CN215741793U - Dynamic wing-vibrating kite - Google Patents

Abstract

The utility model discloses a dynamic wing-flapping kite which comprises a handle, a winder, kite lines, a PE film, a skeleton, a connecting film and threading holes, wherein the winder is fixed on the side face of the handle, the top end of the winder is connected with the kite lines, the PE film is in the shape of birds, insects and the like, the skeleton is bonded on the top of the PE film, the skeleton is a carbon fiber sheet, the connecting film is integrally formed on the bottom of the PE film, and the threading holes are formed in the connecting film and fixed with the kite lines. The utility model has the advantages of sound when wings shake, strong simulation effect, low cost compared with a large kite and suitability for children to play.

Description

Dynamic wing-vibrating kite

Technical Field

The utility model relates to a kite, in particular to a dynamic wing-flapping kite.

Background

The kite is invented by ancient workers in the spring and autumn of China in the east week, and has been used for more than 2000 years. The photo-transmission Dian is made of wood and made into wood birds, developed for three years and is the earliest origin of kites in human beings. Most of the traditional kites are large in size, made of gauze and easy to ventilate, and the kites are not light enough in quality due to the fact that a plurality of frameworks are matched, high in takeoff difficulty and not suitable for low-altitude flight.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a dynamic flying kite to solve the technical problems.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides a developments kite that shakes wings, includes handle, spooler, kite line, PE membrane, skeleton, connection membrane, through wires hole, the handle side is fixed with the spooler, the spooler top is connected with the kite line, the PE membrane is shapes such as birds, insect, PE membrane top bonds there is the skeleton, the skeleton is the carbon fiber piece, PE membrane bottom integrated into one piece has the connection membrane, it is fixed with the kite line to open on the connection membrane through wires hole.

On the basis of the technical scheme, the framework comprises a keel, a transverse bone, a central transverse bone, a wing longitudinal bone, a wing tail bone and a wing middle area and a wing end area, the keel is longitudinally placed in the center, the transverse bone is perpendicular to the front side of the keel, the central transverse bone is fixed in the middle of the keel, the wing longitudinal bone is distributed on the left and right sides of the transverse bone, the wing tail bone is distributed on the left and right sides of the back of the keel, PE films around the central transverse bone are arranged in the wing middle area, and the PE films around the outer side of the transverse bone are arranged in the wing end area.

On the basis of the technical scheme, the central transverse bone in the wing middle area has high deformation resistance strength, so that the kite can be divided in a horizontal moving mode, the transverse bone is high in flexibility, the strength of the left end and the right end is smaller than the deformation resistance strength of the central transverse bone, and the wing end area of the PE film can shake up and down when subjected to wind resistance.

Compared with the prior art, the utility model has the following advantages: the kite is made of the PE film, is small in size, light in weight, air-tight, not prone to damage, and easier to take off than a traditional gauze material, the carbon fiber hard skeleton is light in weight and good in flexibility, the wing middle area formed by the central transverse rib increases the balance of the kite, the wing end areas formed at the front and the back of the two ends of the transverse rib can shake up and down when subjected to wind resistance, the wings shake to make sound, the simulation effect is strong, and compared with a large kite, the kite is low in manufacturing cost and more suitable for children to play.

Drawings

Fig. 1 is a schematic view of the external structure of the present invention.

Fig. 2 is a front view of the connection film of the present invention.

FIG. 3 is a top view of a PE film according to the utility model.

In the figure: 1. the novel multifunctional fishing rod comprises a handle, 2 parts of a winder, 3 parts of kite lines, 4 parts of PE films, 5 parts of a framework, 6 parts of connecting films, 7 parts of threading holes, 8 parts of keels, 9 parts of transverse bones, 10 parts of central transverse bones, 11 parts of wing longitudinal bones, 12 parts of wing tail bones, 13 parts of wing middle areas, 14 parts of wing end areas.

Detailed Description

The utility model is explained in further detail below with reference to the figures and the specific embodiments.

As shown in fig. 1-3, a dynamic flying kite comprises a handle 1, a winder 2, kite lines 3, a PE film 4, a skeleton 5, a connecting film 6 and threading holes 7, wherein the winder 2 is fixed on the side surface of the handle 1, the kite lines 3 are connected to the top end of the winder 2, the PE film 4 is in the shape of birds, insects and the like, the skeleton 5 is bonded to the top of the PE film 4, the skeleton 5 is a carbon fiber sheet, the connecting film 6 is integrally formed at the bottom of the PE film 4, and the threading holes 7 are formed in the connecting film 6 and fixed with the kite lines 3.

Skeleton 5 includes fossil fragments 8, horizontal bone 9, central horizontal bone 10, wing longitudinal bone 11, wing tailbone 12, wing zhongzhong district 13, wing tip region 14, fossil fragments 8 are vertically placed for the center, horizontal bone 9 perpendicular fossil fragments 8 front sides, and the middle part is fixed with central horizontal bone 10, wing longitudinal bone 11 distributes in horizontal bone 9 left and right sides, wing tailbone 12 distributes in fossil fragments 8 rear portion left and right sides, PE membrane 4 around the horizontal bone 10 of center is established to wing zhongzhong district 13, PE membrane 4 around the horizontal bone 9 outside is established to wing tip region 14.

The central transverse bone 10 of the wing middle area 13 has high deformation resistance strength, so that the kite can be divided in a translation mode, the transverse bone 9 has high flexibility, the strength of the left end and the right end is smaller than the deformation resistance strength of the central transverse bone 10, and the wing end area 14 of the PE film 4 can shake up and down when subjected to wind resistance.

The working principle of the utility model is as follows: the height of the PE film can be changed through the kite line by the winder, the PE film is under the action of the strength of the central transverse bone when being divided into rows, the wing middle area is kept horizontal, the strength of two ends of the transverse bone is small, the toughness is strong, the wing end area can shake up and down after being subjected to wind resistance, the PE film makes a sound, and the simulation effect of the kite is improved.

The foregoing is a preferred embodiment of the present invention, and it will be apparent to those skilled in the art that variations, modifications, substitutions and alterations can be made in the embodiment without departing from the principles and spirit of the utility model.

Claims (3)

1. The utility model provides a developments kite that shakes wings, includes handle (1), spooler (2), kite line (3), PE membrane (4), skeleton (5), connects membrane (6), through wires hole (7), its characterized in that: handle (1) side is fixed with spooler (2), spooler (2) top is connected with kite line (3), PE membrane (4) top bonds has skeleton (5), skeleton (5) are the carbon fiber piece, PE membrane (4) bottom integrated into one piece has connection membrane (6), it has through wires hole (7) to be fixed with kite line (3) to open on connection membrane (6).

2. A dynamic flying kite according to claim 1, wherein: skeleton (5) are including fossil fragments (8), horizontal bone (9), central horizontal bone (10), wing longitudinal bone (11), wing tailbone (12), wing middle zone (13), wing end zone (14), fossil fragments (8) are vertically placed for the center, horizontal bone (9) perpendicular fossil fragments (8) front side, and the middle part is fixed with central horizontal bone (10), wing longitudinal bone (11) distribute in horizontal bone (9) the left and right sides, wing tailbone (12) distribute in fossil fragments (8) rear portion the left and right sides, PE membrane (4) around central horizontal bone (10) are established and are distinguished (13) in the wing, PE membrane (4) around horizontal bone (9) outside are established and are established into wing end zone (14).

3. A dynamic flying kite according to claim 2, wherein: the central transverse bone (10) of the wing middle area (13) is high in deformation resistance, so that the kite can be divided in a horizontal moving mode, the transverse bone (9) is high in flexibility, the strength of the left end and the right end is smaller than the deformation resistance of the central transverse bone (10), and the wing end area (14) of the PE film (4) can shake up and down when subjected to wind resistance.

Images