CN211427697U - Simulated peacock spreading its tail mechanism - Google Patents

Abstract

The utility model belongs to the technical field of the animal landscape technique and specifically relates to a simulation peacock mechanism of spreading its tail, include 100W driving motor, small-size atmospheric pressure telescopic stay, expansion mechanism and install the high-frequency vibration machine on expansion mechanism. The utility model discloses a simulation peacock spreading its tail mechanism is through the upset support by the flexible vaulting pole control of small-size atmospheric pressure at the inboard swing joint of mounting substrate, have the movable upset pole group that is used for simulating peacock afterbody feather skeleton at upset support internally mounted and be used for controlling the 100W drive motor that movable upset pole group exhibition closed, through the action of vaulting pole and motor simulation peacock afterbody feather to install high-frequency vibration machine on movable upset pole group, promote the reduction degree that peacock spread its tail greatly, promote the simulation nature, the operating means is very simple and convenient.

Description

Simulated peacock spreading its tail mechanism

Technical Field

The utility model belongs to the technical field of the animal landscape technique and specifically relates to an emulation peacock mechanism of spreading its tail.

Background

Peacock (English name: Peafawls, maurya) has a length of 2 m or more, and a tail of about 1.5 m is the largest size of the chicken. The top of the head is emerald green, and the pinnate crown is blue green and sharp; the tail is covered with feather and is particularly long, so that a tail screen is formed, and the tail screen is bright and beautiful; the true tail feather is very short and is black brown. The female birds had no tail screen, dark brown feathers and numerous mottles. In order to facilitate people to visually understand the display specimen, the display specimen is often set in an exhibition hall, but most of the display specimens on the market are simple in structure and fixed in structure, and actions of peacocks cannot be simulated, so that the simulation is not enough.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: in order to solve the problems existing in the background technology, the improved simulation peacock tail spreading mechanism is provided, and the problems that most of display specimens on the market are simple in structure, fixed in structure and incapable of simulating actions of peacocks, and the simulation is not enough are solved.

The utility model provides a technical scheme that its technical problem adopted is: a simulated peacock spreading mechanism comprises a 100W transmission motor, a small-sized air pressure telescopic support rod, a spreading mechanism and a high-frequency vibrator arranged on the spreading mechanism, wherein the spreading mechanism comprises a mounting base plate arranged at the tail part of the simulated peacock, a turning support movably connected to the inner side of the mounting base plate through a rotating shaft, a longitudinal fixed rod arranged on the turning support and movable turning rod groups positioned at two ends of the longitudinal fixed rod, the outer wall of the turning support is fixedly connected with the connecting rotating shaft below the longitudinal fixed rod, the lower end of the movable turning rod group is movably connected with the outer wall of the turning support through a sleeve on the connecting rotating shaft, arc-shaped adjusting grooves with built-in arc-shaped adjusting plates are arranged at two sides of the movable turning rod group on the outer wall of the turning support, the arc-shaped adjusting plates are connected with the movable turning rod groups at corresponding positions through movable connecting rods, and the 100W transmission motor, the telescopic link top of small-size atmospheric pressure telescopic stay bar is through swing joint frame and upset support lateral surface swing joint, 100W drive machine pass through bolt fixed mounting on the upset support, the high-frequency vibration machine pass through bolt fixed mounting on longitudinal tie pole.

Furthermore, for the purpose of matching and extending, the movable turnover rod group comprises four left turnover rods positioned at the left end of the longitudinal fixing rod and four right turnover rods positioned at the right end of the longitudinal fixing rod, and limiting pull ropes for limiting the maximum turnover gap are connected between the longitudinal fixing rod and the left turnover rods, between the longitudinal fixing rod and the right turnover rods, between the four left turnover rods at the left side of the longitudinal fixing rod and between the four right turnover rods at the right side of the longitudinal fixing rod.

Further, for convenient movable assembly, arc regulating plate upper end all seted up circular assembly through-hole, the upset pole lower extreme is put to the leftmost left of longitudinal fixation pole and the upset pole lower extreme is put to the rightmost right side of longitudinal fixation pole all have with circular assembly through-hole matched with assembly inserted bar, the upset pole is put to the leftmost left of longitudinal fixation pole inserts inside circular assembly through-hole and corresponding position arc regulating plate swing joint through the assembly inserted bar, the upset pole is put to the rightmost right side of longitudinal fixation pole inserts inside circular assembly through-hole and corresponding position arc regulating plate swing joint through the assembly inserted bar.

Further, for the convenience of meshing transmission, axial fixedly connected with first drive gear and second drive gear in 100W drive motor's the pivot, arc transmission tooth's socket has all been seted up to arc regulating plate lower surface, upset support medial surface be located second drive gear one side and have third drive gear through pivot swing joint, second drive gear and third drive gear mesh mutually, first drive gear and third drive gear respectively with correspond position arc transmission tooth's socket meshing transmission.

Further, in order to keep the transmission efficiency consistent, the outer diameter of the first transmission gear is larger than that of the second transmission gear, and the outer diameter of the second transmission gear is larger than that of the third transmission gear.

Further, for the cooperation show, promote the simulation nature, turn over the pole length from the right side and turn left gradually to shorten for four left sides of longitudinal fixation pole left end, turn over the pole length from the left side and turn right gradually to shorten for four right sides of longitudinal fixation pole right-hand member.

The beneficial effects of the utility model are that, the utility model discloses a simulation peacock spreading mechanism is through the upset support by the flexible vaulting pole control of small-size atmospheric pressure at the inboard swing joint of mounting substrate, have the activity upset pole group that is used for simulating peacock afterbody feather skeleton at upset support internally mounted and be used for controlling 100W drive machine that activity upset pole group exhibition closed, through the action of vaulting pole and motor simulation peacock afterbody feather to install high-frequency vibration machine in activity upset pole group, promote the reduction degree that peacock spread greatly, promote the simulation nature, the operating means is very simple and convenient.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a sectional view of the inside of the mounting substrate according to the present invention.

In the figure, a 1.100W transmission motor, a 2 small-sized pneumatic telescopic support rod, a 3 high-frequency vibrator, a 4 mounting base plate, a 5 overturning bracket, a 6 longitudinal fixing rod, a 7 arc-shaped adjusting plate, an 8 arc-shaped adjusting groove, a 9 left overturning rod, a 10 right overturning rod, a 11 limiting pull rope, a 12 first transmission gear, a 13 second transmission gear, a 14 arc-shaped transmission tooth socket and a 15 third transmission gear are arranged.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

The simulated peacock spreading mechanism shown in the figures 1 and 2 comprises a 100W transmission motor 1, a small-sized pneumatic telescopic support rod 2, a spreading mechanism and a high-frequency vibrator 3 arranged on the spreading mechanism, wherein the spreading mechanism comprises a mounting substrate 4 arranged at the tail part of the simulated peacock, a turning bracket 5 movably connected to the inner side of the mounting substrate 4 through a rotating shaft (the front side wall and the rear side wall of the mounting substrate 4 are provided with assembly blind holes, the outer walls of the front side and the rear side of the turning bracket 5 are provided with an integrated cylindrical rotating shaft, the turning bracket is inserted into the corresponding position through the rotating shaft to be movably connected with the mounting substrate 4 through assembly busy work), a longitudinal fixed rod 6 arranged on the turning bracket 5 and movable turning rod groups positioned at two ends of the longitudinal fixed rod 6, the outer wall of the turning bracket 5 is fixedly connected with a connecting rotating shaft below the longitudinal fixed rod 6, and the lower end of each, the outer wall of the turning bracket 5 is positioned on both sides of the movable turning rod group and is provided with arc-shaped adjusting grooves 8 with built-in arc-shaped adjusting plates 7, the inner wall of the left side and the inner wall of the right side of the turning bracket 5 are provided with the arc-shaped adjusting grooves 8, the arc-shaped adjusting plates 7 are connected with the movable turning rod group at the corresponding position through movable connecting rods, the mode principle of the movable connection is the same as the structural principle of a folding fan, a 100W transmission motor 1 is meshed with the arc-shaped adjusting plates 7 through transmission gears for transmission, the top end of a telescopic rod of a small air pressure telescopic stay rod 2 is movably connected with the outer side surface of the turning bracket 5 through a movable connecting frame, the movable connecting frame is composed of a connecting frame fixed at the top end of the telescopic rod of the small air pressure telescopic stay rod 2, a connecting frame fixed on the outer, the high-frequency vibrator 3 is fixedly installed on the longitudinal fixing rod 6 through bolts.

Further, for the purpose of matching extension, the movable turnover rod group comprises four left turnover rods 9 positioned at the left end of the longitudinal fixing rod 6 and four right turnover rods 10 positioned at the right end of the longitudinal fixing rod 6, limiting pull ropes 11 for limiting the maximum turnover gap are connected between the longitudinal fixing rod 6 and the left turnover rods 9, between the longitudinal fixing rod 6 and the right turnover rods 10, between the four left turnover rods 9 at the left side of the longitudinal fixing rod 6 and between the four right turnover rods 10 at the right side of the longitudinal fixing rod 6, the limiting pull ropes 11 are used for synchronously driving the turnover rods at different positions to open and close, the principle is the same as that of a folding fan, furthermore, for the convenience of movable assembly, circular assembly through holes are formed at the upper end of the arc-shaped adjusting plate 9, circular assembly inserting rods matched with the circular assembly through holes are arranged at the lower ends of the left turnover rods 9 at the leftmost side of the longitudinal fixing rod 6 and the right turnover, the assembly inserted bar at the lower end of a left-arranged turnover bar 9 at the leftmost side of a longitudinal fixing bar 6 protrudes backwards, the assembly inserted bar at the lower end of a right-arranged turnover bar 10 at the rightmost side of the longitudinal fixing bar 6 protrudes forwards, the left-arranged turnover bar 9 at the leftmost side of the longitudinal fixing bar 6 is inserted into a circular assembly through hole through the assembly inserted bar and is movably connected with an arc-shaped adjusting plate 7 at a corresponding position, the right-arranged turnover bar 10 at the rightmost side of the longitudinal fixing bar 6 is inserted into the circular assembly through hole through the assembly inserted bar and is movably connected with the arc-shaped adjusting plate 7 at the corresponding position, furthermore, in order to facilitate meshing transmission, a first transmission gear 12 and a second transmission gear 13 are axially and fixedly connected on a rotating shaft of a 100W transmission motor 1, arc-shaped transmission tooth grooves 14 are respectively formed on the lower surfaces of the arc-shaped adjusting plates 7, a, the first transmission gear 12 and the third transmission gear 15 are respectively meshed with the arc-shaped transmission tooth socket 14 at the corresponding positions for transmission, further, in order to keep the transmission efficiency consistent, the outer diameter of the first transmission gear 12 is larger than that of the second transmission gear 13, the outer diameter of the second transmission gear 13 is larger than that of the third transmission gear 15, further, in order to match display and improve the simulation, the lengths of four left-arranged turnover rods 9 at the left end of a longitudinal fixing rod 6 are gradually shortened from right to left, and the lengths of four right-arranged turnover rods 10 at the right end of the longitudinal fixing rod 6 are gradually shortened from left to right, the simulation peacock spreading mechanism of the utility model is characterized in that a turnover support 5 controlled by a small-sized pneumatic telescopic stay 2 is movably connected at the inner side of a mounting base plate 4, a movable turnover rod group for simulating a feather skeleton at the tail of a peacock and a 100W transmission motor 1 for controlling the turnover rod group to spread are arranged in the turnover, through the action of vaulting pole and motor simulation peacock afterbody feather to install high-frequency vibration machine 3 on the activity upset pole group, promote the reduction degree that peacock spread its tail greatly, promote the simulation nature, the operating mode is very simple and convenient.

The control mode is as follows: wherein the 100W transmission motor 1, the small-sized air pressure telescopic stay bar 2 and the high-frequency vibration machine 3 are all powered by an external power supply and are independently controlled to be opened and closed by an external switch, the 100W transmission motor 1 and the small-sized air pressure telescopic stay bar 2 are independently controlled to be positive, reverse and telescopic by the external switch, the 100W transmission motor 1 is positively rotated to drive the arc adjusting plates 7 at two sides of the turning support 5 to rotate along the arc adjusting grooves 8, the round shape of the arc adjusting grooves 8 is the same as the axis of the connecting rotating shaft, therefore, the arc adjusting plates 7 drive the left turning rod 9 and the right turning rod 10 at the outermost side to turn over, the left turning rod 9 and the right turning rod 10 at the outermost side drive the left turning rod 9 and the right turning rod 10 at the inner side to turn over through the limiting pull rope 11, the principle is the same as the folding fan opening and closing principle, thereby simulating the opening and closing of the peacock, the small-sized air pressure telescopic, the high-frequency vibrator 3 is used for simulating feather vibration after the screen is opened.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (6)

1. The utility model provides a simulation peacock spreading its tail mechanism, includes 100W driving motor (1), small-size atmospheric pressure telescopic stay pole (2), deployment mechanism and high-frequency vibration machine (3), characterized by: the unfolding mechanism comprises a mounting substrate (4) arranged at the tail part of the simulated peacock, a turning support (5) movably connected to the inner side of the mounting substrate (4) through a rotating shaft, a longitudinal fixing rod (6) arranged on the turning support (5) and movable turning rod groups arranged at two ends of the longitudinal fixing rod (6), wherein the outer wall of the turning support (5) is fixedly connected with the connecting rotating shaft below the longitudinal fixing rod (6), the lower end of each movable turning rod group is movably connected with the outer wall of the turning support (5) through a sleeve on the connecting rotating shaft, the outer wall of the turning support (5) is arranged at two sides of each movable turning rod group and is provided with arc-shaped adjusting grooves (8) with built-in arc-shaped adjusting plates (7), each arc-shaped adjusting plate (7) is connected with the corresponding movable turning rod group through a movable connecting rod, and a 100W transmission motor (1) and each arc-shaped adjusting plate (, the telescopic link top of small-size atmospheric pressure telescopic stay pole (2) is through swing joint frame and upset support (5) lateral surface swing joint, 100W drive machine (1) through bolt fixed mounting on upset support (5), high-frequency vibration machine (3) through bolt fixed mounting on longitudinal fixation pole (6).

2. The simulated peacock spreading its tail mechanism as claimed in claim 1, wherein: the movable turnover rod group comprises four left turnover rods (9) arranged at the left end of the longitudinal fixing rod (6) and four right turnover rods (10) arranged at the right end of the longitudinal fixing rod (6), wherein the longitudinal fixing rod (6) and the left turnover rods (9), the longitudinal fixing rod (6) and the right turnover rods (10), the four left turnover rods (9) arranged at the left side of the longitudinal fixing rod (6) and the four right turnover rods (10) arranged at the right side of the longitudinal fixing rod (6) are all connected with limiting pull ropes (11) for limiting the maximum turnover gap.

3. The simulated peacock spreading its tail mechanism as claimed in claim 1, wherein: arc regulating plate (7) upper end all seted up circular assembly through-hole, upset pole (10) lower extreme is put in the right side of longitudinal tie pole (6) leftmost left side and upset pole (9) lower extreme and longitudinal tie pole (6) rightmost side all have with circular assembly through-hole matched with assembly inserted bar, upset pole (9) is put in the leftmost left side of longitudinal tie pole (6) inserts circular assembly through-hole inside and correspond position arc regulating plate (7) swing joint through the assembly inserted bar, upset pole (10) is put in the rightmost right side of longitudinal tie pole (6) inserts circular assembly through-hole inside and correspond position arc regulating plate (7) swing joint through the assembly inserted bar.

4. The simulated peacock spreading its tail mechanism as claimed in claim 1, wherein: the utility model discloses a drive motor, including 100W drive motor (1), rotation shaft, upset support (5) medial surface be located second drive gear (13) one side and have third drive gear (15) through pivot swing joint, second drive gear (13) and third drive gear (15) mesh mutually, first drive gear (12) and third drive gear (15) mesh transmission with corresponding position arc transmission tooth's socket (14) respectively in the first drive gear (12) and second drive gear (13) of axial fixedly connected with, arc regulating plate (7) lower surface all seted up arc transmission tooth's socket (14), upset support (5).

5. The simulated peacock spreading its tail mechanism of claim 4, wherein: the outer diameter of the first transmission gear (12) is larger than that of the second transmission gear (13), and the outer diameter of the second transmission gear (13) is larger than that of the third transmission gear (15).

6. The simulated peacock spreading its tail mechanism as claimed in claim 2, wherein: the length of the four left turnover rods (9) at the left end of the longitudinal fixing rod (6) is gradually shortened from the right side to the left side, and the length of the four right turnover rods (10) at the right end of the longitudinal fixing rod (6) is gradually shortened from the left side to the right side.

Images