CN217284591U - Flying type electric duck - Google Patents

Abstract

The utility model discloses a flying type electric duck, which comprises a simulated duck-shaped bait shell and a rotor wing, wherein the bottom of the cavity of the bait shell is provided with a waterproof control component, and a motor component is arranged in the cavity; the motor assembly comprises a motor, a motor left cover and a motor right cover, wherein output shafts on two sides of the motor are provided with sealing rings, and the motor is arranged in the motor left cover and the motor right cover; output shafts on two sides of the motor are respectively connected with the rotor wing on the corresponding side through a fixed sleeve, a connecting sleeve and a mounting block, and the motor drives the rotor wing to rotate when working; the waterproof control assembly comprises a sealing cover, a battery upper cover, a battery lower shell, a control receiver and a battery pack, wherein one end of the battery lower shell is used for fixing the battery pack, the other end of the battery lower shell is provided with a hole, and the hole is provided with the battery upper cover; the control receiver is fixed on the inner side of the battery upper cover, the battery pack is in butt joint with the control receiver, and the control receiver is electrically connected with the motor. The utility model has the advantages of simple structure, low cost and vivid simulation effect.

Description

Flying type electric duck

Technical Field

The utility model relates to an outdoor leisure articles for use technical field, especially an electronic duck of flying day formula.

Background

At present, along with the development of society, the living standard of people is increased day by day, and amateur life is also indispensable content when taking part in outdoor leisure sports, and hunting is one of the ways. Generally, a country provides people with hunting in a specific area at a specific time, and in the hunting process, in order to attract the attention of a prey, simulated baits are prepared to be placed in an area where the prey moves, but all parts of an existing prey model are static and too stiff, the prey model is not easy to attract the attention of the prey, and the effect is not ideal.

US patent 20170231218a1 discloses a mechanically operated waterfowl bait having an impeller which rotates 360 degrees about a horizontal axis, circulates through the water through the body of the bait, strikes the underside of the wings, and lifts the wings in a natural flapping motion. US20150230452a1 discloses a live duck decoy having a hollow duck body shell, a floatable base, a tail and a tail rocking mechanism, a swivel arm connected to a hub which in turn is axially connected to a drive shaft driven by a motor which causes the swivel arm to rotate in a clockwise or counterclockwise direction in a horizontal plane, an elastic bumper striking the open end of a rod when the swivel arm rotates in the horizontal plane, thereby causing the rod and tail to also rotate through a horizontal arc. However, the above two kinds of waterfowl baits can only simulate the swimming of a duck bait in a normal state, and are hard to vividly simulate the emotion, wing flapping frequency and force of a captured prey, and have complicated structure and higher cost.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a simple structure, electronic duck of sky formula of flying with low costs, catch object mood, action or similar duck model through the simulation and lure the prey.

Realize the utility model discloses the technical solution of purpose does: a flying type electric duck comprises a simulated duck-shaped bait shell and rotor wings, wherein a waterproof control component is arranged at the bottom of a cavity of the bait shell, and a motor component is arranged in the cavity;

the motor assembly comprises a motor, a motor left cover and a motor right cover, wherein output shafts on two sides of the motor are provided with sealing rings;

output shafts on two sides of the motor are respectively connected with the rotor wing on the corresponding side through a fixed sleeve, a connecting sleeve and a mounting block, and the motor drives the rotor wing to rotate when working;

the waterproof control assembly comprises a sealing cover, a battery upper cover, a battery lower shell, a control receiver and a battery pack, wherein one end of the battery lower shell is used for fixing the battery pack, the other end of the battery lower shell is provided with a hole, the battery upper cover is arranged at the hole, the battery upper cover is fixed on the battery lower shell, and a square sealing gasket is arranged between the battery upper cover and the battery lower shell; the control receiver is fixed on the inner side of the upper cover of the battery, the battery pack is in butt joint with the control receiver, and the control receiver is electrically connected with the motor.

Further, the inboard left socle and the right branch frame of fixedly setting up of battery inferior valve, the motor left side lid is fixed in the left socle, and the motor right side lid is fixed in the right branch frame.

Furthermore, the battery upper cover is provided with a charging port, and a sealing cover is arranged on the inner side of the charging port.

Furthermore, the control receiver is provided with a matched remote controller, and the keys arranged on the remote controller comprise an on-off key, a standby working mode key, a continuous working mode key and a timing working mode key.

Further, the electric duck inserting device also comprises a bracket A, a bracket B and a bracket C which are used for inserting the electric duck into the water bottom; the bracket C is used for being connected with the bottom of the electric duck; the quantity of support B is the multistage and meets in proper order the back, and one end links to each other with support C, and the other end links to each other with support A, and support A's bottom is the toper and is used for inserting the submarine fixed.

Further, the cavity of the bait shell is filled with plastic foam.

Further, the motor left cover and the motor right cover are fixed through a cross-recessed pan head screw and a hexagon nut.

Further, the control receiver is fixed on the upper cover of the battery by a cross-shaped groove pan head self-tapping screw.

Furthermore, the battery upper cover is fixed on the battery lower shell by a cross-shaped groove pan head self-tapping screw.

Further, the charging port is provided with a matched charger.

Compared with the prior art, the utility model, it is showing the advantage and is: (1) the real duck is simulated to move on the water surface, so that a dynamic effect is generated, and the appearance of the real duck is adopted, so that the attention of a prey is attracted more easily; (2) the motor assembly and the waterproof control assembly drive the rotor wing to rotate, so that the structure is simple and the cost is low; (3) the remote controller is adopted for control, and various working modes can be set, so that the operation is convenient.

Drawings

Fig. 1 is a side view of the flying electric duck of the present invention.

Fig. 2 is a bottom view of the flying type electric duck assembly of the utility model.

Fig. 3 is an overall explosion diagram of the flying type electric duck of the utility model.

Fig. 4 is an overall sectional view of the flying electric duck of the present invention.

Fig. 5 is a perspective view of the flying electric duck of the present invention.

Fig. 6 is a schematic view of the motor assembly of the flying type electric duck of the present invention.

Fig. 7 is a schematic view of the remote controller of the flying type electric duck of the present invention.

Fig. 8 is a schematic view of a stand A, B, C of the flying electric duck of the present invention.

Fig. 9 is a schematic view of the waterproof control assembly of the flying type electric duck of the present invention.

Number in the figure: the electric motor assembly 1, waterproof control assembly 2, bait shell 3, round sealing pad 4, cross recessed pan head tapping screw 5, cross recessed pan head screw 6, hexagon nut 7, motor left cover 8, motor right cover 9, sealing ring 10, connecting sleeve 11, fixed cover 12, rotor wing 13, battery lower shell 14, battery upper cover 15, control receiver 16, sealed lid 17, battery package 18, left support 19, right support 20, motor 21, remote controller 22, charger 23, installation piece 24, support A25, support B26, support C27, square sealing pad 28, charging port 29.

Detailed Description

It is easily understood that, according to the technical solution of the present invention/appearance, those skilled in the art can imagine various embodiments of the present invention without changing the essential spirit of the present invention. Therefore, the following detailed description and the accompanying drawings are merely illustrative of the technical solutions of the present invention, and should not be construed as limiting or restricting the technical solutions of the present invention in its entirety or as a limitation of the present invention.

With reference to fig. 1 to 9, the flying type electric duck of the present invention comprises a simulated duck-shaped bait shell 3 and a rotor wing 13, wherein a waterproof control component 2 is disposed at the bottom of the cavity of the bait shell 3, and a motor component 1 is disposed inside the cavity;

the motor component 1 comprises a motor 21, a motor left cover 8 and a motor right cover 9, output shafts on two sides of the motor 21 are provided with sealing rings 10, the motor 21 is arranged in the motor left cover 8 and the motor right cover 9, the motor left cover 8 and the motor right cover 9 are fixedly connected, and a circular sealing gasket 4 is arranged between the motor left cover 8 and the motor right cover 9;

output shafts on two sides of the motor 21 are respectively connected with the rotor wing 13 on the corresponding side through a fixed sleeve 12, a connecting sleeve 11 and a mounting block 24, and the motor 21 drives the rotor wing 13 to rotate when in work;

the waterproof control component 2 comprises a sealing cover 17, a battery upper cover 15, a battery lower shell 14, a control receiver 16 and a battery pack 18, wherein one end of the battery lower shell 14 is used for fixing the battery pack 18, the other end of the battery lower shell is provided with a hole, the battery upper cover 15 is arranged at the hole, the battery upper cover 15 is fixed on the battery lower shell 14, and a square sealing gasket 28 is arranged between the battery upper cover and the battery lower shell 14; the control receiver 16 is fixed on the inner side of the battery upper cover 15, the battery pack 18 is in butt joint with the control receiver 16, and the control receiver 16 is electrically connected with the motor 21.

In a specific embodiment, a left bracket 19 and a right bracket 20 are fixedly arranged on the inner side of the battery lower shell 14, the motor left cover 8 is fixed on the left bracket 19, and the motor right cover 9 is fixed on the right bracket 20.

In a specific embodiment, the battery top cover 15 is provided with a charging port 29, and a sealing cover 17 is disposed inside the charging port 29.

In one embodiment, the control receiver 16 is provided with a remote controller 22, and the keys provided on the remote controller 22 include an on-off key, a standby operation mode key, a continuous operation mode key, and a timing operation mode key.

As a specific embodiment, the flying electric duck also comprises a bracket A25, a bracket B26 and a bracket C27 which are used for inserting the electric duck into the water bottom; the bracket C27 is used for being connected with the bottom of the electric duck; the number of the brackets B26 is multiple sections, and after the brackets B26 are connected in sequence, one end of each bracket B is connected with the bracket C27, the other end of each bracket B is connected with the bracket A25, and the bottom of the bracket A25 is conical and is used for being inserted into the water bottom for fixing.

As a specific example, the cavity of the bait housing 3 is filled with a plastic foam.

As a specific embodiment, the motor left cover 8 and the motor right cover 9 are fixed by a cross recessed pan head screw 6 and a hexagon nut 7.

As a specific example, the control receiver 16 is fixed to the battery upper cover 15 with a cross-recessed pan head self-tapping screw.

As a specific example, the battery upper cover 15 is fixed to the battery lower case 14 by cross-recessed pan head tapping screws 5.

As a specific example, the charging port 29 is provided with a mating charger 23.

The utility model relates to an assembly process of electronic duck of flying sky formula is as follows:

first, the motor assembly 1 is installed: the round sealing gasket 4 is arranged in the right motor cover 9, the sealing rings 10 are arranged at the shaft outlets at the two sides of the motor 21, and then the motor 21 is arranged in the left motor cover 8 and the right motor cover 9 and is fixed by the cross recessed pan head screw 6 and the hexagon nut 7.

Then, the sealing cover 17 is fitted into the battery upper cover 15, the control receiver 16 is fixed to the battery upper cover 15 with the cross-recessed pan head screws, the battery pack 18 is fitted into the battery lower case 14, the battery pack 18 is butted against the control receiver 16, and the battery upper cover 15 is fitted to the battery lower case 14 with the cross-recessed pan head tapping screws 5. The left bracket 19 and the right bracket 20 are fixed on the battery lower shell 14 by a cross recessed pan head screw 6 and a hexagon nut 7.

The remote controller 22 can be remotely controlled to start and stop within the range of <50m, and different operation modes of the electric duck are adjusted, the bracket A25, the bracket B26 and the bracket C27 are connected with each other and can be inserted into water for fixing, and the electric duck is arranged on the bracket and floats upwards on the water surface for working.

The utility model relates to an electronic duck of all-weather formula working process as follows: after the switch is turned on, the motor 21 is in a standby mode, after the bracket A25, the bracket B26 and the bracket C27 are assembled, the bracket A25 is inserted into the water bottom for fixation, the electric duck is arranged on the bracket C27 and put into the water, and the working mode is controlled by the remote controller 22: the rotor wing can rotate under the action of external wind in the standby mode; adjusting to a continuous working mode, turning on for 2S/turning off for 1.5S, cycling for 4 times, stopping for 10S, and repeating in sequence; the intermittent rotation of the wings of the electric duck rotor wing can also adopt a timing mode to control the running time, simulate real ducks to move on the water surface to generate a dynamic effect, and can more easily attract the attention of prey due to the vivid duck appearance.

In conclusion, the flying type electric duck drives the rotor wing to rotate through the motor assembly and the waterproof control assembly, and has simple structure and low cost; the remote controller is adopted for control, and various working modes can be set, so that the operation is convenient.

Claims (10)

1. The flying type electric duck is characterized by comprising a simulated duck-shaped bait shell (3) and rotor wings (13), wherein a waterproof control component (2) is arranged at the bottom of a cavity of the bait shell (3), and a motor component (1) is arranged in the cavity;

the motor assembly (1) comprises a motor (21), a motor left cover (8) and a motor right cover (9), output shafts on two sides of the motor (21) are provided with sealing rings (10), the motor (21) is arranged in the motor left cover (8) and the motor right cover (9), the motor left cover (8) and the motor right cover (9) are fixedly connected, and a circular sealing gasket (4) is arranged between the motor left cover and the motor right cover;

output shafts on two sides of the motor (21) are respectively connected with the rotor wing (13) on the corresponding side through a fixed sleeve (12), a connecting sleeve (11) and a mounting block (24), and the motor (21) drives the rotor wing (13) to rotate when in work;

the waterproof control assembly (2) comprises a sealing cover (17), a battery upper cover (15), a battery lower shell (14), a control receiver (16) and a battery pack (18), one end of the battery lower shell (14) is used for fixing the battery pack (18), the other end of the battery lower shell is provided with a hole, the battery upper cover (15) is arranged at the hole, the battery upper cover (15) is fixed on the battery lower shell (14), and a square sealing gasket (28) is arranged between the battery upper cover and the battery lower cover; the control receiver (16) is fixed on the inner side of the battery upper cover (15), the battery pack (18) is in butt joint with the control receiver (16), and the control receiver (16) is electrically connected with the motor (21).

2. The flying electric duck as claimed in claim 1, wherein a left bracket (19) and a right bracket (20) are fixedly arranged on the inner side of the battery lower shell (14), the left motor cover (8) is fixed on the left bracket (19), and the right motor cover (9) is fixed on the right bracket (20).

3. The flying electric duck as claimed in claim 1, wherein the battery top cover (15) is provided with a charging port (29), and a sealing cover (17) is provided inside the charging port (29).

4. The flying electric duck according to claim 1, wherein the control receiver (16) is provided with a matched remote controller (22), and keys provided on the remote controller (22) comprise an on-off key, a standby operation mode key, a continuous operation mode key and a timing operation mode key.

5. The flying motorized duck as recited in claim 1, further comprising a stand a (25), a stand B (26), a stand C (27) for inserting the duck into the water bed; the bracket C (27) is used for connecting the bottom of the electric duck; the number of the supports B (26) is multiple sections, after the supports B (26) are sequentially connected, one end of each support B is connected with the support C (27), the other end of each support B is connected with the support A (25), and the bottom of the support A (25) is conical and used for being inserted into the water bottom for fixing.

6. The flying electric duck according to claim 1, wherein the cavity of the bait housing (3) is filled with a plastic foam.

7. The flying electric duck according to claim 1, wherein the left motor cover (8) and the right motor cover (9) are fixed by a cross-recessed pan head screw (6) and a hexagonal nut (7).

8. The flying electric duck according to claim 1, wherein the control receiver (16) is fixed to the battery upper cover (15) with a cross-recessed pan head self-tapping screw.

9. The flying electric duck as claimed in claim 1, wherein the battery upper cover (15) is fixed on the battery lower cover (14) by a cross-recessed pan head tapping screw (5).

10. Flying electric duck according to claim 3, wherein the charging port (29) is provided with a complementary charger (23).

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