CN214319111U - Simulated eye rotating device - Google Patents

Abstract

The utility model discloses a simulation eyes rotating device, which comprises a bracket, simulation eyes rotating device still includes: the power source is fixedly arranged on the bracket; one end of the crank is arranged on a rotating shaft of the power source; the simulated eye assembly is rotatably arranged on the bracket; the connecting piece, the connecting piece is fixed to be set up on the simulation eyes subassembly, the other end of crank slides and sets up on the connecting piece. The problem of among the prior art cartoon model's eyes rigid, not image, make visitor's experience of playing experience sense not enough is solved.

Description

Simulated eye rotating device

Technical Field

The utility model relates to an amusement equipment field especially relates to a simulation eyes rotating device.

Background

At present, various cartoon images can be designed in the existing playground to attract tourists, and when the cartoon images are placed at a queuing entrance, the cartoon images can be enjoyed by children and can also bring some fun for the tourists waiting in a queue.

However, the amusement equipment in the prior art does not have a device for simulating the rotation of eyes, and the eyes of the conventional cartoon image model are fixed, so that the model is stiff and not vivid, and the playing experience of tourists is insufficient.

Accordingly, the prior art is yet to be improved and developed.

SUMMERY OF THE UTILITY MODEL

In view of above-mentioned prior art not enough, the utility model aims to provide a simulation eyes rotating device has solved not simulating eyes pivoted device in the amusement equipment of prior art, and the eyes of cartoon model are fixed motionless, lead to the model stiff, and is not vivid, makes visitor's play experience feel not enough problem.

The technical scheme of the utility model as follows:

a simulated eye rotation device comprising a support, wherein the simulated eye rotation device further comprises:

the power source is fixedly arranged on the bracket;

one end of the crank is arranged on a rotating shaft of the power source;

the simulated eye assembly is rotatably arranged on the bracket;

the connecting piece, the connecting piece is fixed to be set up on the simulation eyes subassembly, the other end of crank slides and sets up on the connecting piece.

Further, the simulated eye assembly comprises:

the bearing block is fixedly arranged on the bracket, and a bearing is arranged in the bearing block;

the connecting shaft is arranged in a bearing in the bearing seat in a penetrating manner;

the fixed blocks are detachably arranged at two ends of the connecting shaft respectively;

the eyeball simulation blocks are respectively arranged on the fixed blocks at the two sides.

Further, the eyeball analogue block comprises:

the support plate is fixedly connected to the fixing block

The hemispherical shell is fixedly connected to the support plate;

a recess formed in a surface of the hemispherical shell.

Further, the connector includes:

one end of the connecting plate is sleeved on the connecting shaft;

the fixing screw is screwed on the connecting plate and abuts against the outer wall of the connecting shaft;

the sliding groove is formed in the surface, facing the power source, of the connecting plate.

Further, the crank includes:

the fixed table is provided with a spindle hole, and a rotating shaft of the power source is clamped and fixed in the spindle hole;

the crank plate is fixedly arranged on the fixed table and extends along the radial direction of the rotating shaft of the power source;

the sliding column is fixedly arranged at one end, far away from the fixed table, of the crank plate and is located in the sliding groove.

Further, a pulley is sleeved on the sliding column and located in the sliding groove.

Further, the stent includes:

a base;

the transverse plate is adjustably arranged on the base;

the vertical plate is vertically and fixedly arranged on the transverse plate;

the reinforcing plate is fixedly connected to the transverse plate and the vertical plate.

Further, the power source and the crank are located on two sides of the vertical plate.

Further, the power source is a motor.

Further, simulation eye rotating device still includes the mount, the mount includes:

the base is adjustably arranged on the fixed frame;

the supporting rods are fixedly connected to the fixing frame;

the connecting disc is concentrically and fixedly arranged on the supporting rod, and a through hole for penetrating a screw is formed in the connecting disc.

The beneficial effect of this scheme: the utility model provides a pair of simulation eyes rotating device provides power through the power supply, and the power supply drives crank rotation, and its other end slides on the connecting piece when the crank is rotatory, and the connecting axle is under articulate drive, and around simulating eyes subassembly be in reciprocating swing is made to the turned position on the support, because simulation eyes subassembly is fixed with the connecting piece, drives simulation eyes subassembly reciprocating swing so when the connecting piece swings to increase and realize a simulation eyes pivoted device, can realize simulating eyes and rotate the effect, if draw the eyelashes on simulation eyes subassembly, or install the component of simulation eyelid in addition, can simulate out the effect of blinking. The model is vivid through the rotation of eyes, the playing experience of the tourists is increased, the pleasure of the tourists is achieved, and the tourists are attracted.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of a device for simulating eye rotation according to the present invention;

FIG. 2 is a schematic view of a simulated eye rotation device of an embodiment of the present invention with the mount removed;

fig. 3 is a schematic view of an embodiment of the device for simulating eye rotation according to the present invention, with another view angle of the fixation frame removed.

The reference numbers in the figures: 100. a support; 110. a base; 120. a transverse plate; 130. a vertical plate; 140. a reinforcing plate; 200. a power source; 210. a rotating shaft; 300. a crank; 310. a fixed table; 311. a spindle hole; 320. a crank plate; 330. a traveler; 400. a connecting member; 410. a connecting plate; 420. a set screw; 430. a chute; 440. a pulley; 500. simulating an eye component; 510. a bearing seat; 520. a connecting shaft; 530. a fixed block; 540. an eyeball simulation block; 541. a support plate; 542. a hemispherical shell; 543. a groove; 600. a fixed mount; 610. a fixing frame; 620. a support bar; 630. and (7) connecting the disc.

Detailed Description

The utility model provides a simulation eyes rotating device, for making the utility model discloses a purpose, technical scheme and effect are clearer, clear and definite, and it is right that the following reference is made to the attached drawing and the example the utility model discloses further detailed description. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1, the present invention provides a simulated eye rotation device, which comprises a bracket 100, and for the convenience of structural description, the simulated eye rotation device is used as the front side when in use, one side facing away from the guest is the rear side, the two sides of the left and right hands of the guest are the left and right directions, the top side is the top side when standing, and the bottom side is the ground side. The simulated eye rotation device further comprises: power source 200, crank 300, attachment 400, simulated eye assembly 500. The power source 200 is fixedly arranged on the bracket 100; the power source 200 extends along the left-right direction, the power source 200 is provided with a rotating shaft 210, and the power source 200 generates power to drive the rotating shaft 210 to rotate, so that power is provided for the device. One end of the crank 300 is disposed on the rotating shaft 210 of the power source 200, and the connecting member 400 is fixedly disposed on the simulated eye assembly 500. The simulated eye assembly 500 is rotatably disposed on the bracket 100, and the connecting member 400 drives the simulated eye assembly 500 to rotate on the bracket 100.

In the above scheme, power is provided by the power source 200, the power source 200 drives the crank 300 to rotate, the other end of the crank 300 slides on the connecting piece 400 when rotating, the connecting shaft 520 is driven by the crank 300 to swing back and forth around the rotating position of the simulated eye assembly 500 on the support 100, and the connecting piece 400 drives the simulated eye assembly 500 to swing back and forth when swinging due to the fact that the simulated eye assembly 500 is fixed with the connecting piece 400, so that the eye rotating effect of the model is achieved, and if eyelashes are drawn on the simulated eye assembly 500 or a member simulating eyelid is additionally installed, the blinking effect can be simulated. The model is vivid through the rotation of eyes, the playing experience of the tourists is increased, the pleasure of the tourists is achieved, and the tourists are attracted.

As shown in fig. 1 and fig. 2, in the specific structure of the present embodiment, the support 100 includes a base 110, a horizontal plate 120, a vertical plate 130, and a reinforcing plate 140. The adjustable setting of diaphragm 120 is in on the base 110, specifically do, waist shape hole has been seted up on the upper surface of diaphragm 120, carries out the spiro union with base 110 behind the screw that alternates in waist shape hole, diaphragm 120 extends the setting along the fore-and-aft direction, waist shape hole extends the setting along the fore-and-aft direction, can make diaphragm 120 adjust along the fore-and-aft direction of base 110 like this. Riser 130 vertical fixation set up in on the diaphragm 120 specifically is: the vertical plate 130 is welded to the horizontal plate 120 in the vertical direction. The reinforcement plate 140 is fixedly connected to the horizontal plate 120 and the vertical plate 130, so that the structure of the bracket 100 is more stable, and the vertical plate 130 and the horizontal plate 120 are not easily loosened.

The power source 200 and the crank 300 are located at both sides of the vertical plate 130, so that the vertical plate 130 is supported therebetween, and the supporting force is not biased to one side, thereby making the structure more stable. The power source 200 in this embodiment is a motor, and the motor can work when being electrified, so that the device is conveniently powered.

The rotating shaft of the motor penetrates through the vertical plate 130, the crank 300 specifically comprises a fixing table 310, a spindle hole 311 is formed in the fixing table 310, the rotating shaft of the power source 200 is fixed in the spindle hole 311 in a clamping and embedding manner, a screw is arranged on the end face of the fixing table 310, and the rotating shaft 210 in the spindle hole 311 is pressed against the screw in a supporting manner. A crank plate 320 is fixedly disposed on the fixed stage 310, specifically, the crank plate 320 and the fixed stage 310 are integrally formed, and the crank plate 320 extends along a radial direction of the rotating shaft of the power source 200. A sliding column 330 is fixedly arranged at one end of the crank plate 320 far away from the fixed platform 310, and the sliding column 330 is welded on the side surface of the fixed platform 310, which faces away from the rotating shaft. The sliding column 330 is connected to the connecting member 400 and slides relative thereto.

The connector 400 specifically includes: a connecting plate 410, a fixing screw 420, and a sliding groove 430. One end of the connecting plate 410 is fixedly connected to the simulated eye assembly 500; the fixing screw 420 is screwed on the connection plate 410 and is used for fixing the connection plate 410 on the simulated eye assembly 500; the sliding groove 430 is formed on a surface of the connecting plate 410 facing the power source 200, and specifically, the sliding groove 430 is a through groove. The sliding column 330 is located in the sliding groove 430 for sliding movement.

The working process is as follows: the motor drives the crank plate 320 to rotate, the sliding column 330 on the crank plate 320 rotates around the axis of the rotating shaft, when the crank plate 320 rotates downwards, the sliding column 330 slides in the sliding groove 430, meanwhile, the sliding groove 430 is pressed downwards, and then the connecting plate 410 is driven to rotate, one end of the connecting plate 410, which is far away from the simulated eye assembly 500, moves downwards, and the connecting plate 410 moves upwards towards one end of the simulated eye assembly 500, and drives the simulated eye assembly 500 to rotate upwards by a certain angle. When the crank plate 320 rotates upward, the sliding post 330 slides in the sliding slot 430, and the sliding slot 430 is lifted upward, so as to drive the connecting plate 410 to rotate, the end of the connecting plate 410 away from the simulated eye assembly 500 moves upward, and the end of the connecting plate 410 facing the simulated eye assembly 500 moves downward, so as to drive the simulated eye assembly 500 to rotate downward by a certain angle. The angle of up-and-down rotation of the simulated eye assembly 500 in this embodiment is 35 °, and the swing speed can be adjusted by controlling the rotation speed of the motor. And the power supply to the motor is suspended, so that the simulated eye assembly 500 can be suspended and rotated for 5s and 1s in the embodiment.

The pulley 440 is sleeved on the sliding column 330, the pulley 440 is positioned in the sliding groove 430, and the pulley 440 is sleeved on the sliding column 330, so that the sliding friction of the sliding column 330 is converted into the rolling friction of the pulley 440, thereby reducing the friction resistance and ensuring the stable operation of the device. It is easily conceivable that the pulley 440 may be replaced with a bearing.

The simulated eye assembly 500 in this embodiment specifically includes: bearing seat 510, connecting shaft 520, fixed block 530, eyeball analogue block 540. The bearing seat 510 is fixedly arranged on the bracket 100, and a bearing is installed in the bearing seat 510. The connecting shaft 520 is inserted into a bearing in the bearing seat 510, the connecting shaft 520 extends along the left-right direction, and one end of the connecting plate 410 is sleeved and fixed on the connecting shaft 520. The fixing blocks 530 are provided in plurality, for example, two fixing blocks 530 are detachably disposed at both ends of the connecting shaft 520, and the eyeball simulation blocks 540 are disposed on the fixing blocks 530 at both sides, respectively. The eyeball analogue block 540 simulates eyes of a model, the connecting shaft 520 can rotate on the bracket 100 through the bearing seat 510, and when the connecting plate 410 swings up and down, the connecting shaft 520 rotates by a certain angle, so that the rotation of the eyeball analogue block 540 is realized.

As shown in fig. 2 and 3, the eyeball simulation block 540 specifically includes: support 541, hemispherical shell 542 and groove 543. An inner cavity is formed in one side of the hemispherical shell 542, which faces the connector 400, that is, an inner cavity is formed in the rear side of the hemispherical shell 542, the supporting plate 541 is fixedly arranged in the inner cavity, and the supporting plate 541 is fixedly connected to the fixing block 530. This simulates an eyeball with a hemispherical shell 542. The groove 543 is opened on the surface of the hemispherical shell 542. The groove 543 can simulate the pupil in the eyeball, so that the model is more vivid.

As shown in fig. 1, in order to facilitate the fixation of the device, the simulated eye rotation device in this embodiment further includes a fixation frame 600, and the fixation frame 600 includes: a fixing frame 610, a plurality of support rods 620, and a connection disc 630. The base 110 is adjustably arranged on the fixed frame 610, specifically, a waist-shaped hole is formed in the base 110 along the vertical direction, and the base 110 is vertically adjusted by penetrating through the waist-shaped hole through a screw. A plurality of the bracing piece 620 is connected through welded fastening on fixed frame 610, the bracing piece 620 extends the setting along the fore-and-aft direction, connection pad 630 is concentric fixed to be set up on bracing piece 620, set up the through-hole that is used for wearing to establish the screw on connection pad 630. Through the fixing frame 600, the device can be conveniently fixed on a wall or a stand column.

To sum up, the utility model provides a simulation eyes rotating device provides power through the power supply, and the power supply drives crank rotation, and its other end slides on the connecting piece when the crank is rotatory, and the connecting axle is in around simulation eyes subassembly under the articulate drive reciprocal swing is made to the turned position on the support, because simulation eyes subassembly is fixed with the connecting piece, drives the reciprocal swing of simulation eyes subassembly when so the connecting piece swings to realize the eyes rotation effect of model, if draw the eyelashes on simulation eyes subassembly, or install the component of simulation eyelid in addition, can simulate out the effect of blinking. The model is vivid through the rotation of eyes, the playing experience of the tourists is increased, the pleasure of the tourists is achieved, and the tourists are attracted.

It is to be understood that the invention is not limited to the above-described embodiments, and that modifications and variations may be made by those skilled in the art in light of the above teachings, and all such modifications and variations are intended to be included within the scope of the invention as defined in the appended claims.

Claims (10)

1. A simulated eye rotation device comprising a support, wherein said simulated eye rotation device further comprises:

the power source is fixedly arranged on the bracket;

one end of the crank is arranged on a rotating shaft of the power source;

the simulated eye assembly is rotatably arranged on the bracket;

the connecting piece, the connecting piece is fixed to be set up on the simulation eyes subassembly, the other end of crank slides and sets up on the connecting piece.

2. The simulated eye rotation apparatus of claim 1 wherein the simulated eye assembly comprises:

the bearing block is fixedly arranged on the bracket, and a bearing is arranged in the bearing block;

the connecting shaft is arranged in a bearing in the bearing seat in a penetrating manner;

the fixed blocks are detachably arranged at two ends of the connecting shaft respectively;

the eyeball simulation blocks are respectively arranged on the fixed blocks at the two sides.

3. The simulated eye rotation apparatus of claim 2 wherein said eye simulator block comprises:

the support plate is fixedly connected to the fixing block

The hemispherical shell is fixedly connected to the support plate;

a recess formed in a surface of the hemispherical shell.

4. The simulated eye rotation apparatus of claim 2 wherein said coupling means comprises:

one end of the connecting plate is sleeved on the connecting shaft;

the fixing screw is screwed on the connecting plate and abuts against the outer wall of the connecting shaft;

the sliding groove is formed in the surface, facing the power source, of the connecting plate.

5. The simulated eye rotation apparatus of claim 4 wherein said crank comprises:

the fixed table is provided with a spindle hole, and a rotating shaft of the power source is clamped and fixed in the spindle hole;

the crank plate is fixedly arranged on the fixed table and extends along the radial direction of the rotating shaft of the power source;

the sliding column is fixedly arranged at one end, far away from the fixed table, of the crank plate and is located in the sliding groove.

6. A simulated eye rotation device as claimed in claim 5, wherein a pulley is sleeved on the sliding column, and the pulley is located in the sliding groove.

7. The simulated eye rotation apparatus of claim 1 wherein said support comprises:

a base;

the transverse plate is adjustably arranged on the base;

the vertical plate is vertically and fixedly arranged on the transverse plate;

the reinforcing plate is fixedly connected to the transverse plate and the vertical plate.

8. The simulated eye rotation device of claim 7 wherein said power source and said crank are located on opposite sides of said riser.

9. The simulated eye rotation device of claim 8 wherein said power source is a motor.

10. The simulated eye rotation apparatus of claim 8 wherein the simulated eye rotation apparatus further comprises a mount, the mount comprising:

the base is adjustably arranged on the fixed frame;

the supporting rods are fixedly connected to the fixing frame;

the connecting disc is concentrically and fixedly arranged on the supporting rod, and a through hole for penetrating a screw is formed in the connecting disc.

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