CN110578747A - Passive drop-shaped two-side synchronous rotating mechanism - Google Patents

Abstract

the invention discloses a passive water-drop-shaped two-side synchronous rotating mechanism which comprises a structural main body, wherein the structural main body consists of a synchronous mechanism, a passive steering mechanism and an auxiliary mechanism, the synchronous mechanism comprises a gear and a rack, the passive steering mechanism comprises a rotating shaft cover and a plurality of groups of movable blocks, and the auxiliary mechanism comprises a U-shaped spring for realizing torsion and locking a screen; the movable block structure is arranged as follows: one of the movable blocks is provided with a side plate sliding groove and a pipe nail which is arranged in a sliding way with the side plate sliding groove to realize displacement required by bending; one of the movable blocks is provided with a movable plate sliding chute and a pipe nail which is arranged in a sliding way with the movable plate sliding chute to realize bending and reserve an avoidance space under the water drop state; one of the movable blocks is provided with an arc rotating shaft to realize seamless transition, the whole structure design is simpler and more effective, the displacement compensation and the screen locking function are met, and the reserved space is reserved under the water drop shape to realize seamless transition in the bending process.

Description

passive drop-shaped two-side synchronous rotating mechanism

Technical Field

the invention relates to the technical field of rotating shaft design, in particular to an inward-folding connecting shaft, and particularly relates to a passive drop-shaped two-side synchronous rotating mechanism.

background

folded screens, referred to as flexible OLEDs. The successful mass production of the folding screen is not only greatly better than the manufacturing of a new generation of high-end smart phone, but also brings profound influence on the application of wearable equipment due to the characteristics of low power consumption and flexibility, and the folding screen can be widely applied along with the continuous penetration of a personal intelligent terminal in the future. The folding screen mobile phone is a mobile phone with a flexible and flexible screen, which is also called as a winding mobile phone because of being shaped like a winding. Compared with the traditional screen, the folding screen has obvious advantages, is lighter and thinner in size, is lower than the original device in power consumption, is beneficial to improving the cruising ability of equipment, and simultaneously has the advantages of being capable of being bent and good in flexibility, greatly higher in durability than the traditional screen and capable of reducing the accidental damage probability of the equipment.

to realize the folding function of the folding screen, besides the screen itself, the design of the connecting component for realizing folding, namely the connecting shaft at the bending position, is also the biggest technical problem. Considering the particularity of the folding screen, the traditional rotating shaft has no way to meet the functional requirements, a special rotating shaft of the folding screen is needed to assist the realization, the folding screen is bent according to the application requirements and is divided into two bending requirements of an outer bending and an outer bending, and the requirement of the inner bending mechanism is higher.

Disclosure of Invention

the invention aims to overcome the defects in the prior art and provide a passive water-drop-shaped two-side synchronous rotating mechanism.

in order to achieve the purpose, the invention adopts the following technical scheme:

the passive water-drop-shaped two-side synchronous rotating mechanism comprises a structural main body, wherein the structural main body consists of a synchronous mechanism, a passive steering mechanism and an auxiliary mechanism, the synchronous mechanism comprises a gear and a rack, the passive steering mechanism comprises a rotating shaft cover and a plurality of groups of movable blocks, and the auxiliary mechanism comprises a U-shaped spring for realizing torsion and locking a screen; the movable block structure is arranged as follows:

One of the movable blocks is provided with a side plate sliding groove and a pipe nail which is arranged in a sliding way with the side plate sliding groove to realize displacement required by bending;

one of the movable blocks is provided with a movable plate sliding chute and a pipe nail which is arranged in a sliding way with the movable plate sliding chute to realize bending and reserve an avoidance space under the water drop state;

one of the movable blocks is provided with an arc rotating shaft to realize seamless transition.

Particularly, the structure main body consists of a synchronous mechanism, a movable tooth steering mechanism and an auxiliary mechanism, the synchronous mechanism comprises a gear and a rack, the driven steering mechanism comprises a rotating shaft cover and a plurality of groups of movable blocks, and the auxiliary mechanism comprises a U-shaped spring for realizing torsion and locking; the movable block structure is arranged as follows:

one of the movable blocks is provided with a side gear set and the rack realizes displacement required by bending;

one of the movable blocks is provided with a movable plate sliding chute and a side plate nail which is arranged in a sliding way with the movable plate sliding chute to realize bending and reserve an avoidance space under the water drop shape;

one of the movable blocks is provided with an arc rotating shaft to realize seamless transition.

Particularly, the structure main body consists of a synchronous mechanism, a movable tooth steering mechanism and an auxiliary mechanism, the synchronous mechanism comprises a gear and a rack, the driven steering mechanism comprises a rotating shaft cover and a plurality of groups of movable blocks, and the auxiliary mechanism comprises a U-shaped spring for realizing torsion and locking; the movable block structure is arranged as follows:

one of the movable blocks is provided with a movable chute and the rotating shaft side plate pipe nail is bent to reserve an avoidance space in a water drop shape;

one of the movable blocks is provided with a rotating shaft side plate arc chute and the movable plate pipe nail to realize bending displacement;

one of the movable blocks comprises a connecting and positioning movable block, and the connecting and positioning movable block comprises an arc rotating shaft for realizing seamless transition.

Particularly, the synchronous mechanism consists of a gear movable block and a rack, and the rack and a gear on the gear movable block synchronously act;

the gear movable block is provided with a pipe nail and comprises a first gear movable block and a second gear movable block;

the passive steering mechanism comprises a rotating shaft cover, a side plate movable block and sliding groove movable blocks with symmetrical two sides, and sliding grooves, pipe nails and movable sliding grooves are arranged on the side plate movable block and the sliding groove movable blocks;

the movable sliding chute and the pipe nail are bent to reserve an avoidance space in a water drop form;

The side plate sliding groove and the pipe nail realize bending displacement;

the movable block comprises a connecting and positioning movable block, and the connecting and positioning movable block comprises an arc rotating shaft for realizing seamless transition circle.

particularly, the synchronous mechanism consists of a gear movable block and a gear, and the gear on the gear movable block act synchronously;

The gear movable block is provided with a pipe nail and comprises a first gear movable block and a second gear movable block;

the passive steering mechanism comprises a rotating shaft cover, a side plate movable block and sliding groove movable blocks with symmetrical two sides, and sliding grooves, pipe nails and movable sliding grooves are arranged on the side plate movable block and the sliding groove movable blocks;

The movable sliding chute and the pipe nail are bent to reserve an avoidance space in a water drop form;

the side plate sliding groove and the pipe nail realize bending displacement;

The movable block comprises a connecting and positioning movable block, and the connecting and positioning movable block comprises an arc rotating shaft for realizing seamless transition.

particularly, the synchronous mechanism consists of a gear movable block and a gear, and the gear on the gear movable block act synchronously;

a pipe nail is arranged on one side of the gear movable block, a sliding groove is arranged on the other side of the gear movable block, and the gear movable block comprises a first gear movable block and a second gear movable block;

the passive steering mechanism comprises a rotating shaft cover, a side plate movable block and sliding groove movable blocks with symmetrical two sides, and sliding grooves, pipe nails and movable sliding grooves are arranged on the side plate movable block and the sliding groove movable blocks;

the movable sliding chute and the pipe nail are bent to reserve an avoidance space in a water drop form;

the side plate sliding groove and the pipe nail realize bending displacement;

The movable block comprises a connecting and positioning movable block, and the connecting and positioning movable block comprises an arc rotating shaft for realizing seamless transition.

particularly, the synchronous mechanism consists of a gear movable block and a gear, and the gear on the gear movable block act synchronously;

One side of the gear movable block is provided with a movable plate pipe nail, the other side of the gear movable block is provided with a rotating shaft sliding chute, and the gear movable block comprises a first gear movable block and a second gear movable block;

the passive steering mechanism comprises a rotating shaft cover, a side plate movable block and sliding groove movable blocks with symmetrical two sides, wherein the side plate movable block and the sliding groove movable blocks are provided with a rotating shaft side plate arc sliding groove, a rotating shaft side plate pipe nail and a movable sliding groove;

the movable sliding chute and the rotating shaft side plate pipe nail are bent to reserve an avoidance space in a water drop shape;

the arc chute of the side plate of the rotating shaft and the pipe nail of the movable plate realize bending displacement;

the movable block comprises a connecting and positioning movable block, and the connecting and positioning movable block comprises an arc rotating shaft for realizing seamless transition.

particularly, the synchronous mechanism consists of a gear movable block and a rack, and the rack and a gear on the gear movable block synchronously act;

The gear movable block comprises a first gear movable block and a second gear movable block;

the passive steering mechanism comprises a rotating shaft cover, a side plate movable block and sliding groove movable blocks with symmetrical two sides, wherein a rotating shaft side plate sliding groove and a movable plate arc are arranged on the side plate movable block and the sliding groove movable blocks;

the movable block comprises an arc movable block, and the arc movable block realizes displacement required by bending and reserves an avoidance space in a water drop form;

the rotating shaft side plate sliding groove and the movable plate arc realize bending displacement;

the movable block comprises a connecting and positioning movable block, and the connecting and positioning movable block comprises an arc rotating shaft for realizing seamless transition.

Particularly, the synchronous mechanism consists of a gear movable block and a gear, and the gear on the gear movable block act synchronously;

the gear movable block comprises a first gear movable block and a second gear movable block;

The passive steering mechanism comprises a rotating shaft cover, a side plate movable block and sliding groove movable blocks with symmetrical two sides, wherein a rotating shaft side plate sliding groove and a movable plate arc are arranged on the side plate movable block and the sliding groove movable blocks;

the movable block comprises an arc movable block, and the arc movable block realizes displacement required by bending and reserves an avoidance space in a water drop form;

the rotating shaft side plate sliding groove and the movable plate arc realize bending displacement;

the movable block comprises a connecting and positioning movable block, and the connecting and positioning movable block comprises an arc rotating shaft for realizing seamless transition.

particularly, the synchronous mechanism consists of a gear movable block and a rack, and the rack and a gear on the gear movable block synchronously act;

The gear movable block comprises a first gear movable block and a second gear movable block;

The passive steering mechanism comprises a rotating shaft cover, a side plate movable block and sliding groove movable blocks with symmetrical two sides, movable teeth and side gears are arranged at two ends of the rotating shaft cover to form a side gear set, and the side plate movable block is provided with a movable plate nail and a rotating shaft side plate circular groove;

The side gear set and the rack realize displacement required by bending;

The movable plate nails and the rotating shaft side plate circular grooves reserve avoidance spaces in a water drop form;

the movable block comprises a connecting and positioning movable block, and the connecting and positioning movable block comprises an arc rotating shaft for realizing seamless transition.

particularly, the synchronous mechanism consists of a gear movable block and a plurality of gears, and the gears on the gear movable block synchronously act;

The gear movable block comprises a first gear movable block and a second gear movable block;

the passive steering mechanism comprises a rotating shaft cover, a side plate movable block and sliding groove movable blocks with symmetrical two sides, movable teeth and side gears are arranged at two ends of the rotating shaft cover to form a side gear set, and the side plate movable block is provided with a movable plate nail and a rotating shaft side plate circular groove;

The side gear set and the rack realize displacement required by bending;

the movable plate nails and the rotating shaft side plate circular grooves reserve avoidance spaces in a water drop form;

The movable block comprises a connecting and positioning movable block, and the connecting and positioning movable block comprises an arc rotating shaft for realizing seamless transition.

particularly, the synchronous mechanism consists of a gear movable block and a rack, and the rack and a gear on the gear movable block synchronously act;

the gear moving block comprises a first gear moving block and a second gear moving block, and a side plate sliding groove is formed in one side of the gear moving block;

the passive steering mechanism comprises a rotating shaft cover, a side plate movable block and sliding groove movable blocks with symmetrical two sides, movable teeth and side gears are arranged at two ends of the rotating shaft cover to form a side gear set, and movable plate nails are arranged on the side plate movable blocks;

the side gear set and the rack realize displacement required by bending;

The movable plate nails and the side plate sliding grooves reserve avoidance spaces in a water drop shape;

the movable block comprises a connecting and positioning movable block, and the connecting and positioning movable block comprises an arc rotating shaft for realizing seamless transition.

particularly, the synchronous mechanism consists of a gear movable block and a plurality of gears, and the gears on the gear movable block synchronously act;

the gear moving block comprises a first gear moving block and a second gear moving block, and a side plate sliding groove is formed in one side of the gear moving block;

the passive steering mechanism comprises a rotating shaft cover, a side plate movable block and sliding groove movable blocks with symmetrical two sides, movable teeth and side gears are arranged at two ends of the rotating shaft cover to form a side gear set, and movable plate nails are arranged on the side plate movable blocks;

The side gear set and the rack realize displacement required by bending;

the movable plate nails and the side plate sliding grooves reserve avoidance spaces in a water drop shape;

the movable block comprises a connecting and positioning movable block, and the connecting and positioning movable block comprises an arc rotating shaft for realizing seamless transition.

Particularly, the synchronous mechanism consists of a gear movable block and a rack, and the rack and a gear on the gear movable block synchronously act;

the gear movable block comprises a first gear movable block and a second gear movable block;

The passive steering mechanism comprises a rotating shaft cover, a side plate movable block and sliding groove movable blocks with symmetrical two sides, moving teeth and side gears are arranged at two ends of the rotating shaft cover to form a side gear set, and a side plate nail and a movable plate sliding groove are arranged on the side plate movable block;

the side gear set and the rack realize displacement required by bending;

the side plate nails and the movable plate sliding grooves reserve avoidance spaces in a water drop shape;

the movable block comprises a connecting and positioning movable block, and the connecting and positioning movable block comprises an arc rotating shaft for realizing seamless transition.

particularly, the synchronous mechanism consists of a gear movable block and a plurality of gears, and the gears on the gear movable block synchronously act;

The gear movable block comprises a first gear movable block and a second gear movable block;

the passive steering mechanism comprises a rotating shaft cover, a side plate movable block and sliding groove movable blocks with symmetrical two sides, moving teeth and side gears are arranged at two ends of the rotating shaft cover to form a side gear set, and a side plate nail and a movable plate sliding groove are arranged on the side plate movable block;

the side gear set and the rack realize displacement required by bending;

The side plate nails and the movable plate sliding grooves reserve avoidance spaces in a water drop shape;

the movable block comprises a connecting and positioning movable block, and the connecting and positioning movable block comprises an arc rotating shaft for realizing seamless transition.

particularly, the movable block comprises a gear movable block, a U-shaped clamping groove is formed in the gear movable block, the U-shaped spring is arranged in the U-shaped clamping groove, a clamping column is arranged in the U-shaped clamping groove, and the clamping column is connected with the U-shaped spring in a penetrating mode.

Particularly, the structure main body is a folding-in synchronous rotating mechanism, the structure main body rotates and bends within the range of 0-180 degrees, two sides are closed inwards, and the inner space sections at two sides of the closed state are in a water drop shape.

The invention has the beneficial effects that: according to the passive water-drop-shaped two-side synchronous rotating mechanism provided by the invention, synchronization is realized through the gear set consisting of the movable teeth, the gear and the rack and the side gear set, a displacement compensation and avoidance space is met through the matching of the sliding chute, the circular arc and the pipe nail of the movable block, and the screen locking function of the U-shaped spring is combined, so that the space is reserved in the water-drop shape and seamless transition in the bending process is realized, the whole structural design is simpler and more effective, and the rotation requirement of the folding screen is met.

drawings

FIG. 1 is a diagram of a passive water-drop-shaped two-side synchronous rotating mechanism of the present invention in a state of being bent by 0 degree;

FIG. 2 is a diagram of the passive water-drop-shaped two-side synchronous rotating mechanism of the present invention bent by 90 degrees;

FIG. 3 is a diagram showing a state that the passive water-drop-shaped two-side synchronous rotating mechanism is bent by 180 degrees;

FIG. 4 is an exploded view of the passive water-drop-shaped two-side synchronous rotating mechanism of the present invention.

FIG. 5 is a second exploded view of the passive water-drop-shaped two-side synchronous rotating mechanism of the present invention.

FIG. 6 is a third exploded view of the passive water-drop-shaped two-side synchronous rotating mechanism of the present invention.

FIG. 7 is a fourth exploded view of the passive water-drop-shaped two-side synchronous rotating mechanism of the present invention.

FIG. 8 is a fifth exploded view of the passive water-drop-shaped two-side synchronous rotating mechanism of the present invention.

FIG. 9 is a sixth exploded view of the passive water-drop-shaped two-side synchronous rotating mechanism of the present invention.

FIG. 10 is a seventh exploded view of the passive water-drop-shaped two-side synchronous rotating mechanism of the present invention.

FIG. 11 is an exploded view of the passive water-drop-shaped two-side synchronous rotating mechanism of the present invention.

FIG. 12 is a ninth exploded view of the passive water-drop-shaped two-side synchronous rotating mechanism of the present invention.

FIG. 13 is a cross-sectional view of the passive drop-shaped two-side synchronous rotating mechanism of the present invention.

FIG. 14 is an exploded view of the passive water-drop-shaped two-side synchronous rotating mechanism of the present invention.

FIG. 15 is a twelfth exploded view of the passive water-drop type two-side synchronous rotating mechanism of the present invention.

Detailed Description

the invention is further described below with reference to the accompanying drawings:

example 1:

as shown in fig. 1 to 15, the passive water-drop-shaped two-side synchronous rotating mechanism disclosed in this embodiment includes a structural main body 101, where the structural main body 101 is composed of a synchronizing mechanism 102, a passive steering mechanism 103, and an auxiliary mechanism 104, where the synchronizing mechanism 102 includes a gear 108 and a rack 109, the passive steering mechanism 103 includes a rotating shaft cover 7 and multiple sets of movable blocks, and the auxiliary mechanism 104 includes a U-spring 6 for implementing torsion and screen locking; the movable block structure is arranged as follows:

one of the movable blocks is provided with a side plate sliding groove 105 and a pipe nail 106 arranged in a sliding way with the side plate sliding groove to realize displacement required by bending; one of the movable blocks is provided with a movable plate chute 107 and a pipe nail 106 arranged in a sliding manner with the movable plate chute to realize bending and reserve an avoidance space in a water drop shape; one of the movable blocks is provided with an arc rotating shaft to realize seamless transition.

the structure body 101 is composed of a synchronous mechanism 102, a movable tooth steering mechanism and an auxiliary mechanism 104, wherein the synchronous mechanism 102 comprises a gear 108 and a rack 109, the passive steering mechanism 103 comprises a rotating shaft cover 7 and a plurality of groups of movable blocks, and the auxiliary mechanism 104 comprises a U-shaped spring 6 for realizing torsion and screen locking; the movable block structure is arranged as follows:

One of the movable blocks is provided with a side gear set and the rack 109 to realize displacement required by bending; one of the movable blocks is provided with a movable plate chute 107 and a side plate nail 110 arranged in a sliding manner with the movable plate chute to realize bending and reserve an avoidance space in a water drop shape; one of the movable blocks is provided with an arc rotating shaft to realize seamless transition.

Or, the structure body 101 is composed of a synchronization mechanism 102, a moving-tooth steering mechanism and an auxiliary mechanism 104, the synchronization mechanism 102 includes a gear 108 and a rack 109, the passive steering mechanism 103 includes a rotating shaft cover 7 and a plurality of groups of moving blocks, and the auxiliary mechanism 104 includes a U-spring 6 for realizing torsion and locking; the movable block structure is arranged as follows:

one of the movable blocks is provided with a movable chute 111 and the rotating shaft side plate pipe nail 112 to realize bending and reserve an avoidance space in a water drop shape;

one of the movable blocks is provided with a rotating shaft side plate arc chute 113 and the movable plate pipe nail 114 to realize bending displacement;

one of the movable blocks comprises a connecting and positioning movable block 1, and the connecting and positioning movable block 1 comprises an arc rotating shaft for realizing seamless transition.

as shown in fig. 4, the synchronization mechanism 102 is composed of a gear moving block and a rack 109, and the rack 109 and a gear 134 on the gear moving block act synchronously;

A clamping groove 303 is arranged on the gear movable block, and the gear movable block comprises a first gear movable block 120 and a second gear movable block 121;

The passive steering mechanism 103 comprises a rotating shaft cover 7, a side plate movable block 8 and sliding groove movable blocks 9 with bilateral symmetry, and a side plate sliding groove 105, a pipe nail 106 and a movable sliding groove 111 are arranged on the side plate movable block 8 and the sliding groove movable blocks 9;

the movable sliding chute 111 and the pipe nail 106 are bent to reserve an avoidance space in a water drop shape;

the side plate sliding groove 105 and the pipe nail 106 realize the bending displacement;

the movable block comprises a connecting and positioning movable block 1, and the connecting and positioning movable block 1 comprises an arc rotating shaft for realizing seamless transition circle.

As shown in fig. 5, the synchronization mechanism 102 is composed of a gear moving block and a gear 108, and the gear 108 and a gear 134 on the gear moving block act synchronously;

a clamping groove 303 is arranged on the gear movable block, and the gear movable block comprises a first gear movable block 120 and a second gear movable block 121;

the passive steering mechanism 103 comprises a rotating shaft cover 7, a side plate movable block 8 and sliding groove movable blocks 9 with bilateral symmetry, and sliding grooves, pipe nails 106 and movable sliding grooves 111 are arranged on the side plate movable block 8 and the sliding groove movable blocks 9;

The movable sliding chute 111 and the pipe nail 106 are bent to reserve an avoidance space in a water drop shape;

the side plate sliding groove 105 and the pipe nail 106 realize the bending displacement;

the movable block comprises a connecting and positioning movable block 1, and the connecting and positioning movable block 1 comprises an arc rotating shaft for realizing seamless transition.

as shown in fig. 6, the synchronization mechanism 102 is composed of a gear moving block and a gear 108, and the gear 108 and a gear 134 on the gear moving block act synchronously;

the gear moving block is provided with a sliding groove 303 and comprises a first gear moving block 120 and a second gear moving block 121;

the passive steering mechanism 103 comprises a rotating shaft cover 7, a side plate movable block 8 and sliding groove movable blocks 9 with bilateral symmetry, and a side plate sliding groove 105, a pipe nail 106 and a movable sliding groove 111 are arranged on the side plate movable block 8 and the sliding groove movable blocks 9;

the movable sliding chute 111 and the pipe nail 106 are bent to reserve an avoidance space in a water drop shape;

the side plate sliding groove 105 and the pipe nail 106 realize the bending displacement;

the movable block comprises a connecting and positioning movable block 1, and the connecting and positioning movable block 1 comprises an arc rotating shaft for realizing seamless transition.

as shown in fig. 7, the synchronization mechanism 102 is composed of a gear moving block and a gear 108, and the gear 108 acts in synchronization with a gear 134 on the gear moving block;

a movable plate pipe nail 114 is arranged on one side of the gear movable block, a rotating shaft sliding groove is arranged on the other side of the gear movable block, and the gear movable block comprises a first gear movable block 120 and a second gear movable block 121;

the passive steering mechanism 103 comprises a rotating shaft cover 7, a side plate movable block 8 and sliding groove movable blocks 9 with bilateral symmetry, wherein a rotating shaft side plate arc sliding groove 113, a rotating shaft side plate pipe nail 112 and a movable sliding groove 111 are arranged on the side plate movable block 8 and the sliding groove movable blocks 9;

The movable sliding chute 111 and the rotating shaft side plate pipe nail 112 are bent to reserve an avoidance space in a water drop shape;

the arc chute 113 of the side plate of the rotating shaft and the pipe nail 114 of the movable plate realize the bending displacement;

the movable block comprises a connecting and positioning movable block 1, and the connecting and positioning movable block 1 comprises an arc rotating shaft for realizing seamless transition.

As shown in fig. 8, the synchronization mechanism 102 is composed of a gear moving block and a rack 109, and the rack 109 and a gear 134 on the gear moving block act synchronously;

the gear moving block comprises a first gear moving block 120 and a second gear moving block 121;

the passive steering mechanism 103 comprises a rotating shaft cover 7, a side plate movable block 8 and sliding groove movable blocks 9 with bilateral symmetry, and a rotating shaft side plate sliding groove 105 and a movable plate arc 160 are arranged on the side plate movable block 8 and the sliding groove movable blocks 9;

the movable block comprises an arc movable block 11, and the arc movable block 11 realizes displacement required by bending and reserves an avoidance space in a water drop form;

the rotating shaft side plate sliding groove 105 and the movable plate arc 160 realize the bending displacement;

The movable block comprises a connecting and positioning movable block 1, and the connecting and positioning movable block 1 comprises an arc rotating shaft for realizing seamless transition.

as shown in fig. 9, the synchronizing mechanism 102 is composed of a gear moving block and a gear 108, and the gear 108 acts in synchronization with a gear 134 on the gear moving block;

The gear moving block comprises a first gear moving block 120 and a second gear moving block 121;

The passive steering mechanism 103 comprises a rotating shaft cover 7, a side plate movable block 8 and sliding groove movable blocks 9 with bilateral symmetry, and a rotating shaft side plate sliding groove 105 and a movable plate arc 160 are arranged on the side plate movable block 8 and the sliding groove movable blocks 9;

the movable block comprises an arc movable block 11, and the arc movable block 11 realizes displacement required by bending and reserves an avoidance space in a water drop form;

the rotating shaft side plate sliding groove 105 and the movable plate arc 160 realize the bending displacement;

the movable block comprises a connecting and positioning movable block 1, and the connecting and positioning movable block 1 comprises an arc rotating shaft for realizing seamless transition.

as shown in fig. 10, the synchronization mechanism 102 is composed of a gear moving block and a rack 109, and the rack 109 and a gear 134 on the gear moving block act synchronously;

the gear moving block comprises a first gear moving block 120 and a second gear moving block 121;

the passive steering mechanism 103 comprises a rotating shaft cover 7, a side plate movable block 8 and sliding groove movable blocks 9 with bilateral symmetry, movable teeth 507 and side gears 508 are arranged at two ends of the rotating shaft cover 7 to form a side gear set, and the side plate movable block 8 is provided with a movable plate nail 206 and a rotating shaft side plate circular groove 207;

the side gear set and the rack 109 realize displacement required by bending;

The movable plate nail 206 and the rotating shaft side plate circular groove 207 realize that an avoidance space is reserved in a water drop shape;

the movable block comprises a connecting and positioning movable block 1, and the connecting and positioning movable block 1 comprises an arc rotating shaft for realizing seamless transition.

as shown in fig. 11, the synchronization mechanism 102 is composed of a gear moving block and a plurality of gears 108, and the gears 108 and the gears 134 on the gear moving block act synchronously;

the gear moving block comprises a first gear moving block 120 and a second gear moving block 121;

The passive steering mechanism 103 comprises a rotating shaft cover 7, a side plate movable block 8 and sliding groove movable blocks 9 with bilateral symmetry, movable teeth 507 and side gears 508 are arranged at two ends of the rotating shaft cover 7 to form a side gear set, and the side plate movable block 8 is provided with a movable plate nail 206 and a rotating shaft side plate circular groove 207;

the side gear set and the rack 109 realize displacement required by bending;

the movable plate nail 206 and the rotating shaft side plate circular groove 207 realize that an avoidance space is reserved in a water drop shape;

the movable block comprises a connecting and positioning movable block 1, and the connecting and positioning movable block 1 comprises an arc rotating shaft for realizing seamless transition.

as shown in fig. 12, the synchronizing mechanism 102 is composed of a gear moving block and a rack 109, and the rack 109 and a gear 134 on the gear moving block act synchronously;

the gear moving block comprises a first gear moving block 120 and a second gear moving block 121, and a side plate sliding groove 105 is formed in one side of the gear moving block;

the passive steering mechanism 103 comprises a rotating shaft cover 7, a side plate movable block 8 and sliding groove movable blocks 9 with bilateral symmetry, movable teeth 507 and side gears 508 are arranged at two ends of the rotating shaft cover 7 to form a side gear set, and a movable plate nail 206 is arranged on the side plate movable block 8;

the side gear set and the rack 109 realize displacement required by bending;

The movable plate nails 206 and the side plate chutes 105 realize that an avoidance space is reserved in a water drop shape;

the movable block comprises a connecting and positioning movable block 1, and the connecting and positioning movable block 1 comprises an arc rotating shaft for realizing seamless transition.

As shown in fig. 13, the synchronization mechanism 102 is composed of a gear moving block and a plurality of gears 108, and the gears 108 and the gears 134 on the gear moving block act synchronously;

The gear moving block comprises a first gear moving block 120 and a second gear moving block 121, and a side plate sliding groove 105 is formed in one side of the gear moving block;

the passive steering mechanism 103 comprises a rotating shaft cover 7, a side plate movable block 8 and sliding groove movable blocks 9 with bilateral symmetry, movable teeth 507 and side gears 508 are arranged at two ends of the rotating shaft cover 7 to form a side gear set, and a movable plate nail 206 is arranged on the side plate movable block 8;

the side gear set and the rack 109 realize displacement required by bending;

the movable plate nails 206 and the side plate chutes 105 realize that an avoidance space is reserved in a water drop shape;

the movable block comprises a connecting and positioning movable block 1, and the connecting and positioning movable block 1 comprises an arc rotating shaft for realizing seamless transition.

as shown in fig. 14, the synchronizing mechanism 102 is composed of a gear moving block and a rack 109, and the rack 109 acts in synchronization with a gear 134 on the gear moving block;

the gear moving block comprises a first gear moving block 120 and a second gear moving block 121;

the passive steering mechanism 103 comprises a rotating shaft cover 7, a side plate movable block 8 and sliding groove movable blocks 9 with bilateral symmetry, two ends of the rotating shaft cover 7 are provided with movable teeth 507 and side gears 508 to form a side gear set, and the side plate movable block 8 is provided with a side plate nail 110 and a movable plate sliding groove 107;

the side gear set and the rack 109 realize displacement required by bending;

the side plate nails 110 and the movable plate sliding grooves 107 realize that avoidance space is reserved in a water drop shape;

the movable block comprises a connecting and positioning movable block 1, and the connecting and positioning movable block 1 comprises an arc rotating shaft for realizing seamless transition.

as shown in fig. 15, the synchronization mechanism 102 is composed of a gear moving block and a plurality of gears 108, and the gears 108 and the gears 134 on the gear moving block act synchronously;

the gear moving block comprises a first gear moving block 120 and a second gear moving block 121;

The passive steering mechanism 103 comprises a rotating shaft cover 7, a side plate movable block 8 and sliding groove movable blocks 9 with bilateral symmetry, two ends of the rotating shaft cover 7 are provided with movable teeth 507 and side gears 508 to form a side gear set, and the side plate movable block 8 is provided with a side plate nail 110 and a movable plate sliding groove 107;

the side gear set and the rack 109 realize displacement required by bending;

The side plate nails 110 and the movable plate sliding grooves 107 realize that avoidance space is reserved in a water drop shape;

The movable block comprises a connecting and positioning movable block 1, and the connecting and positioning movable block 1 comprises an arc rotating shaft for realizing seamless transition.

the applicant further states that the present invention is described in the above embodiments to explain the implementation method and device structure of the present invention, but the present invention is not limited to the above embodiments, i.e. it is not meant to imply that the present invention must rely on the above methods and structures to implement the present invention. It should be understood by those skilled in the art that any modifications to the present invention, the addition of equivalent alternatives to the embodiments of the present invention and steps, the selection of specific modes, etc., are within the scope of the present invention and the disclosure.

the movable block comprises a gear movable block, a U-shaped clamping groove 777 is formed in the gear movable block, the U-shaped spring 6 is arranged in the U-shaped clamping groove 777, a clamping column 778 is arranged in the U-shaped clamping groove 777, and the clamping column 778 is connected with the U-shaped spring 6 in a penetrating mode. The structure main body 101 is a folding-in synchronous rotating mechanism, the structure main body 101 rotates and bends within a range of 0-180 degrees, two sides are closed inwards, and the inner space sections on two sides of the closed state are in a water drop shape.

the above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the present invention, so that the equivalent changes or modifications of the structure, features and principles of the present invention by those skilled in the art should fall within the protection scope of the present invention.

Claims (17)

1. passive form water droplet shape both sides synchronous slewing mechanism, its characterized in that: the device comprises a structure main body, wherein the structure main body consists of a synchronous mechanism, a passive steering mechanism and an auxiliary mechanism, the synchronous mechanism comprises a gear and a rack, the passive steering mechanism comprises a rotating shaft cover and a plurality of groups of movable blocks, and the auxiliary mechanism comprises a U-shaped spring for realizing torsion and screen locking; the movable block structure is arranged as follows:

one of the movable blocks is provided with a side plate sliding groove and a pipe nail which is arranged in a sliding way with the side plate sliding groove to realize displacement required by bending;

One of the movable blocks is provided with a movable plate sliding chute and a pipe nail which is arranged in a sliding way with the movable plate sliding chute to realize bending and reserve an avoidance space under the water drop state;

one of the movable blocks is provided with an arc rotating shaft to realize seamless transition.

2. the passive water drop-shaped two-side synchronous rotating mechanism according to claim 1, wherein:

The structure main body consists of a synchronous mechanism, a movable tooth steering mechanism and an auxiliary mechanism, wherein the synchronous mechanism comprises a gear and a rack, the driven steering mechanism comprises a rotating shaft cover and a plurality of groups of movable blocks, and the auxiliary mechanism comprises a U-shaped spring for realizing torsion and screen locking; the movable block structure is arranged as follows:

one of the movable blocks is provided with a side gear set and the rack realizes displacement required by bending;

one of the movable blocks is provided with a movable plate sliding chute and a side plate nail which is arranged in a sliding way with the movable plate sliding chute to realize bending and reserve an avoidance space under the water drop shape;

One of the movable blocks is provided with an arc rotating shaft to realize seamless transition.

3. the passive water drop-shaped two-side synchronous rotating mechanism according to claim 1, wherein:

The structure main body consists of a synchronous mechanism, a movable tooth steering mechanism and an auxiliary mechanism, wherein the synchronous mechanism comprises a gear and a rack, the driven steering mechanism comprises a rotating shaft cover and a plurality of groups of movable blocks, and the auxiliary mechanism comprises a U-shaped spring for realizing torsion and screen locking; the movable block structure is arranged as follows:

one of the movable blocks is provided with a movable chute and the rotating shaft side plate pipe nail is bent to reserve an avoidance space in a water drop shape;

One of the movable blocks is provided with a rotating shaft side plate arc chute and the movable plate pipe nail to realize bending displacement;

one of the movable blocks comprises a connecting and positioning movable block, and the connecting and positioning movable block comprises an arc rotating shaft for realizing seamless transition.

4. the passive water drop-shaped two-side synchronous rotating mechanism according to claim 1, characterized in that:

the synchronous mechanism consists of a gear movable block and a rack, and the rack and a gear on the gear movable block synchronously act;

The gear movable block is provided with a pipe nail and comprises a first gear movable block and a second gear movable block;

the passive steering mechanism comprises a rotating shaft cover, a side plate movable block and sliding groove movable blocks with symmetrical two sides, and sliding grooves, pipe nails and movable sliding grooves are arranged on the side plate movable block and the sliding groove movable blocks;

the movable sliding chute and the pipe nail are bent to reserve an avoidance space in a water drop form;

The side plate sliding groove and the pipe nail realize bending displacement;

The movable block comprises a connecting and positioning movable block, and the connecting and positioning movable block comprises an arc rotating shaft for realizing seamless transition circle.

5. the passive water drop-shaped two-side synchronous rotating mechanism according to claim 1, characterized in that:

The synchronous mechanism consists of a gear movable block and a gear, and the gear on the gear movable block act synchronously;

The gear movable block is provided with a pipe nail and comprises a first gear movable block and a second gear movable block;

the passive steering mechanism comprises a rotating shaft cover, a side plate movable block and sliding groove movable blocks with symmetrical two sides, and sliding grooves, pipe nails and movable sliding grooves are arranged on the side plate movable block and the sliding groove movable blocks;

the movable sliding chute and the pipe nail are bent to reserve an avoidance space in a water drop form;

the side plate sliding groove and the pipe nail realize bending displacement;

the movable block comprises a connecting and positioning movable block, and the connecting and positioning movable block comprises an arc rotating shaft for realizing seamless transition.

6. the passive water drop-shaped two-side synchronous rotating mechanism according to claim 1, characterized in that:

the synchronous mechanism consists of a gear movable block and a gear, and the gear on the gear movable block act synchronously;

a pipe nail is arranged on one side of the gear movable block, a sliding groove is arranged on the other side of the gear movable block, and the gear movable block comprises a first gear movable block and a second gear movable block;

the passive steering mechanism comprises a rotating shaft cover, a side plate movable block and sliding groove movable blocks with symmetrical two sides, and sliding grooves, pipe nails and movable sliding grooves are arranged on the side plate movable block and the sliding groove movable blocks;

the movable sliding chute and the pipe nail are bent to reserve an avoidance space in a water drop form;

The side plate sliding groove and the pipe nail realize bending displacement;

the movable block comprises a connecting and positioning movable block, and the connecting and positioning movable block comprises an arc rotating shaft for realizing seamless transition.

7. the passive water drop-shaped two-side synchronous rotating mechanism according to claim 1, characterized in that:

the synchronous mechanism consists of a gear movable block and a gear, and the gear on the gear movable block act synchronously;

One side of the gear movable block is provided with a movable plate pipe nail, the other side of the gear movable block is provided with a rotating shaft sliding chute, and the gear movable block comprises a first gear movable block and a second gear movable block;

the passive steering mechanism comprises a rotating shaft cover, a side plate movable block and sliding groove movable blocks with symmetrical two sides, wherein the side plate movable block and the sliding groove movable blocks are provided with a rotating shaft side plate arc sliding groove, a rotating shaft side plate pipe nail and a movable sliding groove;

the movable sliding chute and the rotating shaft side plate pipe nail are bent to reserve an avoidance space in a water drop shape;

The arc chute of the side plate of the rotating shaft and the pipe nail of the movable plate realize bending displacement;

the movable block comprises a connecting and positioning movable block, and the connecting and positioning movable block comprises an arc rotating shaft for realizing seamless transition.

8. The passive water drop-shaped two-side synchronous rotating mechanism according to claim 1, characterized in that:

the synchronous mechanism consists of a gear movable block and a rack, and the rack and a gear on the gear movable block synchronously act;

the gear movable block comprises a first gear movable block and a second gear movable block;

the passive steering mechanism comprises a rotating shaft cover, a side plate movable block and sliding groove movable blocks with symmetrical two sides, wherein a rotating shaft side plate sliding groove and a movable plate arc are arranged on the side plate movable block and the sliding groove movable blocks;

the movable block comprises an arc movable block, and the arc movable block realizes displacement required by bending and reserves an avoidance space in a water drop form;

the rotating shaft side plate sliding groove and the movable plate arc realize bending displacement;

the movable block comprises a connecting and positioning movable block, and the connecting and positioning movable block comprises an arc rotating shaft for realizing seamless transition.

9. The passive water drop-shaped two-side synchronous rotating mechanism according to claim 1, characterized in that:

the synchronous mechanism consists of a gear movable block and a gear, and the gear on the gear movable block act synchronously;

the gear movable block comprises a first gear movable block and a second gear movable block;

the passive steering mechanism comprises a rotating shaft cover, a side plate movable block and sliding groove movable blocks with symmetrical two sides, wherein a rotating shaft side plate sliding groove and a movable plate arc are arranged on the side plate movable block and the sliding groove movable blocks;

the movable block comprises an arc movable block, and the arc movable block realizes displacement required by bending and reserves an avoidance space in a water drop form;

the rotating shaft side plate sliding groove and the movable plate arc realize bending displacement;

the movable block comprises a connecting and positioning movable block, and the connecting and positioning movable block comprises an arc rotating shaft for realizing seamless transition.

10. the passive water drop-shaped two-side synchronous rotating mechanism according to claim 1, characterized in that:

The synchronous mechanism consists of a gear movable block and a rack, and the rack and a gear on the gear movable block synchronously act;

the gear movable block comprises a first gear movable block and a second gear movable block;

the passive steering mechanism comprises a rotating shaft cover, a side plate movable block and sliding groove movable blocks with symmetrical two sides, movable teeth and side gears are arranged at two ends of the rotating shaft cover to form a side gear set, and the side plate movable block is provided with a movable plate nail and a rotating shaft side plate circular groove;

The side gear set and the rack realize displacement required by bending;

the movable plate nails and the rotating shaft side plate circular grooves reserve avoidance spaces in a water drop form;

The movable block comprises a connecting and positioning movable block, and the connecting and positioning movable block comprises an arc rotating shaft for realizing seamless transition.

11. the passive water drop-shaped two-side synchronous rotating mechanism according to claim 1, characterized in that:

the synchronous mechanism consists of a gear movable block and a plurality of gears, and the gears on the gear movable block synchronously act;

the gear movable block comprises a first gear movable block and a second gear movable block;

the passive steering mechanism comprises a rotating shaft cover, a side plate movable block and sliding groove movable blocks with symmetrical two sides, movable teeth and side gears are arranged at two ends of the rotating shaft cover to form a side gear set, and the side plate movable block is provided with a movable plate nail and a rotating shaft side plate circular groove;

the side gear set and the rack realize displacement required by bending;

The movable plate nails and the rotating shaft side plate circular grooves reserve avoidance spaces in a water drop form;

the movable block comprises a connecting and positioning movable block, and the connecting and positioning movable block comprises an arc rotating shaft for realizing seamless transition.

12. the passive water drop-shaped two-side synchronous rotating mechanism according to claim 1, characterized in that:

the synchronous mechanism consists of a gear movable block and a rack, and the rack and a gear on the gear movable block synchronously act;

the gear moving block comprises a first gear moving block and a second gear moving block, and a side plate sliding groove is formed in one side of the gear moving block;

the passive steering mechanism comprises a rotating shaft cover, a side plate movable block and sliding groove movable blocks with symmetrical two sides, movable teeth and side gears are arranged at two ends of the rotating shaft cover to form a side gear set, and movable plate nails are arranged on the side plate movable blocks;

the side gear set and the rack realize displacement required by bending;

the movable plate nails and the side plate sliding grooves reserve avoidance spaces in a water drop shape;

the movable block comprises a connecting and positioning movable block, and the connecting and positioning movable block comprises an arc rotating shaft for realizing seamless transition.

13. the passive water drop-shaped two-side synchronous rotating mechanism according to claim 1, characterized in that:

the synchronous mechanism consists of a gear movable block and a plurality of gears, and the gears on the gear movable block synchronously act;

the gear moving block comprises a first gear moving block and a second gear moving block, and a side plate sliding groove is formed in one side of the gear moving block;

the passive steering mechanism comprises a rotating shaft cover, a side plate movable block and sliding groove movable blocks with symmetrical two sides, movable teeth and side gears are arranged at two ends of the rotating shaft cover to form a side gear set, and movable plate nails are arranged on the side plate movable blocks;

the side gear set and the rack realize displacement required by bending;

the movable plate nails and the side plate sliding grooves reserve avoidance spaces in a water drop shape;

the movable block comprises a connecting and positioning movable block, and the connecting and positioning movable block comprises an arc rotating shaft for realizing seamless transition.

14. the passive water drop-shaped two-side synchronous rotating mechanism according to claim 1, characterized in that:

the synchronous mechanism consists of a gear movable block and a rack, and the rack and a gear on the gear movable block synchronously act;

the gear movable block comprises a first gear movable block and a second gear movable block;

the passive steering mechanism comprises a rotating shaft cover, a side plate movable block and sliding groove movable blocks with symmetrical two sides, moving teeth and side gears are arranged at two ends of the rotating shaft cover to form a side gear set, and a side plate nail and a movable plate sliding groove are arranged on the side plate movable block;

The side gear set and the rack realize displacement required by bending;

the side plate nails and the movable plate sliding grooves reserve avoidance spaces in a water drop shape;

The movable block comprises a connecting and positioning movable block, and the connecting and positioning movable block comprises an arc rotating shaft for realizing seamless transition.

15. The passive water drop-shaped two-side synchronous rotating mechanism according to claim 1, characterized in that:

the synchronous mechanism consists of a gear movable block and a plurality of gears, and the gears on the gear movable block synchronously act;

the gear movable block comprises a first gear movable block and a second gear movable block;

the passive steering mechanism comprises a rotating shaft cover, a side plate movable block and sliding groove movable blocks with symmetrical two sides, moving teeth and side gears are arranged at two ends of the rotating shaft cover to form a side gear set, and a side plate nail and a movable plate sliding groove are arranged on the side plate movable block;

the side gear set and the rack realize displacement required by bending;

the side plate nails and the movable plate sliding grooves reserve avoidance spaces in a water drop shape;

the movable block comprises a connecting and positioning movable block, and the connecting and positioning movable block comprises an arc rotating shaft for realizing seamless transition.

16. The passive water drop-shaped two-side synchronous rotating mechanism according to claim 1, characterized in that:

the movable block includes the gear movable block, be equipped with U type draw-in groove on the gear movable block, the U spring set up in the U type draw-in groove, including the card post in the U type draw-in groove, the card post with the U spring pierces through and is connected.

17. the passive water drop-shaped two-side synchronous rotating mechanism according to claim 1, characterized in that:

The structure main body is an inward-folding synchronous rotating mechanism, the structure main body rotates and bends within a range of 0-180 degrees, two sides of the structure main body are closed inwards, and the inner space sections on two sides of the structure main body in a closed state are in a water drop shape.