CN114772012A

CN114772012A - Electron product accessories magnetism gradual change bradyseism transportation protection spare

Info

Publication number: CN114772012A
Application number: CN202210707756.4A
Authority: CN
Inventors: 刘益平; 王卓辉; 郑双喜
Original assignee: Hangzhou Zhenlin Network Technology Co ltd
Current assignee: Hangzhou Zhenlin Network Technology Co ltd
Priority date: 2022-06-22
Filing date: 2022-06-22
Publication date: 2022-07-22
Anticipated expiration: 2042-06-22
Also published as: CN114772012B

Abstract

The invention discloses a magnetic gradual change cushioning transportation protection piece for an electronic product accessory, which comprises a cushioning magnetic gradual change regulation and control protection device, a multi-dimensional driving device and a base, wherein one end of the multi-dimensional driving device is arranged on the base, and the cushioning magnetic gradual change regulation and control protection device is arranged on the multi-dimensional driving device. The invention belongs to the technical field of electronic product accessory transportation equipment, and particularly relates to a magnetic gradual change cushioning transportation protection part for an electronic product accessory, which utilizes the Curie temperature of a magnetic part to regulate and control the strength of magnetism of the magnetic part, and realizes the buffering of the electronic product accessory by superposing magnetic enhanced repulsive force; meanwhile, folding storage and state conversion are carried out in a blocking combination and multi-dimensional space adjustment mode based on a merging principle, folding storage is achieved through portable multi-angle adjustment in the space dimension in a small space posture, and convenience in transportation and use is achieved.

Description

Electron product accessories magnetism gradual change bradyseism transportation protection spare

Technical Field

The invention belongs to the technical field of electronic product accessory transportation equipment, and particularly relates to a magnetic gradual change cushioning transportation protection part for an electronic product accessory.

Background

With the rapid development of science and technology in the current society, electronic products can provide a great deal of convenience for the life of people, so that the life of people is more and more unable to leave the electronic products, the internal structural components of the electronic products are precise, most of the electronic products have higher value, and the electronic product accessories need to be protected in the transportation process of the electronic product accessories; present platy electronic product conveyer, can transversely and vertically carry out the shock attenuation to the box, the stability of box in the assurance, thereby the security of the inside electronic product accessory of box in the assurance, avoid the damage of electronic product accessory, though can provide the shock attenuation for the box, guarantee the stability of electronic product accessory to a certain extent, but the electronic product accessory is not firm fixed, probably take out at will, and electronic product accessory self is not restricted in the box, in the transportation, the electronic product accessory probably removes and damages in the box.

Disclosure of Invention

Aiming at the situation and overcoming the defects of the prior art, the invention provides a magnetic gradual-change cushioning transportation protection part for an electronic product accessory, aiming at solving the contradiction that the electronic product accessory needs to be protected flexibly and rigidly against external force impact, a cushioning magnetic gradual-change regulation and control protection device is adopted, the Curie temperature of a magnetic part is utilized to regulate and control the strength of the magnetism of the magnetic part, and when the vibration force is overlarge, the electronic product accessory is buffered by superposing a magnetic enhanced repulsive force to prevent the rigid impact from damaging the electronic product accessory; meanwhile, folding storage and state transition are carried out through a mode of block combination and multi-dimensional space adjustment based on a merging principle, folding storage is achieved through portable multi-angle adjustment in the space dimension in a small space posture, and convenience in transportation and use is achieved.

The technical scheme adopted by the invention is as follows: the invention provides a magnetic gradual change cushioning transportation protection part for an electronic product accessory, which comprises a cushioning magnetic gradual change regulation and control protection device, a multi-dimensional driving device and a base, wherein one end of the multi-dimensional driving device is arranged on the base; the cushioning magnetic gradual change regulation and control protection device comprises a stacked cushioning magnetic gradual change protection shell, a stacked cushioning magnetic gradual change protection component, a stacked cushioning anti-blocking piece and a state transition multipurpose connecting component, wherein the state transition multipurpose connecting component is connected with a multi-dimensional driving device, the stacked cushioning magnetic gradual change protection shell is connected with the state transition multipurpose connecting component, the multi-dimensional driving device drives the state transition multipurpose connecting component, the state transition multipurpose connecting component plays a connecting role on the stacked cushioning magnetic gradual change protection shell, the stacked cushioning anti-blocking piece is movably arranged on the stacked cushioning magnetic gradual change protection shell, the stacked cushioning magnetic gradual change protection component is arranged in the stacked cushioning magnetic gradual change protection shell and the stacked cushioning anti-blocking piece, and the stacked cushioning magnetic gradual change protection shell supports and fixes the stacked cushioning magnetic gradual change protection component, the stacked cushioning magnetic gradient protection component is used for protecting and connecting accessories of electronic products.

Preferably, the stacked cushioning magnetic gradient protection assembly comprises two sets of stacked cushioning magnetic gradient components, namely a stacked cushioning magnetic gradient component I and a stacked cushioning magnetic gradient component II, the stacked cushioning magnetic gradient component I is arranged in a stacked cushioning magnetic gradient protection shell, the stacked cushioning magnetic gradient protection shell supports and fixes the stacked cushioning magnetic gradient component I, the stacked cushioning magnetic gradient component II is arranged in a stacked cushioning anti-blocking component, the stacked cushioning anti-blocking component supports and fixes the stacked cushioning magnetic gradient component II, the stacked cushioning magnetic gradient component I and the stacked cushioning magnetic gradient component II are both provided with magnetic magnets, and the magnetism can be reduced according to the rise of the temperature, according to the Curie temperature of the magnet, when the temperature in the first superposition type cushioning magnetic gradual change piece and the second superposition type cushioning magnetic gradual change piece reaches 103-105 ℃, the magnetic transition point of the magnet is reached, the magnetism is completely disappeared, and after the temperature is reduced, the magnetism is recovered, for example, a temperature control device at the bottom of an electric rice cooker is a magnet which utilizes the Curie temperature of the magnet and can recover the magnetism after the temperature is reduced; the cushioning magnetic parts are provided with two groups, namely a cushioning magnetic part I and a cushioning magnetic part II, the cushioning magnetic part I is arranged in the stacked cushioning magnetic gradient protective shell, the cushioning magnetic part I is arranged close to the stacked cushioning magnetic gradient part I, the stacked cushioning magnetic gradient protective shell supports and fixes the cushioning magnetic part I, the cushioning magnetic part II is arranged in the stacked cushioning anti-blocking part, the cushioning magnetic part II is arranged close to the stacked cushioning magnetic gradient part II, the stacked cushioning anti-blocking part supports and fixes the cushioning magnetic part II, the magnetism of the cushioning magnetic part I is different from that of the stacked cushioning magnetic gradient part I, the magnetism of the cushioning magnetic part II is different from that of the stacked cushioning magnetic gradient part II, when the cushioning magnetic part I or the cushioning magnetic part II is shaken to a large degree, the cushioning magnetic part I is close to the stacked cushioning magnetic gradient part I, the first cushioning magnetic part and the first stacked cushioning magnetic gradient part attract each other to form a whole, the magnetism is enhanced, the second cushioning magnetic part is close to the second stacked cushioning magnetic gradient part, and the second cushioning magnetic part and the second stacked cushioning magnetic gradient part attract each other to form a whole, so that the magnetism is enhanced; the temporary buffering storage piece is movably arranged in the stacked buffering magnetic gradient protection shell, and the stacked buffering magnetic gradient protection shell and the stacked buffering anti-blocking piece protect and buffer the temporary buffering storage piece; the electronic product accessory that needs the transportation locates in the bradyseism temporary storage piece, after the bradyseism temporary storage piece that will have the electronic product accessory locates stack formula bradyseism magnetism gradual change protecting crust, stack formula bradyseism anti-blocking piece injects stack formula bradyseism magnetism gradual change protecting crust in, seal stack formula bradyseism magnetism gradual change protecting crust, the lateral wall of bradyseism temporary storage piece is close to bradyseism magnetism spare one and the setting of bradyseism magnetism spare two, bradyseism magnetism spare one and bradyseism magnetism spare two pass mutual repulsion force and realize the balanced buffering and fixing of bradyseism temporary storage piece.

Preferably, the temporary buffering and storing part is movably provided with a plugging and fixing part, the plugging and fixing part can be taken down from the temporary buffering and storing part and is convenient for taking and storing electronic product accessories, the side walls of the temporary buffering and storing part and the plugging and fixing part are internally provided with a magnetic part III, a temporary storing cavity is arranged in the temporary buffering and storing part, the magnetism of the first buffering and storing magnetic part I and the magnetism of the second buffering and storing magnetic part II are the same as the magnetism of the magnetic part III, and after the temporary buffering and storing part storing the electronic product accessories is arranged in the stacked magnetic buffering gradient protecting shell, the magnetic part III is arranged between the first buffering and storing magnetic parts I and the second buffering and storing magnetic part and the repulsive force of the first buffering and storing magnetic part II and the repulsive force of the first buffering and storing magnetic part to the first buffering and storing magnetic part is the first buffering and storing magnetic part; a first spring for balancing and a first electric heating wire are arranged in the first stacked cushioning magnetic gradient piece, one end of the first spring for balancing penetrates through the first stacked cushioning magnetic gradient piece to be connected with the first stacked cushioning magnetic gradient protective shell, and the other end of the first spring for balancing is connected with one end of the first cushioning magnetic gradient piece; when the attraction between the first stacked cushioning magnetic gradient piece and the first cushioning magnetic gradient piece is smaller than the elastic force of the first balance spring after being compressed, the first stacked cushioning magnetic gradient piece and the first cushioning magnetic gradient piece are pushed by the first balance spring to be separated; a first heat insulation pad is arranged on the first stacked cushioning magnetic gradient piece; the first cushioning magnetic part is provided with a second heat insulation pad, the second heat insulation pad and the first heat insulation pad are arranged oppositely to prevent the temperature of the first heating stacked cushioning magnetic gradient part from being conducted into electronic product accessories, a first elastic connecting piece is arranged between the first cushioning magnetic part and the stacked cushioning magnetic gradient protective shell and can buffer the vibration borne by the electronic product accessories, when the vibration force is too large, in order to prevent rigid impact from damaging the electronic product accessories, the first elastic connecting piece can deform under the driving force of the first cushioning magnetic part to leave a moving space for the cushioning temporary storage part and weaken the impact force, and meanwhile, the first cushioning magnetic part can approach to the first stacked cushioning magnetic gradient part until the first cushioning magnetic gradient part is connected with the first stacked cushioning magnetic gradient part in an adsorption manner, the first cushioning magnetic part and the first stacked cushioning magnetic gradient part are attracted into a whole, and the magnetism is strengthened, the repulsive force of the magnetic piece III is enhanced, the buffering temporary storage piece is repelled, and the buffering temporary storage piece is subjected to damping buffering again; a second balance spring and a second electric heating wire are arranged in the second stacked cushioning magnetic transition piece, one end of the second balance spring penetrates through the second stacked cushioning magnetic transition piece to be connected with the second stacked cushioning anti-blocking piece, and the other end of the second balance spring is connected with one end of the second cushioning magnetic transition piece; when the attraction between the second stacked cushioning magnetic gradient component and the second cushioning magnetic gradient component is smaller than the elastic force of the second balancing spring after the second balancing spring pushes the second stacked cushioning magnetic gradient component and the second cushioning magnetic gradient component to separate; a third heat insulation pad is arranged on the second stacked cushioning magnetic transition piece; the second cushioning magnetic part is provided with a fourth heat insulation pad, the third heat insulation pad is arranged opposite to the fourth heat insulation pad, the temperature of the heated second stacked cushioning magnetic transition part is prevented from being transmitted to the electronic product accessories, a second elastic connecting piece is arranged between the second cushioning magnetic part and the stacked cushioning anti-blocking part, the second elastic connecting piece can buffer the vibration borne by the electronic product accessories, when the vibration force is too large, in order to prevent rigid impact from damaging the electronic product accessories, the second elastic connecting piece can deform under the driving force of the second cushioning magnetic part, a moving space is reserved for the temporary cushioning storage part to weaken the impact force, and meanwhile, the second cushioning magnetic part can approach the second stacked cushioning magnetic transition part until the second cushioning magnetic transition part is connected in an adsorption manner; the second cushioning magnetic part and the second stacked cushioning magnetic gradual change part attract each other to become a whole, the magnetism is enhanced, the repulsive force to the third magnetic part is enhanced, the temporary cushioning storage part is repelled, and the temporary cushioning storage part is cushioned and buffered again.

The state-transition multipurpose connecting assembly comprises a state-transition fixing buckle, a state-transition clamping piece, a state-transition connecting piece I and a state-transition connecting piece II, wherein the state-transition connecting piece I and the state-transition connecting piece II are arranged on a multidimensional driving device, the multidimensional driving device supports and drives the state-transition connecting piece I and the state-transition connecting piece II, the state-transition fixing buckle and the state-transition clamping piece are arranged on a stacked cushioning magnetic gradient protective shell, the state-transition fixing buckle and the state-transition clamping piece are hinged and connected, and the stacked cushioning magnetic gradient protective shell is movably hinged to the state-transition connecting piece I and the state-transition connecting piece II; the stacked cushioning magnetic gradient protective shell is movably connected through the fixed buckle for state adjustment, the clamping piece for state adjustment, the first connecting piece for state transition and the second connecting piece for state transition, and simultaneously achieves driving and limiting effects among the two through the fixed buckle for state adjustment, the clamping piece for state adjustment, the first connecting piece for state transition and the second connecting piece for state transition.

Further, the multidimensional driving device comprises a nested transverse adjustment driving device, a nested longitudinal adjustment driving device and an oblique adjustment driving device, one end of the nested longitudinal adjusting driving device is arranged on the base, the base supports and fixes the nested longitudinal adjusting driving device, the utility model discloses a portable protection transportation device of stack formula bradyseism magnetism gradual change protecting crust, including slant adjustment drive arrangement, nested formula vertical adjustment drive arrangement, nested formula horizontal adjustment drive arrangement, slant adjustment drive arrangement, nested formula vertical adjustment drive arrangement, nested formula horizontal adjustment drive arrangement, nested formula vertical adjustment drive arrangement, nested formula bradyseism magnetism gradual change protecting crust is used for adjusting the conversion of this device spatial state, slant adjustment drive arrangement is used for adjusting stack formula bradyseism magnetism gradual change protecting crust slant angle, provides convenience for realizing portable protection transportation of stack formula bradyseism magnetism gradual change protecting crust.

Preferably, the nested longitudinal adjustment driving device comprises a nested longitudinal adjustment fixing kit, a first hydraulic rod, a connecting member and a nested longitudinal adjustment telescopic kit, wherein one end of the first hydraulic rod is arranged on the base, one end of the nested longitudinal adjustment fixing kit is arranged on the base, the base supports and fixes the first hydraulic rod and the nested longitudinal adjustment fixing kit, the nested longitudinal adjustment fixing kit is arranged between the first hydraulic rods, one end of the nested longitudinal adjustment telescopic kit is arranged in the nested longitudinal adjustment fixing kit, the oblique adjustment driving device is arranged on the other end of the nested longitudinal adjustment telescopic kit, one end of the connecting member is connected with the other end of the first hydraulic rod, the other end of the connecting member is connected with the other end of the nested longitudinal adjustment telescopic kit, and a fixing block is arranged on the base, the fixed block is connected with the nested longitudinal adjusting and fixing external member and the first hydraulic rod, and the nested longitudinal adjusting and fixing external member and the first hydraulic rod are supported and fixed by the fixed block; the first hydraulic rod drives the nested longitudinal adjustment telescopic external member to extend or shorten in the vertical direction through the connecting member, and the nested longitudinal adjustment telescopic external member pushes the nested transverse adjustment driving device and the inclined adjustment driving device to lift or descend in the vertical direction.

Preferably, the slant adjustment driving device comprises a rotating shaft, a slant adjustment motor, a motor supporting seat and a slant adjustment driving member, the motor supporting seat is arranged on the nested longitudinal adjustment telescopic external member, the nested longitudinal adjustment telescopic external member supports and fixes the motor supporting seat, the slant adjustment motor is arranged on the motor supporting seat, the motor supporting seat supports and fixes the slant adjustment motor, the rotating shaft is movably arranged at the other end of the nested longitudinal adjustment telescopic external member in a penetrating manner, the slant adjustment driving member is fixedly connected with the rotating shaft, the nested transverse adjustment driving device is arranged on the slant adjustment driving member, the rotating shaft is connected with the output end of the slant adjustment motor, the slant adjustment motor is a positive and negative rotation motor, the slant adjustment motor operates to drive the rotating shaft to rotate, and the rotating shaft drives the slant adjustment driving member to adjust the inclined angle and direction, the slant adjustment driving piece drives the nested transverse adjustment driving device to adjust the inclined angle and direction, so that the shock-absorbing temporary storage piece can be taken and stored conveniently.

Wherein, nested formula transverse adjustment drive arrangement includes the flexible external member of nested formula transverse adjustment, the fixed external member of nested formula transverse adjustment, two hydraulic stems, two articulated seats of nested formula transverse adjustment, nested formula transverse adjustment driving piece and two articulated seats of hydraulic stem, two articulated seats of hydraulic stem are located on the slant adjustment driving piece, the one end swing joint of two hydraulic stems is located on two articulated seats of hydraulic stem, and the slant adjustment driving piece supports fixedly two articulated seats of hydraulic stem, and two articulated seats of hydraulic stem support fixedly two hydraulic stem, the other end of nested formula transverse adjustment driving piece sets up with the other end swing joint of two hydraulic stem, and two pairs of nested formula transverse adjustment driving pieces of hydraulic stem play support fixed drive effect, the one end swing joint of nested formula transverse adjustment driving piece locates the other end of nested formula transverse adjustment driving piece and the other end junction of two hydraulic stem, the nested transverse adjustment driving member is provided with a plurality of groups, a plurality of groups are arranged, the end parts of the nested transverse adjustment driving member are sequentially arranged in an articulated manner, one end of the nested transverse adjustment fixing external member is arranged on the oblique adjustment driving member, the oblique adjustment driving member plays a role in supporting and fixing the nested transverse adjustment fixing external member, one end of the nested transverse adjustment telescopic external member is movably arranged in the nested transverse adjustment fixing external member, the first state-transition connecting member is arranged on the nested transverse adjustment telescopic external member, the second state-transition connecting member is arranged on the end part of the nested transverse adjustment telescopic external member and is far away from the oblique adjustment driving member, the end part of the stacked buffering magnetic gradient protection shell is movably arranged on the nested transverse adjustment fixing external member in an articulated manner, one end of the nested transverse adjustment driving member, the first state-transition connecting member and the second state-transition connecting member, the stacked cushioning magnetic gradual-change protective shell is provided with a plurality of groups, one end of the stacked cushioning magnetic gradual-change protective shell close to the inclined adjusting driving piece is hinged to the nested transverse adjusting fixed external member and one end of the nested transverse adjusting driving piece, one end of the stacked cushioning magnetic gradual-change protective shell at the outermost side is hinged to the second connecting piece for state transition, and the other end of the stacked cushioning magnetic gradual-change protective shell close to the inclined adjusting driving piece is hinged to the other end of the stacked cushioning magnetic gradual-change protective shell at the outermost side through the first connecting piece for state transition; when the stacked cushioning magnetic gradual-change protective shell needs to be unfolded in space, the second hydraulic rod works to push the nested transverse adjusting driving piece to deform, the nested transverse adjusting driving piece pushes the nested transverse adjusting driving piece to deform sequentially and extend, the nested transverse adjusting driving piece, the first connecting piece for state transition and the second connecting piece for state transition pull the stacked cushioning magnetic gradual-change protective shell to extend, meanwhile, the stacked cushioning magnetic gradual-change protective shell reacts on the nested transverse adjusting telescopic sleeve through the second connecting piece for state transition to drive the nested transverse adjusting telescopic sleeve to extend, and the stacked cushioning magnetic gradual-change protective shell is in an unfolded state and is convenient for storing and taking electronic product accessories; when the stacked buffering magnetic gradient protection shell needs to be folded in space, the nested transverse adjustment driving piece is pulled to retract when the hydraulic rod II works, the nested transverse adjustment driving piece drives the nested transverse adjustment driving piece to deform in sequence, the nested transverse adjustment driving piece is shortened, the nested transverse adjustment driving piece, the first connecting piece for state transition and the second connecting piece for state transition pull the stacked buffering magnetic gradient protection shell to fold, meanwhile, the stacked buffering magnetic gradient protection shell reacts on the nested transverse adjustment telescopic external piece through the second connecting piece for state transition, the nested transverse adjustment telescopic external piece is driven to be recycled, the whole folded state is formed, and the electronic product accessories are convenient to transport.

Further, nested formula horizontal adjustment driving piece and nested formula horizontal adjustment driving piece set up for the rhombus structure, the articulated setting of nested formula horizontal adjustment driving piece tip can take place deformation, is convenient for adjust the form of stack formula bradyseism magnetism gradual change protecting crust in the space.

The base is provided with a pushing hydraulic rod and a sliding chute, the fixed end of the pushing hydraulic rod is arranged in the sliding chute, the movable end of the pushing hydraulic rod is connected with a supporting rod, and the supporting rod is provided with a roller; when the device loaded with electronic product accessories is required to be placed on a transport vehicle, the hydraulic rod for pushing works to push the supporting rod to extend out of the chute, the supporting rod drives the roller to extend out of the base, the movement is convenient, and meanwhile, after the device arrives at a destination, the device can be transported to the destination required to be used through the roller without consuming a large amount of manpower and material resources; and a reinforcing plate is arranged on the nested longitudinal adjustment fixing sleeve piece to reinforce the strength of the equipment.

The invention adopting the structure has the following beneficial effects:

(1) in order to solve the contradiction that the electronic product accessories need to be protected flexibly and not only rigidly against external force impact, a cushioning magnetic gradual change regulation and control protection device is adopted, the Curie temperature of a magnetic part is utilized to regulate and control the strength of the magnetism of the magnetic part, and the electronic product accessories are buffered by superposing the magnetism to enhance repulsive force.

(2) Meanwhile, a multidimensional driving device is provided in a mode of block combination and multidimensional space adjustment based on a merging principle, folding, storage and state transition are carried out, folding and storage are achieved through portable multi-angle adjustment in the space dimension in a small space posture, and convenience in transportation and use is achieved.

(3) The first stacked damping magnetic gradient part and the second stacked damping magnetic gradient part are arranged with magnetic magnets, the magnetism can be reduced according to the rise of the temperature, the strength of the magnetism can be controlled according to the Curie temperature of the magnets, and the stacking and the separation of a magnetic field are achieved.

(4) The setting of the spring for balance can promote the separation of stack formula bradyseism magnetism gradual change piece one and bradyseism magnetism spare one, facilitates for subsequent protection.

(5) The heat insulating mattress is characterized in that the first heat insulating mattress, the second heat insulating mattress, the third heat insulating mattress and the fourth heat insulating mattress are mutually opposite, so that the propagation of heat can be separated, and the temperature of the first stacked cushioning magnetic gradient part and the second stacked cushioning magnetic gradient part which are heated is prevented from being conducted to an electronic product accessory.

(6) For preventing that the rigidity from strikeing and causing the damage to the electronic product accessory, elastic connection spare one, elastic connection spare two can take place deformation under the drive force of bradyseism magnetism spare one, leave the space of removal for the bradyseism piece of keeping in, weaken the impact force.

(7) The first cushioning magnetic part can be close to the first stacked cushioning magnetic gradient part until being adsorbed, the first cushioning magnetic part and the first stacked cushioning magnetic gradient part attract each other to become a whole, the magnetism is enhanced, the second cushioning magnetic part can be close to the second stacked cushioning magnetic gradient part until being adsorbed, the second cushioning magnetic part and the second stacked cushioning magnetic gradient part attract each other to become a whole, the magnetism is enhanced, the repulsive force of the third magnetic part is enhanced, the temporary cushioning storage part is repelled, and the temporary cushioning storage part is cushioned and buffered again.

(8) The nested longitudinal adjusting driving device is used for adjusting the height of the device in the vertical direction, the nested transverse adjusting driving device is used for adjusting the conversion of the spatial state of the device, and the slant adjusting driving device is used for adjusting the slant angle of the stacked cushioning magnetic gradient protection shell, so that the portable protection and transportation of the stacked cushioning magnetic gradient protection shell are facilitated.

(9) The hydraulic rod for pushing and the arrangement of the roller can transport the device to a destination needing to be used through the roller under the condition that a large amount of manpower and material resources are not needed to be consumed.

Drawings

Fig. 1 is a schematic view of an overall structure of a magnetically graded cushioning transportation protection component of an electronic product accessory according to the present invention;

FIG. 2 is a front view of a magnetically graduated cushioning transport protective assembly for electronic products of the present invention;

fig. 3 is a schematic structural view of a nested lateral adjustment driving device of a magnetically gradient cushioning transportation protective device for an electronic product accessory according to the present invention;

fig. 4 is a front sectional view of a cushioning magnetic gradient regulation and control protection device of a cushioning transportation protection device with magnetic gradient of an electronic product accessory according to the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 4 at A;

FIG. 6 is a top cross-sectional view of a cushioning magnetic grade change control guard of a magnetically grade cushioning transportation guard of an electronic product accessory provided in accordance with the present invention;

fig. 7 is a partial enlarged view of fig. 6 at B;

FIG. 8 is a schematic view of a shock absorption temporary storage unit of the transportation protection device with gradually changed magnetic properties for shock absorption of an electronic product accessory according to the present invention;

FIG. 9 is a top view of a shock absorber temporary storage of a magnetically graduated shock absorber transport protection member of an electronic product accessory in accordance with the present invention;

fig. 10 is a schematic structural view of a stacked cushioning magnetic transition piece of a cushioning transportation protective device with magnetic transition for an electronic product accessory according to the present invention.

The device comprises a cushioning magnetic gradual-change regulation and protection device 1, a cushioning magnetic gradual-change regulation and protection device 2, a multi-dimensional driving device 3, a base 4, a stacked cushioning magnetic gradual-change protection shell 5, a stacked cushioning magnetic gradual-change protection component 6, a stacked cushioning anti-blocking piece 7, a state-change multi-purpose connecting component 8, a stacked cushioning magnetic gradual-change piece 9, a cushioning magnetic piece 10, a cushioning temporary-storage piece 11, a stacked cushioning magnetic gradual-change piece I, 12, a stacked cushioning magnetic gradual-change piece II, 13, a cushioning magnetic piece I, 14, a cushioning magnetic piece II, 15, a blocking fixing piece 16, a magnetic piece III, 17, a temporary-storage cavity 18, a balancing spring I, 19, an electric heating wire I, 20, a heat insulation pad I, 21, a heat insulation pad II, 22, an elastic connecting piece I, 23, a balancing spring II, 24, an electric heating wire II, 25, a heat insulation pad III, 26, a heat insulation pad IV, 27, A second elastic connecting piece, 28, a fixed buckle for state adjustment, 29, a clamping piece for state adjustment, 30, a first connecting piece for state transition, 31, a second connecting piece for state transition, 32, a nested transverse adjustment driving device, 33, a nested longitudinal adjustment driving device, 34, a slant adjustment driving device, 35, a nested longitudinal adjustment fixed kit, 36, a first hydraulic rod, 37, a connecting piece, 38, a nested longitudinal adjustment telescopic kit, 39, a fixed block, 40, a rotating shaft, 41, a slant adjustment motor, 42, a motor supporting seat, 43, a slant adjustment driving piece, 44, a nested transverse adjustment telescopic kit, 45, a nested transverse adjustment fixed kit, 46, a second hydraulic rod, 47, a nested transverse adjustment driving piece, 48, a nested transverse adjustment driving piece, 49, a second hydraulic rod seat, 50, a hydraulic rod for pushing, 51 and a sliding groove, 52. support rods 53, rollers 54 and reinforcing plates.

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present invention.

As shown in fig. 1, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8 and fig. 9, the magnetic gradient cushioning transportation protection device for electronic product accessories provided by the present invention includes a cushioning magnetic gradient regulation and control protection device 1, a multi-dimensional driving device 2 and a base 3, wherein one end of the multi-dimensional driving device 2 is disposed on the base 3, the cushioning magnetic gradient regulation and control protection device 1 is disposed on the multi-dimensional driving device 2, the base 3 supports and fixes the multi-dimensional driving device 2, and the multi-dimensional driving device 2 supports and drives the cushioning magnetic gradient regulation and control protection device 1; the cushioning magnetic gradual-change regulation and control protection device 1 comprises a stacked cushioning magnetic gradual-change protection shell 4, a stacked cushioning magnetic gradual-change protection component 5, a stacked cushioning anti-blocking part 6 and a state-change multipurpose connecting component 7, wherein the state-change multipurpose connecting component 7 is connected with a multi-dimensional driving device 2, the stacked cushioning magnetic gradual-change protection shell 4 is connected with the state-change multipurpose connecting component 7, the multi-dimensional driving device 2 drives the state-change multipurpose connecting component 7, the state-change multipurpose connecting component 7 plays a connecting role for the stacked cushioning magnetic gradual-change protection shell 4, the stacked cushioning anti-blocking part 6 is movably arranged on the stacked cushioning magnetic gradual-change protection shell 4, the stacked cushioning magnetic gradual-change protection component 5 is arranged in the stacked cushioning magnetic gradual-change protection shell 4 and the stacked cushioning anti-blocking part 6, the stacked cushioning magnetic gradual-change protection shell 4 supports and fixes the stacked cushioning magnetic gradual-change protection component 5, the stacked cushioning magnetic gradient protection component 5 protects and supports the electronic product accessories.

As shown in fig. 1, 4, 5, 6, 7, 8, 9 and 10, the stacked cushioning magnetic gradient protection assembly 5 comprises a stacked cushioning magnetic gradient component 8, a cushioning magnetic component 9 and a cushioning temporary storage component 10, the stacked cushioning magnetic gradient component 8 is provided with two groups, namely a stacked cushioning magnetic gradient component one 11 and a stacked cushioning magnetic gradient component two 12, the stacked cushioning magnetic gradient component one 11 is arranged in the stacked cushioning magnetic gradient protection shell 4, the stacked cushioning magnetic gradient protection shell 4 supports and fixes the stacked cushioning magnetic gradient component one 11, the stacked cushioning magnetic gradient component two 12 is arranged in the stacked cushioning anti-blocking component 6, the stacked cushioning anti-blocking component 6 supports and fixes the stacked cushioning magnetic gradient component two 12, the stacked cushioning magnetic gradient component one 11 and the stacked cushioning magnetic gradient component two 12 are both provided with a magnet with magnetic gradient, the magnetism can be reduced according to the rise of the temperature, according to the Curie temperature of the magnet, when the temperature in the first superposition type cushioning magnetic gradual change piece 11 and the second superposition type cushioning magnetic gradual change piece 12 reaches 103-105 ℃, the magnetic transition point of the magnet is reached, the magnetism is completely disappeared, and after the temperature is reduced, the magnetism is recovered, for example, the temperature control device at the bottom of the electric cooker is the magnet which utilizes the Curie temperature of the magnet and can recover the magnetism after the temperature is reduced; the cushioning magnetic part 9 is provided with two groups, two groups are a first cushioning magnetic part 13 and a second cushioning magnetic part 14 respectively, the first cushioning magnetic part 13 is arranged in the stacked cushioning magnetic gradient protection shell 4, the first cushioning magnetic part 13 is arranged close to the first stacked cushioning magnetic gradient part 11, the first cushioning magnetic gradient protection shell 4 supports and fixes the first cushioning magnetic part 13, the second cushioning magnetic part 14 is arranged in the stacked cushioning anti-blocking part 6, the second cushioning magnetic part 14 is arranged close to the second stacked cushioning magnetic gradient part 12, the second stacked cushioning anti-blocking part 6 supports and fixes the second cushioning magnetic part 14, the magnetism of the first cushioning magnetic part 13 is different from that of the first stacked cushioning magnetic gradient part 11, the magnetism of the second cushioning magnetic part 14 is different from that of the second stacked cushioning magnetic gradient part 12, when the first cushioning magnetic part 13 or the second cushioning magnetic part 14 is shaken greatly, the first damping magnetic part 13 is close to the first stacked damping magnetic gradient part 11, the first damping magnetic part 13 and the first stacked damping magnetic gradient part 11 are mutually attracted to form a whole, the magnetism is enhanced, the second damping magnetic part 14 is close to the second stacked damping magnetic gradient part 12, the second damping magnetic part 14 and the second stacked damping magnetic gradient part 12 are mutually attracted to form a whole, and the magnetism is enhanced; the buffering temporary storage piece 10 is movably arranged in the stacked buffering magnetic gradient protection shell 4, and the stacked buffering magnetic gradient protection shell 4 and the stacked buffering anti-blocking piece 6 protect and buffer the buffering temporary storage piece 10; the electronic product accessories to be transported are arranged in the buffering temporary storage part 10, the buffering temporary storage part 10 with the electronic product accessories is arranged in the stacked buffering magnetic gradient protection shell 4, then the stacked buffering temporary storage part 6 is inserted into the stacked buffering magnetic gradient protection shell 4 to seal the stacked buffering magnetic gradient protection shell 4, the side wall of the buffering temporary storage part 10 is arranged close to the first buffering magnetic part 13 and the second buffering magnetic part 14, and the first buffering magnetic part 13 and the second buffering magnetic part 14 realize balanced buffering and fixing of the buffering temporary storage part 10 through mutual repulsive force; the buffering temporary storage piece 10 is movably provided with a blocking fixing piece 15, the blocking fixing piece 15 can be taken off from the buffering temporary storage piece 10, electronic product accessories are convenient to take and store, a magnetic piece III 16 is arranged in the side walls of the buffering temporary storage piece 10 and the blocking fixing piece 15, a temporary storage cavity 17 is arranged in the buffering temporary storage piece 10, the electronic product accessories are placed in the temporary storage cavity 17, the magnetism of the buffering magnetic piece I13 and the magnetism of the buffering magnetic piece II 14 are the same as the magnetism of the magnetic piece III 16, after the buffering temporary storage part 10 storing the electronic product accessories is arranged in the stacked buffering magnetic gradient protection shell 4, the third magnetic part 16 is arranged between the first cushioning magnetic part 13 and the second cushioning magnetic part 14, the repulsive forces of the first cushioning magnetic part 13 and the second cushioning magnetic part 14 to the third magnetic part 16 are the same, so that the damping temporary storage device 10 is balanced and fixed under the action of the repulsive force of the first damping magnetic device 13 and the second damping magnetic device 14; a first balance spring 18 and a first electric heating wire 19 are arranged in the first stacked damping magnetic gradient piece 11, one end of the first balance spring 18 penetrates through the first stacked damping magnetic gradient piece 11 to be connected with the first stacked damping magnetic gradient protection shell 4, and the other end of the first balance spring 18 is connected with one end of the first damping magnetic gradient protection shell 13; after the superposition type cushioning magnetic gradient part I11 and the cushioning magnetic part I13 are mutually attracted and superposed, when the superposition type cushioning magnetic gradient part I11 needs to be separated, the electric heating wire I19 is used for heating the superposition type cushioning magnetic gradient part I11, the magnetism of the superposition type cushioning magnetic gradient part I11 is weakened along with the rise of the temperature, and when the attraction force between the superposition type cushioning magnetic gradient part I11 and the cushioning magnetic part I13 is smaller than the elastic force of the balance spring I18 after being compressed, the superposition type cushioning magnetic gradient part I11 and the cushioning magnetic part I13 are separated under the pushing of the balance spring I18; a first heat insulation pad 20 is arranged on the first stacked cushioning magnetic transition piece 11; the first cushioning magnetic part 13 is provided with a second heat insulation pad 21, the second heat insulation pad 21 and the first heat insulation pad 20 are arranged oppositely to prevent the temperature of the heated first stacked cushioning magnetic transition part 11 from being conducted to electronic product accessories, a first elastic connecting part 22 is arranged between the first cushioning magnetic part 13 and the stacked cushioning magnetic transition protective shell 4, the first elastic connecting part 22 can buffer the vibration of the electronic product accessories, when the vibration force is too large, in order to prevent rigid impact from damaging the electronic product accessories, the first elastic connecting part 22 can deform under the driving force of the first cushioning magnetic part 13 to leave a moving space for the temporary cushioning storage part 10 to weaken the impact force, meanwhile, the first cushioning magnetic part 13 can approach to the first stacked cushioning magnetic transition part 11 until being connected in an adsorption manner, and the first cushioning magnetic part 13 and the first stacked cushioning magnetic transition part 11 attract each other to form a whole, the magnetism is enhanced, the repulsive force of the third magnetic part 16 is enhanced, the temporary buffering storage part 10 is repelled, and the temporary buffering storage part 10 is damped and buffered again; a second balance spring 23 and a second electric heating wire 24 are arranged in the second stacked damping magnetic transition piece 12, one end of the second balance spring 23 penetrates through the second stacked damping magnetic transition piece 12 to be connected with the second stacked damping anti-blocking piece 6, and the other end of the second balance spring 23 is connected with one end of the second damping magnetic transition piece 14; after the second stacked damping magnetic gradient component 12 and the second damping magnetic gradient component 14 are mutually attracted and stacked, when separation is needed, the second electric heating wire 24 is used for heating the second stacked damping magnetic gradient component 12, the magnetism of the second stacked damping magnetic gradient component 12 is weakened along with the rise of the temperature, and when the attraction between the second stacked damping magnetic gradient component 12 and the second damping magnetic gradient component 14 is smaller than the elastic force of the second balancing spring 23 after compression, the second stacked damping magnetic gradient component 12 and the second damping magnetic gradient component 14 are separated under the pushing of the second balancing spring 23; a third heat insulation pad 25 is arranged on the second stacked cushioning magnetic transition piece 12; a fourth thermal insulation pad 26 is arranged on the second cushioning magnetic part 14, a third thermal insulation pad 25 is arranged opposite to the fourth thermal insulation pad 26, the temperature of the heated second stacked cushioning magnetic transition part 12 is prevented from being conducted to the electronic product accessories, a second elastic connecting part 27 is arranged between the second cushioning magnetic part 14 and the stacked cushioning anti-blocking part 6, the second elastic connecting part 27 can buffer the vibration on the electronic product accessories, when the vibration force is too large, in order to prevent rigid impact from damaging the electronic product accessories, the second elastic connecting part 27 can deform under the driving force of the second cushioning magnetic part 14, a moving space is reserved for the temporary cushioning storage part 10, the impact force is weakened, and meanwhile, the second cushioning magnetic part 14 can approach the second stacked cushioning magnetic transition part 12 to be in adsorption connection; the second cushioning magnetic part 14 and the second stacked cushioning magnetic transition part 12 are attracted to each other to form a whole, so that the magnetism is enhanced, the repulsive force of the third magnetic part 16 is enhanced, the temporary cushioning storage part 10 is repelled, and the temporary cushioning storage part 10 is cushioned again.

As shown in fig. 1, 2 and 3, the state-change multipurpose connecting assembly 7 includes a state-change fixing buckle 28, a state-change fastener 29, a state-change first connecting member 30 and a state-change second connecting member 31, the state-change first connecting member 30 and the state-change second connecting member 31 are disposed on the multidimensional driving device 2, the multidimensional driving device 2 supports and drives the state-change first connecting member 30 and the state-change second connecting member 31, the state-change fixing buckle 28 and the state-change fastener 29 are disposed on the stacked magnetically-gradient-buffering protective shell 4, the state-change fixing buckle 28 and the state-change fastener 29 are hinged, and the stacked magnetically-gradient-buffering protective shell 4 is movably hinged to the state-change first connecting member 30 and the state-change second connecting member 31; the stacked cushioning magnetic gradient protection shell 4 is movably connected through the fixed buckle 28 for state adjustment, the clamping piece 29 for state adjustment, the first connecting piece 30 for state transition and the second connecting piece 31 for state transition, and simultaneously realizes driving and limiting effects among the fixed buckle 28 for state adjustment, the clamping piece 29 for state adjustment, the first connecting piece 30 for state transition and the second connecting piece 31 for state transition; the multi-dimensional drive 2 comprises a nested lateral adjustment drive 32, the embedded longitudinal adjustment driving device 33 and the oblique adjustment driving device 34 are arranged, one end of the embedded longitudinal adjustment driving device 33 is arranged on the base 3, the base 3 supports and fixes the embedded longitudinal adjustment driving device 33, the oblique adjustment driving device 34 is arranged at the other end of the embedded longitudinal adjustment driving device 33, one end of the embedded transverse adjustment driving device 32 is arranged on the oblique adjustment driving device 34, the embedded longitudinal adjustment driving device 33 is used for adjusting the height of the embedded longitudinal adjustment driving device in the vertical direction, the embedded transverse adjustment driving device 32 is used for adjusting the conversion of the space state of the embedded longitudinal adjustment driving device, and the oblique adjustment driving device 34 is used for adjusting the oblique angle of the stacked cushioning magnetic gradient protection shell 4, so that the portable protection and transportation of the stacked cushioning magnetic gradient protection shell 4 are facilitated; the nested longitudinal adjustment driving device 33 comprises a nested longitudinal adjustment fixing kit 35, a first hydraulic rod 36, a connecting piece 37 and a nested longitudinal adjustment telescopic kit 38, wherein one end of the first hydraulic rod 36 is arranged on the base 3, one end of the nested longitudinal adjustment fixing kit 35 is arranged on the base 3, the base 3 supports and fixes the first hydraulic rod 36 and the nested longitudinal adjustment fixing kit 35, the nested longitudinal adjustment fixing kit 35 is arranged between the first hydraulic rods 36, one end of the nested longitudinal adjustment telescopic kit 38 is arranged in the nested longitudinal adjustment fixing kit 35, the slant adjustment driving device 34 is arranged at the other end of the nested longitudinal adjustment telescopic kit 38, one end of the connecting piece 37 is connected with the other end of the first hydraulic rod 36, the other end of the connecting piece 37 is connected with the other end of the nested longitudinal adjustment telescopic kit 38, the base 3 is provided with a fixing block 39, the fixed block 39 is connected with the nested longitudinal adjusting fixing external member 35 and the first hydraulic rod 36, and the nested longitudinal adjusting fixing external member 35 and the first hydraulic rod 36 are supported and fixed by the fixed block 39; the first hydraulic rod 36 drives the nested longitudinal adjusting telescopic sleeve 38 to extend or shorten in the vertical direction through the connecting piece 37, and the nested longitudinal adjusting telescopic sleeve 38 pushes the nested transverse adjusting driving device 32 and the oblique adjusting driving device 34 to lift or descend in the vertical direction; the slant adjustment driving device 34 includes a rotating shaft 40, a slant adjustment motor 41, a motor support 42 and a slant adjustment driving member 43, the motor support 42 is disposed on the nested longitudinal adjustment telescopic sleeve 38, the nested longitudinal adjustment telescopic sleeve 38 supports and fixes the motor support 42, the slant adjustment motor 41 is disposed on the motor support 42, the motor support 42 supports and fixes the slant adjustment motor 41, the rotating shaft 40 is movably disposed on the other end of the nested longitudinal adjustment telescopic sleeve 38, the slant adjustment driving member 43 is fixedly connected to the rotating shaft 40, the nested transverse adjustment driving device 32 is disposed on the slant adjustment driving member 43, the rotating shaft 40 is connected to the output end of the slant adjustment motor 41, the slant adjustment motor 41 is a forward and backward rotation motor, the slant adjustment motor 41 operates to drive the rotating shaft 40 to rotate, the rotating shaft 40 drives the slant adjustment driving member 43 to adjust the slant angle and direction, the slant adjustment driving member 43 drives the nested transverse adjustment driving device 32 to adjust the slant angle and direction, so as to facilitate taking and storing the shock-absorbing temporary storage member 10; the nested transverse adjustment driving device 32 comprises a nested transverse adjustment telescopic sleeve 44, a nested transverse adjustment fixing sleeve 45, a second hydraulic rod 46, a nested transverse adjustment driving piece 47, a nested transverse adjustment driving piece 48 and a second hydraulic rod hinging seat 49, wherein the second hydraulic rod hinging seat 49 is arranged on the oblique adjustment driving piece 43, one end of the second hydraulic rod 46 is movably hinged on the second hydraulic rod hinging seat 49, the oblique adjustment driving piece 43 supports and fixes the second hydraulic rod hinging seat 49, the second hydraulic rod hinging seat 49 supports and fixes the second hydraulic rod 46, the other end of the nested transverse adjustment driving piece 47 is movably hinged with the other end of the second hydraulic rod 46, the second hydraulic rod 46 plays a role in supporting and fixing driving for the nested transverse adjustment driving piece 47, one end of the nested transverse adjustment driving piece 48 is movably hinged at the joint of the other end of the nested transverse adjustment driving piece 47 and the other end of the second hydraulic rod 46, the nested transverse adjustment driving member 48 is provided with a plurality of groups, the end parts of the nested transverse adjustment driving member 48 are sequentially hinged, one end of the nested transverse adjustment fixing external member 45 is arranged on the inclined adjustment driving member 43, the inclined adjustment driving member 43 plays a role in supporting and fixing the nested transverse adjustment fixing external member 45, one end of the nested transverse adjustment telescopic external member 44 is movably arranged in the nested transverse adjustment fixing external member 45, the first state-change connecting member 30 is arranged on the nested transverse adjustment telescopic external member 44, the second state-change connecting member 31 is arranged on the end part of the nested transverse adjustment telescopic external member 44 and is far away from the inclined adjustment driving member 43, the end part of the stacked cushioning magnetic gradient protection shell 4 is movably hinged on the nested transverse adjustment fixing external member 45, one end of the nested transverse adjustment driving member 47, the first state-change connecting member 30 and the second state-change connecting member 31, the stacked cushioning magnetic gradient protection shell 4 is provided with a plurality of groups, one end of a group of stacked cushioning magnetic gradient protection shells 4 close to the oblique adjustment driving piece 43 is hinged with one end of the nested transverse adjustment fixing kit 45 and the nested transverse adjustment driving piece 47, one end of a group of stacked cushioning magnetic gradient protection shells 4 at the outermost side is hinged with the second state transition connecting piece 31, the other end of a group of stacked cushioning magnetic gradient protection shells 4 close to the oblique adjustment driving piece 43 is hinged with the other end of a group of stacked cushioning magnetic gradient protection shells 4 at the outermost side through the first state transition connecting piece 30, the nested transverse adjustment driving piece 47 and the nested transverse adjustment driving piece 48 are arranged in a diamond structure, the end of the nested transverse adjustment driving piece 47 is hinged, the end of the nested transverse adjustment driving piece 48 is hinged, the deformation can be generated, so that the shape of the stacked cushioning magnetic gradient protective shell 4 in space can be conveniently adjusted; when the stacked cushioning magnetic gradient protection shell 4 needs to be expanded in space, the second hydraulic rod 46 works to push the nested transverse adjusting driving piece 47 to deform, the nested transverse adjusting driving piece 47 pushes the nested transverse adjusting driving piece 48 to deform in sequence and extend, the nested transverse adjusting driving piece 48, the first state-transition connecting piece 30 and the second state-transition connecting piece 31 pull the stacked cushioning magnetic gradient protection shell 4 to extend, and meanwhile, the stacked cushioning magnetic gradient protection shell 4 reacts on the nested transverse adjusting telescopic external piece 44 through the second state-transition connecting piece 31 to drive the nested transverse adjusting telescopic external piece 44 to extend, and the stacked cushioning magnetic gradient protection shell 4 is in an expanded state and is convenient for storing and taking electronic product accessories; when the stacked buffering magnetic gradient protection shell 4 needs to be folded in space, the second hydraulic rod 46 works to pull the nested transverse adjusting driving piece 47 to retract, the nested transverse adjusting driving piece 47 drives the nested transverse adjusting driving piece 48 to deform in sequence, the nested transverse adjusting driving piece is shortened, the nested transverse adjusting driving piece 48, the first connecting piece 30 for state transition and the second connecting piece 31 for state transition pull the stacked buffering magnetic gradient protection shell 4 to fold, meanwhile, the stacked buffering magnetic gradient protection shell 4 reacts on the nested transverse adjusting telescopic external member 44 through the second connecting piece 31 for state transition, the nested transverse adjusting telescopic external member 44 is driven to be recovered, the whole stacked buffering magnetic gradient protection shell is in a folded state, and the electronic product accessories are convenient to transport.

As shown in fig. 1, 2 and 3, the base 3 is provided with a pushing hydraulic rod 50 and a sliding groove 51, a fixed end of the pushing hydraulic rod 50 is arranged in the sliding groove 51, a movable end of the pushing hydraulic rod 50 is connected with a support rod 52, and the support rod 52 is provided with a roller 53; when the device loaded with the electronic product accessories is required to be placed on a transport vehicle, the hydraulic rod 50 for pushing works to push the supporting rod 52 to extend out of the chute 51, the supporting rod 52 drives the roller 53 to extend out of the base 3, the movement is convenient, and the device can be transported to a destination to be used through the roller 53 without consuming a large amount of manpower and material resources after the device reaches the destination; the nested longitudinal adjustment fixing sleeve 35 is provided with a reinforcing plate 54 for reinforcing the strength of the equipment.

During the specific use, only need accomplish according to the structure installation of drawing in the figure:

the first hydraulic rod 36 drives the nested longitudinal adjustment telescopic external member 38 to extend or shorten in the vertical direction through the connecting member 37, the nested longitudinal adjustment telescopic external member 38 pushes the nested transverse adjustment driving device 32 and the oblique adjustment driving device 34 to lift or descend in the vertical direction, the stacked cushioning magnetic gradient protection shell 4 needs to be expanded in space, the second hydraulic rod 46 pushes the nested transverse adjustment driving member 47 to deform, the nested transverse adjustment driving member 47 pushes the nested transverse adjustment driving member 48 to deform sequentially and extend, the nested transverse adjustment driving member 48, the first state transition connecting member 30 and the second state transition connecting member 31 pull the stacked cushioning magnetic gradient protection shell 4 to extend, and meanwhile, the stacked cushioning magnetic gradient protection shell 4 reacts on the nested transverse adjustment telescopic external member 44 through the second state transition connecting member 31, the nested transversely-adjusting telescopic external member 44 is driven to extend, and the stacked cushioning magnetic gradient protection shell 4 is in an unfolded state; the motor 41 for slant adjustment drives the rotation shaft 40 to rotate, the rotation shaft 40 drives the slant adjustment driving member 43 to adjust the slant angle and direction, the slant adjustment driving member 43 drives the nested transverse adjustment driving device 32 to adjust the slant angle and direction, so that the stacked cushioning and anti-blocking member 6 is arranged in a state of being inclined upwards, then the stacked cushioning and anti-blocking member 6 is taken out from the stacked cushioning and magnetic gradual change protective shell 4, the cushioning and temporary storage member 10 is taken out, the plugging and fixing member 15 can be taken off from the cushioning and temporary storage member 10, the electronic product fittings are placed in the temporary storage cavity 17, then the plugging and fixing member 15 is inserted into the cushioning and temporary storage member 10, the cushioning and temporary storage member 10 is arranged in the stacked cushioning and magnetic gradual change protective shell 4, the stacked cushioning and anti-blocking member 6 is inserted, the stacked cushioning and magnetic gradual change protective shell 4 is folded in space, the second hydraulic rod 46 works to pull the nested transverse adjustment driving member 47 to retract, the nested transverse adjustment driving member 47 drives the nested transverse adjustment driving member 48 to sequentially deform and shorten, the nested transverse adjustment driving member 48, the first connecting member 30 for state transition and the second connecting member 31 for state transition pull the stacked cushioning magnetic gradient protection shell 4 to fold, meanwhile, the stacked cushioning magnetic gradient protection shell 4 reacts on the nested transverse adjustment telescopic kit 44 through the second connecting member 31 for state transition to drive the nested transverse adjustment telescopic kit 44 to recover, the whole is in a folded state, so that the electronic product accessories can be conveniently transported, when a device loaded with the electronic product accessories needs to be placed on a transport cart, the hydraulic rod 50 for pushing works to push the supporting rod 52 to extend out of the sliding groove 51, the supporting rod 52 drives the roller 53 to extend out of the base 3, so that the device is convenient to move, and after moving to the transport cart, the hydraulic rod 50 for pushing drives the supporting rod 52 and the roller 53 to retract into the sliding groove 51, the device is convenient to fix, and can be transported to a destination to be used through the roller 53 without consuming a large amount of manpower and material resources after arriving at the destination; when the buffering temporary storage part 10 storing the electronic product accessories is arranged in the stacked buffering magnetic gradual-change protective shell 4, the third magnetic part 16 is arranged between the first buffering magnetic part 13 and the second buffering magnetic part 14, and the repulsive force of the first buffering magnetic part 13 and the second buffering magnetic part 14 to the third magnetic part 16 is the same, so that the buffering temporary storage part 10 is balanced and fixed under the action of the repulsive force of the first buffering magnetic part 13 and the second buffering magnetic part 14;

in the transportation process, the first elastic connecting piece 22 can buffer the vibration on the electronic product accessory, when the vibration force is too large, in order to prevent rigid impact from damaging the electronic product accessory, the first elastic connecting piece 22 can deform under the driving force of the first cushioning magnetic piece 13, a moving space is reserved for the first cushioning temporary storage piece 10, the impact force is weakened, meanwhile, the first cushioning magnetic piece 13 can be close to the first stacked cushioning magnetic gradient piece 11 until the first cushioning magnetic gradient piece is connected in an adsorption mode, the first cushioning magnetic piece 13 and the first stacked cushioning magnetic gradient piece 11 are attracted to each other to form a whole, the magnetism is enhanced, the repulsive force on the third magnetic piece 16 is enhanced, the first cushioning temporary storage piece 10 is repelled, and the first cushioning temporary storage piece 10 is subjected to vibration reduction and buffering again; the second elastic connecting piece 27 can buffer the vibration on the electronic product accessory, when the vibration force is too large, in order to prevent rigid impact from damaging the electronic product accessory, the second elastic connecting piece 27 can deform under the driving force of the second cushioning magnetic piece 14, a moving space is reserved for the temporary cushioning storage piece 10, the impact force is weakened, and meanwhile, the second cushioning magnetic piece 14 and the second stacked cushioning magnetic gradient piece 12 can approach each other until the second cushioning magnetic gradient piece is connected in an adsorption mode; the second cushioning magnetic part 14 and the second stacked cushioning magnetic transition part 12 are mutually attracted to form a whole, the magnetism is enhanced, the repulsive force of the third magnetic part 16 is enhanced, the temporary cushioning storage part 10 is repelled, and the temporary cushioning storage part 10 is cushioned again; after the first stacked cushioning magnetic gradient component 11 and the first cushioning magnetic component 13 are mutually attracted and stacked, when separation is needed, the first electric heating wire 19 is used for heating the first stacked cushioning magnetic gradient component 11, the first stacked cushioning magnetic gradient component 11 is weakened in magnetism along with the rise of temperature, and when the attraction between the first stacked cushioning magnetic gradient component 11 and the first cushioning magnetic component 13 is smaller than the elastic force of the first balance spring 18 after compression, the first stacked cushioning magnetic gradient component 11 and the first cushioning magnetic component 13 are separated under the pushing of the first balance spring 18; after the second stacked cushioning magnetic transition piece 12 and the second cushioning magnetic transition piece 14 are mutually attracted and stacked, when separation is needed, the second electric heating wire 24 is used for heating the second stacked cushioning magnetic transition piece 12, the second stacked cushioning magnetic transition piece 12 is weakened in magnetism along with the rise of temperature, and when the attraction force between the second stacked cushioning magnetic transition piece 12 and the second cushioning magnetic transition piece 14 is smaller than the elastic force of the second balance spring 23 after compression, the second stacked cushioning magnetic transition piece 12 and the second cushioning magnetic transition piece 14 are separated under the pushing of the second balance spring 23; and the circular shock absorption is convenient.

It should be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings show only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should be able to conceive of the present invention without creative design of the similar structural modes and embodiments without departing from the spirit of the present invention, and all such modifications should fall within the protection scope of the present invention.

Claims

1. The utility model provides an electronic product accessory magnetism gradual change bradyseism transportation protection spare which characterized in that: the device comprises a cushioning magnetic gradual-change regulation and control protection device, a multi-dimensional driving device and a base, wherein one end of the multi-dimensional driving device is arranged on the base, and the cushioning magnetic gradual-change regulation and control protection device is arranged on the multi-dimensional driving device; bradyseism magnetism gradual change regulation and control protector includes stack bradyseism magnetism gradual change protecting crust, stack bradyseism anti-blocking piece and the multi-purpose type coupling assembling of state transition, the multi-purpose type coupling assembling of state transition links to each other with multidimension drive arrangement, stack bradyseism magnetism gradual change protecting crust links to each other with the multi-purpose type coupling assembling of state transition, stack bradyseism anti-blocking piece activity is located on stack bradyseism magnetism gradual change protecting crust, stack bradyseism magnetism gradual change protecting crust is located in stack bradyseism magnetism gradual change protecting crust and the stack bradyseism anti-blocking piece.

2. The electronic product accessory magnetically graduated cushioning transport shield of claim 1, wherein: the stacked cushioning magnetic gradient protection assembly comprises stacked cushioning magnetic gradient components, a cushioning magnetic component and a cushioning temporary storage component, wherein the stacked cushioning magnetic gradient components are provided with two groups, namely a stacked cushioning magnetic gradient component I and a stacked cushioning magnetic gradient component II, the stacked cushioning magnetic gradient component I is arranged in a stacked cushioning magnetic gradient protection shell, and the stacked cushioning magnetic gradient component II is arranged in a stacked cushioning anti-blocking component; the damping magnetic parts are provided with two groups, namely a damping magnetic part I and a damping magnetic part II, the damping magnetic part I is arranged in the stacked damping magnetic gradient protective shell, the damping magnetic part I is arranged close to the stacked damping magnetic gradient part I, the damping magnetic part II is arranged in the stacked damping anti-blocking part, and the damping magnetic part II is arranged close to the stacked damping magnetic gradient part II; the buffering temporary storage piece is movably arranged in the stacked buffering magnetic gradient protective shell.

3. The transportation protective assembly of claim 2, wherein the shock absorber further comprises: the temporary shock absorption device is characterized in that a blocking fixing piece is movably arranged on the temporary shock absorption piece, a magnetic piece III is arranged in the side walls of the temporary shock absorption piece and the blocking fixing piece, a temporary storage cavity is arranged in the temporary shock absorption piece, and the magnetism of the first shock absorption magnetic piece, the magnetism of the second shock absorption magnetic piece and the magnetism of the magnetic piece III are the same; a first spring for balancing and a first electric heating wire are arranged in the first stacked cushioning magnetic gradient piece, one end of the first spring for balancing penetrates through the first stacked cushioning magnetic gradient piece to be connected with the first stacked cushioning magnetic gradient protective shell, and the other end of the first spring for balancing is connected with one end of the first cushioning magnetic gradient piece; a first heat insulation pad is arranged on the first stacked cushioning magnetic gradient piece; the first shock absorption magnetic part is provided with a second heat insulation pad, the second heat insulation pad is arranged opposite to the first heat insulation pad, and an elastic connecting piece I is arranged between the first shock absorption magnetic part and the stacked shock absorption magnetic gradual change protective shell; a second balance spring and a second electric heating wire are arranged in the second stacked cushioning magnetic transition piece, one end of the second balance spring penetrates through the second stacked cushioning magnetic transition piece to be connected with the second stacked cushioning anti-blocking piece, and the other end of the second balance spring is connected with one end of the second cushioning magnetic transition piece; a third heat insulation pad is arranged on the second stacked cushioning magnetic transition piece; and a fourth heat insulation pad is arranged on the second cushioning magnetic part, a third heat insulation pad is arranged opposite to the fourth heat insulation pad, and a second elastic connecting part is arranged between the second cushioning magnetic part and the stacked cushioning anti-blocking part.

4. The electronic product accessory magnetically graduated cushioning transport shield of claim 3, wherein: the multipurpose connecting assembly for state transition comprises a fixed buckle for state adjustment, a clamping piece for state adjustment, a first connecting piece for state transition and a second connecting piece for state transition, wherein the first connecting piece for state transition and the second connecting piece for state transition are arranged on the multidimensional driving device, the fixed buckle for state adjustment and the clamping piece for state adjustment are arranged on the stacked buffering magnetic gradient protective shell, the fixed buckle for state adjustment and the clamping piece for state adjustment are hinged to be connected, and the stacked buffering magnetic gradient protective shell is movably hinged to be arranged on the first connecting piece for state transition and the second connecting piece for state transition.

5. The electronic product accessory magnetically graduated cushioning transport shield of claim 4, wherein: the multidimensional driving device comprises a nested transverse adjustment driving device, a nested longitudinal adjustment driving device and an oblique adjustment driving device, one end of the nested longitudinal adjustment driving device is arranged on the base, the oblique adjustment driving device is arranged at the other end of the nested longitudinal adjustment driving device, and one end of the nested transverse adjustment driving device is arranged on the oblique adjustment driving device.

6. The electronic product accessory magnetically graduated cushioning transport shield of claim 5, wherein: the telescopic external member of vertical adjustment of nested formula, hydraulic stem one, connecting piece and the telescopic external member of the vertical adjustment of nested formula are drawn together to nested formula vertical adjustment drive arrangement, the one end of hydraulic stem one is located on the base, the one end of the vertical fixed external member of adjustment of nested formula is located on the base, the vertical fixed external member of adjustment of nested formula is located between the hydraulic stem one, the vertical telescopic external member of adjustment of nested formula one end is located in the vertical fixed external member of adjustment of nested formula, slant adjustment drive arrangement locates on the other end of the vertical telescopic external member of adjustment of nested formula, the one end of connecting piece links to each other with the other end of the vertical telescopic external member of adjustment of nested formula, the other end of connecting piece links to each other with the other of the vertical telescopic external member of adjustment of nested formula, be equipped with the fixed block on the base, the fixed block links to each other with the vertical fixed external member of adjustment of nested formula and hydraulic stem one.

7. The electronic product accessory magnetically graduated cushioning transport shield of claim 6, wherein: slant adjustment drive arrangement includes motor, motor supporting seat and slant adjustment driving piece for rotation axis, slant adjustment, the motor supporting seat is located on the flexible external member of nested formula longitudinal adjustment, the motor is located on the motor supporting seat for the slant adjustment, the rotation axis activity runs through on locating the other end of the flexible external member of nested formula longitudinal adjustment, slant adjustment driving piece and rotation axis fixed connection, nested formula transverse adjustment drive arrangement locates on the slant adjustment driving piece, the rotation axis links to each other with the output of motor for the slant adjustment, the motor is positive and negative two commentaries on classics motor for the slant adjustment.

8. The electronic product accessory magnetically graduated cushioning transport shield of claim 7, wherein: the nested transverse adjustment driving device comprises a nested transverse adjustment telescopic external member, a nested transverse adjustment fixed external member, a second hydraulic rod, a nested transverse adjustment driving member and a second hydraulic rod hinged seat, wherein the second hydraulic rod hinged seat is arranged on the hydraulic rod hinged seat, one end of the second hydraulic rod is movably hinged on the second hydraulic rod hinged seat, the other end of the nested transverse adjustment driving member is movably hinged with the other end of the second hydraulic rod, one end of the nested transverse adjustment driving member is movably hinged at the joint of the other end of the nested transverse adjustment driving member and the other end of the second hydraulic rod, the nested transverse adjustment driving member is provided with a plurality of groups, the end parts of the nested transverse adjustment driving member are sequentially hinged, one end of the nested transverse adjustment fixed external member is arranged on the hydraulic rod adjustment driving member, the utility model discloses a flexible structure of state transition, including nested formula horizontal adjustment fixed external member, the flexible external member of nested formula horizontal adjustment is located in the flexible external member of nested formula horizontal adjustment to nested formula horizontal adjustment one end activity, the state transition is located on the flexible external member of nested formula horizontal adjustment with connecting piece two and is kept away from slant adjustment driving piece setting, the end activity of stack bradyseism magnetism gradual change protecting crust articulates locates on the fixed external member of nested formula horizontal adjustment, on one end of nested formula horizontal adjustment driving piece, on the state transition is with connecting piece one and state transition with connecting piece two.

9. The transportation protective assembly of claim 8, wherein the shock absorber further comprises: the nested type transverse adjustment driving piece and the nested type transverse adjustment driving piece are arranged in a rhombic structure, the end portion of the nested type transverse adjustment driving piece is hinged to the end portion of the nested type transverse adjustment driving piece, and the end portion of the nested type transverse adjustment driving piece is hinged to the end portion of the nested type transverse adjustment driving piece.

10. The transportation protective assembly of claim 9, wherein the shock absorber further comprises: be equipped with on the base and promote with hydraulic stem and spout, in the spout was located to the stiff end of promoting with the hydraulic stem, the expansion end of promoting with the hydraulic stem is connected with the bracing piece, be equipped with the gyro wheel on the bracing piece, be equipped with the reinforcing plate on the fixed external member of nested formula longitudinal adjustment.