CN115057085A - Moisture-proof crease-resistant data storage container for hydraulic engineering construction - Google Patents

Abstract

The invention discloses a moisture-proof crease-resistant data storage container for hydraulic engineering construction, which comprises a base, a rotating assembly, a fixing plate, a back-buckling type self-displacement storage device and an arc-shaped supporting piece, wherein one end of the rotating assembly is arranged in the base, the other end of the rotating assembly is movably arranged on the upper wall of the base, one end of the arc-shaped supporting piece is arranged on the upper wall of the base, the fixing plate is movably arranged on the other end of the arc-shaped supporting piece, the lower end of the back-buckling type self-displacement storage device is connected with the rotating assembly, and the upper end of the back-buckling type self-displacement storage device is arranged on the fixing plate. The invention belongs to the technical field of data storage devices, and particularly relates to a moisture-proof and crease-resistant data storage container for hydraulic engineering construction.

Description

Moisture-proof crease-resistant data storage container for hydraulic engineering construction

Technical Field

The invention belongs to the technical field of data storage devices, and particularly relates to a moisture-proof and crease-resistant data storage container for hydraulic engineering construction.

Background

With the continuous development of information technology, data needs to be stored while being recorded by the information technology, and although electronic file applications are more and more common nowadays, people usually choose to record and store some important file data by using traditional paper documents, so that data storage containers are produced.

However, the conventional data storage device has the following problems:

1. paper documents are stacked for a long time, and are easy to wrinkle and roll, so that the smoothness of the data is difficult to maintain;

2. the paper documents are affected with damp due to the existence of water vapor in the box body in the storage process, and the paper documents are corroded and damaged over time.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the moisture-proof crease-resistant data storage container for the hydraulic engineering construction, the back-buckling type self-displacement storage component is in an expansion state when opened and is convenient for storing data, and is in a compression state when closed, so that the data can be conveniently extruded and prevented from being folded, and a plurality of groups of back-buckling type self-displacement storage components are sequentially connected and are sealed end to end, so that the moisture-proof treatment of the data in the back-buckling type self-displacement storage components is realized.

The technical scheme adopted by the invention is as follows: the invention provides a moisture-proof and crease-resistant data storage container for hydraulic engineering construction, which comprises a base, a rotating component, a fixing plate, a back-buckling type self-displacement storage device and an arc-shaped supporting piece, one end of the rotating component is arranged in the base, the base protects and supports the rotating component, the other end of the rotating component is movably arranged on the upper wall of the base, one end of the arc-shaped supporting piece is arranged on the upper wall of the base, the base supports and fixes the arc-shaped supporting piece, the fixed plate is movably arranged at the other end of the arc-shaped supporting piece, the arc-shaped supporting piece supports and fixes the fixed plate, the lower end of the back-buckling type self-displacement storage device is connected with a rotating assembly which drives and supports the back-buckling type self-displacement storage device, the upper end of the back-buckling type self-displacement storage device is arranged on the fixing plate, and the fixing plate supports the upper end of the back-buckling type self-displacement storage device; the back-buckling type self-displacement storage device comprises an upper supporting plate, a back-buckling type driving assembly, a back-buckling type self-displacement storage assembly, a lower supporting plate and an adsorption member, wherein the lower supporting plate is arranged at the other end of the rotating assembly, the adsorption member is arranged on the lower supporting plate, the lower supporting plate supports and fixes the adsorption member, the upper supporting plate is arranged on the adsorption member, the adsorption member supports and fixes the upper supporting plate, one end of the back-buckling type driving assembly is arranged on the fixing plate, the other end of the back-buckling type driving assembly is arranged on the upper supporting plate, the upper supporting plate and the fixing plate play a role in supporting and fixing the back-buckling type driving assembly, one end of the back-buckling type self-displacement storage assembly is movably arranged on the upper supporting plate, the other end of the back-buckling type self-displacement storage assembly is movably arranged on the lower supporting plate, and one end of the back-buckling type self-displacement storage assembly is connected with the back-buckling type driving assembly, the back-buckling type driving assembly drives the back-buckling type self-extrusion storage assembly, the back-buckling type self-extrusion storage assembly is in an expansion state when being opened, data are convenient to store, and when being folded back, the back-buckling type self-extrusion storage assembly is in a compression state, is convenient to extrude the data, prevents data folds, and meanwhile realizes self-laminating sealing and drying treatment of the back-buckling type self-extrusion storage assembly internal data.

Wherein, the rotary buckle type driving component comprises a driving motor, a connecting piece, a driving shaft, a driven rod, a driving rod, a limiting shaft and a rotary plate, the fixed end of the driving motor is arranged on the fixed plate, the fixed plate supports and fixes the driving motor, the rotary plate is movably arranged on the upper supporting plate, one end of the connecting piece is connected with the rotary plate, the other end of the connecting piece is connected with the output shaft end of the driving motor, the limiting shaft is annularly arranged on the rotary plate at equal intervals, the driving shaft is annularly arranged on the upper supporting plate at equal intervals, the driving shaft can realize autorotation under the action of external force, the upper end of the driving shaft is arranged at the upper end of the upper supporting plate, the lower end of the driving shaft is arranged at the lower end of the upper supporting plate, one end of the driving rod is movably arranged on the limiting shaft, one end of the driven rod is connected with the upper end of the driving shaft, the other end of the driven rod is provided with a connecting shaft, the other end of the driving rod is movably arranged on the connecting shaft; the driving motor works to drive the connecting piece to rotate, the connecting piece drives the gyration plate to rotate, the gyration plate drives the limiting shaft to do annular motion, the limiting shaft drives one end of the driving rod to move, when the driving rod rotates along with the limiting shaft, relative sliding occurs between the driving rod and the limiting shaft, the other end of the driving rod drives the driven rod to move through the connecting shaft, meanwhile, relative sliding occurs between the driving rod and the connecting shaft, the connecting shaft drives the driven rod to move, the driven rod is driven by the connecting shaft to do rotary motion taking the driving shaft as a rotary center, and due to the fact that the driven rod is fixedly connected with the driving shaft, when the driven rod rotates, the driving shaft is driven to rotate in an autorotation mode.

Preferably, the back-buckling type self-displacement storage assembly comprises a back-buckling type self-displacement storage piece and a blocking piece, wherein the upper wall of the back-buckling type self-displacement storage piece is connected with the lower end of the driving shaft, the lower wall of the back-buckling type self-displacement storage piece is movably arranged on the upper wall of the lower supporting plate, the back-buckling type self-displacement storage piece is driven to rotate when the driving shaft rotates, so that the back-buckling type self-displacement storage piece is opened and closed, the blocking piece is movably arranged on the back-buckling type self-displacement storage piece, when data storage is needed, the blocking piece is taken down from the back-buckling type self-displacement storage piece, the data is placed in the back-buckling type self-displacement storage piece, then the blocking piece is arranged on the back-buckling type self-displacement storage piece, and the blocking piece blocks the back-buckling type self-displacement storage piece; when the back-buckling type self-extrusion storage element stores data and circles around between the upper supporting plate and the lower supporting plate, the plugging piece on the middle set of back-buckling type self-extrusion storage element is arranged at the tail part of the front set of back-buckling type self-extrusion storage element, the plugging piece on the middle set of back-buckling type self-extrusion storage element is sealed by the tail part of the front set of back-buckling type self-extrusion storage element, the plugging piece on the back set of back-buckling type self-extrusion storage element is arranged at the tail part of the middle set of back-buckling type self-extrusion storage element, the tail part of the middle set of back-buckling type self-extrusion storage element is used for sealing the plugging piece on the back set of back-buckling type self-extrusion storage element, the back-buckling type self-extrusion storage element is sequentially connected, the head and the tail are sealed, and the moisture-proof treatment of the data in the back-buckling type self-extrusion storage element is realized.

Furthermore, a plurality of groups of storage separation bodies, an elastic separation body and a temporary storage cavity I are arranged in the back-buckling type self-extrusion storage piece, the storage separation bodies are arranged in the plurality of groups of storage separation bodies, the storage separation bodies are arranged in the back-buckling type self-extrusion storage piece, storage cavities are arranged among the storage separation bodies and between the storage separation bodies and the back-buckling type self-extrusion storage piece and used for storing data files, desiccant storage pieces are arranged outside the elastic separation bodies and used for storing desiccants so as to facilitate moisture-proof treatment of data in the storage cavities, the temporary storage cavity I is arranged in one side wall of the back-buckling type self-extrusion storage piece and comprises a fixed cavity and an elastic temporary storage cavity, the fixed cavity and the elastic cavities are arranged in a staggered mode, a coil I is arranged in the elastic cavity and can generate a magnetic field after the coil I is electrified and is matched with the action of external magnetic force, and the coil drives the elastic cavity to move towards or away from the external magnetic force, the arrangement of the elastic cavity is convenient for deformation, and the arrangement of the fixed cavity is convenient for fixing and limiting the first coil.

Preferably, the elastic spacing member is made of a flexible elastic material and is easily deformed by an external force, the elastic spacing member is provided with a drying through hole, when the elastic spacing member is not deformed, the diameter of the drying through hole is small, volatilization of the drying agent is reduced, and when the elastic spacing member is deformed by a force, the diameter of the drying through hole is large, so that the air in the storage cavity is dried conveniently.

Preferably, the adsorption piece is internally provided with a temporary storage cavity II, the temporary storage cavity II is internally provided with a coil II, the coil II is provided with a plurality of groups, the coil II is annular and uniformly arranged in the temporary storage cavity II at equal intervals, and the coil is electrified to generate a magnetic field.

Preferably, the drying agent storage part is made of flexible elastic materials, is easy to deform under the action of external force, and is used for storing the drying agent.

Furthermore, the rotating assembly comprises a rotating motor, a rotating shaft and a turntable, the rotating motor is arranged in the base, the base supports and fixes the rotating motor, the turntable is movably arranged on the base, the rotating shaft is movably arranged on the upper wall of the base in a penetrating manner, one end of the rotating shaft is connected with the output shaft end of the rotating motor, and the other end of the rotating shaft is connected with the bottom wall of the turntable; the rotating motor works to drive the rotating shaft to rotate, and the rotating shaft drives the rotating disc to rotate.

Preferably, the turntable is provided with a support member, the lower support plate is arranged on the support member, the rotation of the turntable drives the support member to rotate, the support member drives the lower support plate to rotate, the lower support plate drives the adsorption member to rotate, the adsorption member drives the upper support plate to rotate, the lower support plate drives the back-buckling type self-displacement storage assembly to rotate, the upper support plate drives the back-buckling type driving assembly to rotate, and the back-buckling type driving assembly drives the fixing plate to rotate along the arc-shaped support member.

Wherein, the driving motor is a positive and negative rotation motor.

The invention with the structure has the following beneficial effects: this scheme provides a hydraulic engineering construction is with dampproofing crease-resistant data storage container beneficial effect as follows:

(1) the back-off type self-extrusion storage assembly is in an expansion state when being opened, is convenient for storing data, is in a compression state when being folded, is convenient for extruding the data, prevents data folds, and simultaneously realizes the self-laminating sealing and drying treatment of the back-off type self-extrusion storage assembly internal data.

(2) The back-buckling type self-displacement storage component can be driven to do periodic rotary motion or to open or close by the back-buckling type driving component, and conditions and convenience are provided for storage, taking, moisture prevention and crease prevention of data.

(3) Two adjacent sets of back-off formula are from crowding the storage component, and the afterbody of a preceding set of back-off formula is from crowding the storage component is located to the shutoff piece on the back-off formula of a back-off formula is from crowding the storage component, and the back-off formula of a plurality of groups is from crowding the storage component and linking to each other in proper order, and the head and the tail are sealed, realize the dampproofing of the interior data of back-off formula from crowding the storage component.

(4) The elastic spacing part is made of flexible elastic materials, the drying agent storage part is made of flexible elastic materials, and the elastic spacing part and the drying agent storage part are easy to deform under the action of external force.

(5) The dry through-hole that sets up on the elasticity spacing body, when the deformation did not take place for the elasticity spacing body, the aperture of dry through-hole is little, reduces volatilizing of drier, and when the deformation took place for the atress for the elasticity spacing body, the aperture grow of dry through-hole is convenient for deposit the drying of the air of intracavity.

(6) The arrangement of the elastic cavity is convenient for deformation, and the arrangement of the fixed cavity is convenient for fixing and limiting the first coil.

Drawings

FIG. 1 is a front view of a moisture-proof and wrinkle-proof data storage container for hydraulic engineering construction according to the present invention;

FIG. 2 is a schematic structural view of a back-buckling type self-displacement storage device of a moisture-proof and crease-resistant data storage container for hydraulic engineering construction according to the present invention;

FIG. 3 is a top view of a back-buckling type self-displacement storage device of a moisture-proof and crease-resistant data storage container for hydraulic engineering construction according to the present invention;

FIG. 4 is an isometric view of a back-buckle type self-displacement storage device for a moisture-proof and crease-resistant data storage container for hydraulic engineering construction according to the present invention;

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

FIG. 6 is a top view of a buckled self-displacing storage assembly of a moisture and crease resistant data storage container for hydraulic engineering construction according to the present invention when collapsed;

fig. 7 is a schematic structural view of the buckled self-displacement storage assembly of the moisture-proof and crease-resistant data storage container for hydraulic engineering construction, which is provided by the invention, when being folded;

fig. 8 is a partial enlarged view at B of fig. 7;

FIG. 9 is a top view of a back-threaded self-eject storage member of a moisture and crease resistant data storage container for hydraulic engineering construction in accordance with the present invention;

fig. 10 is a perspective view of a back-buckled self-displacing storage element of a moisture and crease resistant data storage container for hydraulic engineering construction in accordance with the present invention;

fig. 11 is a perspective view of an adsorption member of a moisture-proof and wrinkle-proof data storage container for hydraulic engineering construction according to the present invention.

The device comprises a base 1, a base 2, a rotating component 3, a fixing plate 4, a back-buckling type self-extrusion storage device 5, an arc-shaped supporting piece 6, an upper supporting plate 7, a back-buckling type driving component 8, a back-buckling type self-extrusion storage component 9, a lower supporting plate 10, an adsorption piece 11, a driving motor 12, a connecting piece 13, a driving shaft 14, a driven rod 15, a driving rod 16, a limiting shaft 17, a rotary plate 18, a connecting shaft 19, a back-buckling type self-extrusion storage piece 20, a sealing piece 21, a storage spacing piece 22, an elastic spacing piece 23, a temporary storage cavity I24, a storage cavity 25, a drying agent storage piece 26, a fixing cavity 27, an elastic cavity 28, a drying through hole 29, a temporary storage cavity II 30, a coil II 31, a coil I, a coil II 32, a rotating motor 33, a rotating shaft 34, a rotating disc 35 and a supporting piece.

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 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. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7 and fig. 8, the present invention provides a moisture-proof and crease-resistant data storage container for hydraulic engineering construction, which comprises a base 1, a rotating assembly 2, a fixing plate 3, a back-buckling self-displacement storage device 4 and an arc-shaped support member 5, wherein one end of the rotating assembly 2 is arranged in the base 1, the base 1 protects and supports the rotating assembly 2, the other end of the rotating assembly 2 is movably arranged on the upper wall of the base 1, one end of the arc-shaped support member 5 is arranged on the upper wall of the base 1, the base 1 supports and fixes the arc-shaped support member 5, the fixing plate 3 is movably arranged on the other end of the arc-shaped support member 5, the arc-shaped support member 5 supports and fixes the fixing plate 3, the lower end of the back-buckling self-displacement storage device 4 is connected with the rotating assembly 2, the rotating assembly 2 drives and supports the back-buckling self-displacement storage device 4, the upper end of the back-buckling type self-displacement storage device 4 is arranged on the fixed plate 3, and the fixed plate 3 supports the upper end of the back-buckling type self-displacement storage device 4; the back-buckling type self-extrusion storage device 4 comprises an upper supporting plate 6, a back-buckling type self-extrusion storage component 7, a back-buckling type self-extrusion storage component 8, a lower supporting plate 9 and an adsorption piece 10, wherein the lower supporting plate 9 is arranged at the other end of the rotating component 2, the adsorption piece 10 is arranged on the lower supporting plate 9, the lower supporting plate 9 supports and fixes the adsorption piece 10, the upper supporting plate 6 is arranged on the adsorption piece 10, the adsorption piece 10 supports and fixes the upper supporting plate 6, one end of the back-buckling type driving component 7 is arranged on the fixing plate 3, the other end of the back-buckling type driving component 7 is arranged on the upper supporting plate 6, the upper supporting plate 6 and the fixing plate 3 play a role in supporting and fixing the back-buckling type driving component 7, one end of the back-buckling type self-extrusion storage component 8 is movably arranged on the upper supporting plate 6, the other end of the back-buckling type self-extrusion storage component 8 is movably arranged on the lower supporting plate 9, one end of the back-buckling type self-extrusion storage component 8 is connected with the back-buckling type driving component 7, the back-buckling type driving component 7 drives the back-buckling type self-displacement storage component 8, the back-buckling type self-displacement storage component 8 is in an expansion state when opened and is convenient for storing data, and is in a compression state when closed, so that the data is convenient to extrude, the data is prevented from being folded, and meanwhile, the self-attaching sealing and drying treatment of the data in the back-buckling type self-displacement storage component 8 is realized; the back buckling type driving component 7 comprises a driving motor 11, a connecting piece 12, a driving shaft 13, a driven rod 14, a driving rod 15, a limiting shaft 16 and a rotary plate 17, wherein the fixed end of the driving motor 11 is arranged on a fixed plate 3, the fixed plate 3 supports and fixes the driving motor 11, the rotary plate 17 is movably arranged on an upper supporting plate 6, one end of the connecting piece 12 is connected with the rotary plate 17, the other end of the connecting piece 12 is connected with the output shaft end of the driving motor 11, the limiting shaft 16 is annularly and equally spaced and arranged on the rotary plate 17, the driving shaft 13 is annularly and equally spaced and movably arranged on the upper supporting plate 6, the driving shaft 13 can rotate under the action of external force, the upper end of the driving shaft 13 is arranged at the upper end of the upper supporting plate 6, the lower end of the driving shaft 13 is arranged at the lower end of the upper supporting plate 6, one end of the driving rod 15 is movably arranged on the limiting shaft 16, one end of the driven rod 14 is connected with the upper end of the driving shaft 13, the other end of the driven rod 14 is provided with a connecting shaft 18, and the other end of the driving rod 15 is movably arranged on the connecting shaft 18; the driving motor 11 works to drive the connecting piece 12 to rotate, the connecting piece 12 drives the rotary plate 17 to rotate, the rotary plate 17 drives the limit shaft 16 to do annular motion, the limit shaft 16 drives one end of the driving rod 15 to move, when the driving rod 15 rotates along with the limit shaft 16, the driving rod 15 and the limit shaft 16 slide relatively, the other end of the driving rod 15 drives the driven rod 14 to move through the connecting shaft 18, meanwhile, the driving rod 15 and the connecting shaft 18 slide relatively, the connecting shaft 18 drives the driven rod 14 to operate, the driven rod 14 is driven by the connecting shaft 18 to do rotary motion taking the driving shaft 13 as a rotary center, and the driven rod 14 is fixedly connected with the driving shaft 13 and drives the driving shaft 13 to rotate in a self-rotation mode when the driven rod 14 rotates; the driving motor 11 is a forward and reverse rotation motor.

As shown in fig. 2, 4, 5, 9, 10 and 11, the snapback type self-displacement storage assembly 8 includes a snapback type self-displacement storage element 19 and a blocking element 20, an upper wall of the snapback type self-displacement storage element 19 is connected to a lower end of the driving shaft 13, a lower wall of the snapback type self-displacement storage element 19 is movably disposed on an upper wall of the lower support plate 9, the driving shaft 13 drives the snapback type self-displacement storage element 19 to rotate when rotating, so that the snapback type self-displacement storage element 19 performs opening and closing movements, the blocking element 20 is movably disposed on the snapback type self-displacement storage element 19, when data storage is required, the blocking element 20 is taken down from the snapback type self-displacement storage element 19, the data is placed in the snapback type self-displacement storage element 19, then the blocking element 20 is disposed on the snapback type self-displacement storage element 19, and the blocking element 20 blocks the snapback type self-displacement storage element 19; when the back-buckling type self-extrusion storage element 19 stores data and circles around between the upper supporting plate 6 and the lower supporting plate 9, the plugging element 20 on the back-buckling type self-extrusion storage element 19 of the middle group is arranged at the tail part of the back-buckling type self-extrusion storage element 19 of the front group, the plugging element 20 on the back-buckling type self-extrusion storage element 19 of the middle group is sealed by the tail part of the back-buckling type self-extrusion storage element 19 of the front group, the plugging element 20 on the back-buckling type self-extrusion storage element 19 of the back group is arranged at the tail part of the back-buckling type self-extrusion storage element 19 of the middle group, the plugging element 20 on the back-buckling type self-extrusion storage element 19 of the back group is sealed by the tail part of the back-buckling type self-extrusion storage element 19 of the middle group, the back-buckling type self-extrusion storage element 19 of the middle group is sequentially connected, and the head and the tail are sealed, so that the moisture-proof treatment of the data in the back-buckling type self-extrusion storage element 19 is realized; a temporary storage cavity II 29 is arranged in the adsorption piece 10, a coil II 30 is arranged in the temporary storage cavity II 29, a plurality of groups of the coil II 30 are arranged, the plurality of groups of the coil II 30 are uniformly arranged in the temporary storage cavity II 29 in an annular shape at equal intervals, and the coil II 30 is electrified to generate a magnetic field; the back-buckling type self-extrusion storage piece 19 is internally provided with storage spacing parts 21, elastic spacing parts 22 and a temporary storage cavity I23, the storage spacing parts 21 are provided with a plurality of groups, the storage spacing parts 21 are arranged in the back-buckling type self-extrusion storage piece 19, storage cavities 24 are arranged among the storage spacing parts 21 and between the storage spacing parts 21 and the back-buckling type self-extrusion storage piece 19, the storage cavities 24 are used for storing data files, a desiccant storage part 25 is arranged outside the elastic spacing part 22, the desiccant storage part 25 is used for storing desiccant to facilitate the moisture-proof treatment of the data in the storage cavities 24, the temporary storage cavity I23 is arranged in one side wall of the back-buckling type self-extrusion storage piece 19, the temporary storage cavity I23 comprises a fixed cavity 26 and an elastic cavity 27, the fixed cavity 26 and the elastic cavity 27 are arranged in a staggered mode, a coil I31 is arranged in the elastic cavity 27, the coil I31 can generate a magnetic field after being electrified, the coil I31 can drive the elastic cavity 27 to move towards or away from the external magnetic force, the elastic cavity 27 is convenient to deform, and the fixing cavity 26 is convenient to fix and limit the coil I31; the elastic separation part 22 is made of flexible elastic materials, the drying agent storage part 25 is made of flexible elastic materials, the elastic separation part 22 and the drying agent storage part 25 are easy to deform under the action of external force, the elastic separation part 22 is provided with a drying through hole 28, drying agents are stored in the drying agent storage part 25, when the elastic separation part 22 is not deformed, the hole diameter of the drying through hole 28 is small, volatilization of the drying agents is reduced, when the elastic separation part 22 deforms under stress, the hole diameter of the drying through hole 28 is enlarged, and drying of air in the storage cavity is facilitated.

As shown in fig. 1, the rotating assembly 2 includes a rotating electrical machine 32, a rotating shaft 33 and a rotating disk 34, the rotating electrical machine 32 is disposed in the base 1, the base 1 supports and fixes the rotating electrical machine 32, the rotating disk 34 is movably disposed on the base 1, the rotating shaft 33 is movably disposed on the upper wall of the base 1 in a penetrating manner, one end of the rotating shaft 33 is connected with an output shaft end of the rotating electrical machine 32, and the other end of the rotating shaft 33 is connected with the bottom wall of the rotating disk 34; the rotating motor 32 works to drive the rotating shaft 33 to rotate, and the rotating shaft 33 drives the turntable 34 to rotate; be equipped with support piece 35 on carousel 34, support piece 35 is located to bottom suspension fagging 9, it is rotatory that support piece 35 is rotatory to the rotatory drive of carousel 34, support piece 35 drives bottom suspension fagging 9 and rotates, bottom suspension fagging 9 drives and adsorbs 10 rotation, it is rotatory that backup pad 6 is driven to adsorb 10, bottom suspension fagging 9 drives the back-off formula and is rotatory from crowding storage component 8, it is rotatory that back-off formula drive assembly 7 is driven to last backup pad 6, back-off formula drive assembly 7 drives fixed plate 3 and rotates along arc support piece 5.

When in specific use:

the driving motor 11 works to drive the connecting piece 12 to rotate, the connecting piece 12 drives the rotary plate 17 to rotate, the rotary plate 17 drives the limit shaft 16 to do annular motion, the limit shaft 16 drives one end of the driving rod 15 to move, when the driving rod 15 rotates along with the limit shaft 16, the driving rod 15 and the limit shaft 16 slide relatively, the other end of the driving rod 15 drives the driven rod 14 to move through the connecting shaft 18, meanwhile, the driving rod 15 and the connecting shaft 18 slide relatively, the connecting shaft 18 drives the driven rod 14 to operate, the driven rod 14 is driven by the connecting shaft 18 to do rotary motion with the driving shaft 13 as a rotary center, because the driven rod 14 is fixedly connected with the driving shaft 13, when the driven rod 14 rotates, the driving shaft 13 rotates, when the driving shaft 13 rotates, the rotary buckle type self-extrusion storage piece 19 is driven to rotate, so that the rotary buckle type self-extrusion storage piece 19 does opening and closing motion, when the back-buckling type self-displacement storage element 19 is opened, the plugging element 20 is taken down from the back-buckling type self-displacement storage element 19, the adjacent coils 31 are electrified in the same direction, the coils 31 adjacent to each other generate magnetic attraction, the coils 31 drive the elastic cavity 27 to move outwards, the storage cavity 24 on the back-buckling type self-displacement storage element 19 is opened so as to conveniently place data in the storage cavity 24, then the coils 31 are powered off, the elastic cavity 27 drives the temporary storage cavity 23 to move inwards, the space in the back-buckling type self-displacement storage element 19 is reduced, then the plugging element 20 is arranged on the back-buckling type self-displacement storage element 19, the back-buckling type self-displacement storage element 19 performs closed movement, the back-buckling type self-displacement storage element 19 stores the data and rotates to a position between the upper supporting plate 6 and the lower supporting plate 9, the plugging element 20 on the middle group of back-buckling type self-displacement storage elements 19 is arranged at the tail part of the front group of back-buckling type self-displacement storage elements 19, the blocking piece 20 on the back set of the back buckling type self-extrusion storage piece 19 is arranged at the tail part of the middle set of the back buckling type self-extrusion storage piece 19, the coil II 30 and the coil I31 are electrified and have different magnetism, the coil I31 drives the elastic cavity 27 to move towards the direction close to the adsorption piece 10, the temporary storage cavity I23 on the back buckling type self-extrusion storage piece 19 extrudes towards the side wall opposite to the temporary storage cavity I23, the elastic separation piece 22 is arranged by adopting a flexible elastic material, the drying agent storage piece 25 is arranged by adopting a flexible elastic material, the elastic separation piece 22 and the drying agent storage piece 25 are easy to deform under the action of external force, air in the back buckling type self-extrusion storage piece 19 enters the drying agent storage piece 25 through the drying through hole 28, the drying agent storage piece 25 expands outwards, meanwhile, the elastic separation piece 22 is expanded under the stress, the drying agent storage piece 25 is used for storing the drying agent, and when the elastic separation piece 22 is not deformed, the aperture of the drying through hole 28 is small, the volatilization of the drying agent is reduced, when the elastic separation element 22 is stressed to deform, the aperture of the drying through hole 28 is enlarged, the drying of the air in the storage cavity is facilitated, the drying agent storage element 25 after the expansion of the previous group of buckled self-extrusion storage elements 19 performs sealing treatment on the plugging element 20 on the middle group of buckled self-extrusion storage elements 19, and the drying agent storage element 25 after the expansion of the middle group of buckled self-extrusion storage elements 19 performs sealing treatment on the plugging element 20 on the next group of buckled self-extrusion storage elements 19, and the plugging elements are sequentially connected and sealed end to end, so that the moisture-proof treatment of the data in the buckled self-extrusion storage elements 19 is realized;

when data needs to be stored or taken, the second coil 30 and the first coil 31 are powered off, air in the drying agent storage piece 25 enters the buckled type self-displacement storage piece 19 through the drying through hole 28, the buckled type self-displacement storage piece 19 recovers deformation, the drying agent storage piece 25 and the elastic spacing piece 22 recover deformation, the driving motor drives the buckled type self-displacement storage piece 19 to be opened, and then the work is repeated;

rotating electrical machines 32 work and drive pivot 33 rotatory, pivot 33 drives carousel 34 rotatory, carousel 34 is rotatory to drive support piece 35 rotatory, support piece 35 drives the lower backup pad 9 rotatory, the lower backup pad 9 drives and adsorbs a 10 rotation, it is rotatory that the backup pad 6 is driven to adsorb 10, the lower backup pad 9 drives the back-off formula and is rotatory from crowded storage component 8, it is rotatory that the backup pad 6 drives back-off formula drive assembly 7 to go up the backup pad, back-off formula drive assembly 7 drives fixed plate 3 and rotates along arc support piece 5, can adjust the position of back-off formula from crowded storage component 8, be convenient for deposit and the data of taking.

The specific working process of the invention is described above, and the steps are repeated when the device is used next time.

It is noted that, herein, relational terms such as first and second, and the like may be 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 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 are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a hydraulic engineering construction is with dampproofing crease-resistant data storage container which characterized in that: the automatic-discharging and storing device comprises a base, a rotating assembly, a fixing plate, a back-buckling type automatic-discharging and storing device and an arc-shaped supporting piece, wherein one end of the rotating assembly is arranged in the base, the other end of the rotating assembly is movably arranged on the upper wall of the base, one end of the arc-shaped supporting piece is arranged on the upper wall of the base, the fixing plate is movably arranged on the other end of the arc-shaped supporting piece, the lower end of the back-buckling type automatic-discharging and storing device is connected with the rotating assembly, and the upper end of the back-buckling type automatic-discharging and storing device is arranged on the fixing plate; the back-buckling type self-extrusion storage device comprises an upper supporting plate, a back-buckling type driving assembly, a back-buckling type self-extrusion storage assembly, a lower supporting plate and an adsorption piece, wherein the lower supporting plate is arranged at the other end of the rotating assembly, the adsorption piece is arranged on the lower supporting plate, the upper supporting plate is arranged on the adsorption piece, one end of the back-buckling type driving assembly is arranged on a fixed plate, the other end of the back-buckling type driving assembly is arranged on the upper supporting plate, one end of the back-buckling type self-extrusion storage assembly is movably arranged on the upper supporting plate, the other end of the back-buckling type self-extrusion storage assembly is movably arranged on the lower supporting plate, and one end of the back-buckling type self-extrusion storage assembly is connected with the back-buckling type driving assembly.

2. The moisture-proof and crease-resistant data storage container for hydraulic engineering construction according to claim 1, wherein: the formula drive assembly that detains back includes driving motor, connecting piece, drive shaft, driven lever, driving lever, spacing axle and gyration board, driving motor's stiff end is located on the fixed plate, the activity of gyration board is located on the backup pad, the one end of connecting piece links to each other with the gyration board, the other end of connecting piece links to each other with driving motor's output axle head, spacing axle is that interval such as annular is located on the gyration board, the drive shaft is the interval activity such as annular and locates on the backup pad, backup pad upper end is located to the upper end of drive shaft, the lower extreme of backup pad is located to the lower extreme of drive shaft, spacing epaxial is located in the one end activity of driving lever, the one end of driven lever links to each other with the upper end of drive shaft, be equipped with the connecting axle on the other end of driven lever, the other end activity of driving lever is located on the connecting axle.

3. The moisture-proof and crease-resistant data storage container for hydraulic engineering construction according to claim 2, wherein: the back-off type self-extrusion storage assembly comprises a back-off type self-extrusion storage piece and a blocking piece, the upper wall of the back-off type self-extrusion storage piece is connected with the lower end of the driving shaft, the lower wall of the back-off type self-extrusion storage piece is movably arranged on the upper wall of the lower supporting plate, and the blocking piece is movably arranged on the back-off type self-extrusion storage piece.

4. The moisture-proof and crease-resistant data storage container for hydraulic engineering construction according to claim 3, wherein: the utility model discloses a storage piece, including back-off formula, storage piece, elasticity separator and elasticity chamber, it is equipped with a plurality of groups to deposit the separator, and a plurality of groups to deposit the separator and locate the back-off formula in the storage piece is crowded from the crowd, deposit between the separator and deposit separator and back-off formula and be equipped with the storage chamber from crowding between the storage piece, elasticity separator is equipped with drier storage piece outward, the chamber of keeping in is located the back-off formula and is crowded from a lateral wall in the storage piece, chamber one of keeping in includes fixed chamber and elasticity chamber, fixed chamber and the crisscross setting of elasticity chamber, the elasticity intracavity is equipped with coil one.

5. The moisture-proof and crease-resistant data storage container for hydraulic engineering construction according to claim 4, wherein: the elastic spacing body is made of flexible elastic materials, and a drying through hole is formed in the elastic spacing body.

6. The water conservancy project construction is with dampproofing crease-resistant data storage container of claim 5, characterized in that: the adsorption piece is internally provided with a temporary storage cavity II, the temporary storage cavity II is internally provided with a coil II, the coil II is provided with a plurality of groups, and the coil II is annular and evenly arranged in the temporary storage cavity II at equal intervals.

7. The water conservancy project construction is with dampproofing crease-resistant data storage container of claim 6, characterized in that: the drying agent storage piece is made of flexible elastic materials.

8. The moisture-proof and crease-resistant data storage container for hydraulic engineering construction according to claim 7, wherein: the rotating assembly comprises a rotating motor, a rotating shaft and a rotating disc, the rotating motor is arranged in the base, the rotating disc is movably arranged on the base, the rotating shaft is movably arranged on the upper wall of the base in a penetrating mode, one end of the rotating shaft is connected with the output shaft end of the rotating motor, and the other end of the rotating shaft is connected with the bottom wall of the rotating disc.

9. The moisture-proof and crease-resistant data storage container for hydraulic engineering construction according to claim 8, wherein: the turntable is provided with a support piece, and the lower support plate is arranged on the support piece.

10. The moisture-proof and crease-resistant data storage container for hydraulic engineering construction according to claim 9, wherein: the driving motor is a forward and reverse rotating motor.

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