chassis 202 and the battery frame 203.

Specifically, two groups of extension plates 8 of the connecting shaft 801 are symmetrically arranged on one side, away from the wire winding motor 6, of the fixed inner wheel 4, a group of line-pressing wheels 802 are arranged on the connecting shaft 801, the kite wire 9 penetrates through the bottom ends of the line-pressing wheels 802 and is connected into the wire winding groove 501 of the movable outer wheel 5, the arrangement of the line-pressing wheels 802 between the two groups of extension plates 8 further realizes the downward pressing of the kite wire 9 when entering the wire winding groove 501, and the kite wire 9 is further prevented from being twisted due to the fact that the kite wire 9 is not stretched straight.

Specifically, at least two groups of annular battery hooping and fixing rings 12 are arranged on the battery rack 203, the battery hooping and fixing rings 12 are fixed on the outer edge surface of the second storage battery 13, and the second storage battery 13 is electrically connected with the first LED lamp strip 101 and the second LED lamp strip 102 through wires.

Specifically, the three groups of longitudinal connecting frames 204 are all configured with stranded wire rings 901 for connecting the kite wires 9, the stranded wire rings 901 of the three groups of longitudinal connecting frames 204 are arranged in a triangular shape (to ensure the stability of connection of the kite wires 9), and the kite wires 9 are divided into three strands and are respectively connected with the three groups of stranded wire rings 901.

Specifically, when the kite with the LED lamp strips and the take-up wheel thereof are used, the energization of the LED lamp beads on the first LED lamp strip 101 and the second LED lamp strip 102 can be realized only by connecting the kite line 9 with the three groups of twisted wire rings 901 and starting the power supply of the second storage battery 13, the flying of the kite main body 1 can be realized only by aligning one side of the kite main body 1 provided with the kite framework 2 with the wind direction, pulling the kite line 9 to run at the moment, when the line needs to be paid out, the wind pulls the kite main body 1 to drive the kite line 9 on the kite main body to pull the transmission gear 7, the motor shaft 601 rotates at the moment, when the line needs to be stopped, the take-up motor 6 is started and stopped, when the line needs to be paid out, the motor shaft 601 is firstly adjusted to rotate reversely (opposite to the line paying out direction), the transmission gear 7 drives the gear groove 701 to rotate so as to rotate, reasonable structure, beautiful and practical appearance, easy winding and unwinding of kite lines and higher practical value.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims

1. A kite with LED lamp belts comprises a cylindrical kite main body (1), a kite framework (2) arranged on one side of the kite main body (1), and a take-up pulley main body (3) connected with the kite framework (2) through kite lines (9);

the method is characterized in that: the kite main body (1) is of a conical tubular structure, one side, with a larger opening, of the kite main body (1) is connected with one group of kite frameworks (2), multiple groups of first LED lamp strips (101) are arranged on the outer edge surface of the kite main body (1) in a surrounding mode, and multiple groups of second LED lamp strips (102) are attached to one end, away from the kite frameworks (2), of the kite main body (1);

the take-up pulley main body (3) comprises a group of fixed inner wheels (4) in an annular structure and movable outer wheels (5) sleeved outside the fixed inner wheels (4), a group of handles (10) are arranged in the fixed inner wheels (4), grooves for embedding rollers (11) are formed in the outer edge surfaces of the fixed inner wheels (4) and the inner edge surfaces of the movable outer wheels (5), a group of first storage batteries (401) are formed at the bottom ends of the fixed inner wheels (4), and a group of take-up motors (6) for driving the movable outer wheels (5) are fixedly mounted on one sides of the first storage batteries (401);

activity foreign steamer (5) have been seted up towards one side of receiving line motor (6) and have been annular gear groove (701), the bottom cooperation of receiving line motor (6) has a set of motor shaft (601), the one end of receiving line motor (6) and the cooperation of drive gear (7) of a set of conical gear structure are kept away from in motor shaft (601), the driving tooth of drive gear (7) and the driving tooth meshing of structure in gear groove (701).

2. A kite with LED tape according to claim 1, wherein: kite skeleton (2) are including horizontal chassis (202) at a set of arc skeleton (201) and connection arc skeleton (201) both ends, one side that horizontal chassis (202) were kept away from in arc skeleton (201) is connected by a set of battery frame (203) that is on a parallel with horizontal chassis (202), and is connected with three vertical link (204) of group perpendicularly between horizontal chassis (202) and battery frame (203).

3. A kite with LED tape according to claim 1, wherein: one side of the fixed inner wheel (4) far away from the take-up motor (6) is symmetrically provided with two groups of extension plates (8) of a connecting shaft (801), the connecting shaft (801) is provided with a group of line pressing wheels (802), and a kite line (9) penetrates through the bottom ends of the line pressing wheels (802) to be connected into a winding groove (501) of the movable outer wheel (5).

4. A kite with a LED strip as claimed in claim 2, wherein: the LED lamp is characterized in that at least two groups of annular battery hooping and fixing rings (12) are arranged on the battery frame (203), the battery hooping and fixing rings (12) are fixed on the outer edge surface of a second storage battery (13), and the second storage battery (13) is electrically connected with the first LED lamp strip (101) and the second LED lamp strip (102) through wires.

5. A kite with a LED strip as claimed in claim 2, wherein: stranded wire rings (901) connected with the kite wires (9) are constructed on the three groups of longitudinal connecting frames (204), the stranded wire rings (901) of the three groups of longitudinal connecting frames (204) are arranged in a triangular mode, and the kite wires (9) are divided into three strands and are respectively connected with the three groups of stranded wire rings (901).