CN111169787A

CN111169787A - New material seal storage device

Info

Publication number: CN111169787A
Application number: CN202010065886.3A
Authority: CN
Inventors: 不公告发明人
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-06-30
Filing date: 2018-06-30
Publication date: 2020-05-19
Also published as: CN108974739B; CN108974739A; CN111169788A

Abstract

The invention relates to a storage device, in particular to a new material sealing storage device, which comprises a whole machine bracket, a storage mechanism, a top plate, a closed gear ring, a gear, a closed plate I, a closed plate II, a connecting rod, a shifting fork, a clamping mechanism, two clamping plates and a sliding plate, wherein the middle end of the storage mechanism is connected to the whole machine bracket in a sliding manner, a compression spring I is arranged between the storage mechanism and the whole machine bracket, the left end and the right end of the storage mechanism are clamped on the whole machine bracket, the top plate is connected to the whole machine bracket in a sliding manner, the top plate is fixedly connected to the upper end of the storage mechanism, the two closed gear rings are symmetrically arranged, the new material can be stored according to the clamping requirement of the new material, when the new material is placed in the device and needs to be clamped at a fixed position, the device can clamp the new, the device can not clamp new materials.

Description

New material seal storage device

Technical Field

The invention relates to a storage device, in particular to a new material sealed storage device.

Background

For example, patent No. CN201220587458.8 discloses a sealed storage device, which includes a drawer and a shelf located above the drawer, wherein a sealing device matched with the drawer is disposed on the periphery of the shelf, slide ways are disposed on both sides of the shelf, slide rails capable of sliding in the slide ways are correspondingly disposed on both sides of the drawer, a supporting portion is disposed at the front end of the slide way, a groove is formed by downward recessing the lower surface of the rear end of the slide way, a stopper is protruded downward from the upper surface of the front end of the slide way, a sliding groove is recessed inward from the lower surface of the front end of the slide way, and a sliding block is disposed at the rear end of the slide way, so that when the slide rail is pushed into the rearmost end, the sliding block; the utility model discloses a shortcoming is that can not come to save the new material according to the clamping needs of new material.

Disclosure of Invention

The invention aims to provide a new material sealing storage device which can store new materials according to the clamping requirements of the new materials, can clamp the new materials when the new materials are placed in the device and need to be clamped at fixed positions, and can not clamp the new materials when the new materials are placed in the device and do not need to be clamped at fixed positions.

The purpose of the invention is realized by the following technical scheme:

a new material sealing storage device comprises a complete machine support, a storage mechanism, a top plate, closed gear rings, gears, a closed plate I, a closed plate II, a connecting rod, a shifting fork, a clamping mechanism, a clamping plate and a sliding plate, wherein the middle end of the storage mechanism is connected to the complete machine support in a sliding mode, a compression spring I is arranged between the storage mechanism and the complete machine support, the left end and the right end of the storage mechanism are clamped on the complete machine support, the top plate is connected to the complete machine support in a sliding mode, the top plate is fixedly connected to the upper end of the storage mechanism, the two closed gear rings are symmetrically arranged, the two closed gear rings are respectively connected to the upper end of the storage mechanism and the lower end of the top plate in a rotating mode, the two gears are symmetrically arranged in the left and right mode, the two gears are respectively meshed with the two closed gear rings, the two gears are, the equal sliding connection in inboard of closure plate I and closure plate II is on storing the mechanism, the one end of connecting rod articulates on storing the mechanism, the other end of connecting rod articulates the upper end at the shift fork, the middle-end sliding connection of shift fork is on the complete machine support, the lower extreme of shift fork rotates to be connected in clamping machine structure, clamping machine constructs to rotate to be connected on the complete machine support, the equal bilateral symmetry of clamping plate and sliding plate is provided with two, the lower extreme of two clamping plates all passes through threaded connection in clamping machine constructs, the equal sliding connection in middle-end of two clamping plates is on the complete machine support, two sliding plates sliding connection respectively is on two clamping plates, all be provided with compression spring III between two sliding plates and two clamping plates, the upper end of two sliding plates and two clamping plates all sets.

According to the technical scheme, the new material sealing storage device comprises a bottom plate, side plates, a bottom plate cylinder, two W-shaped clamping blocks, two sliding grooves I, two vertical sliding grooves, two clearance grooves and two circular through holes I, wherein the two side plates, the two W-shaped clamping blocks, the two sliding grooves I and the two vertical sliding grooves are arranged in a bilateral symmetry mode, the left end and the right end of the bottom plate are fixedly connected to the middle ends of the two side plates respectively, the bottom plate cylinder is fixedly connected to the middle end of the bottom plate, the two W-shaped clamping blocks are fixedly connected to the inner sides of the two side plates respectively, the two sliding grooves I are arranged on the bottom plate, the two vertical sliding grooves are arranged on the two side plates respectively, the two side plates are located at the upper ends of the two W-shaped clamping blocks respectively, the clearance grooves and the circular through holes I are arranged on the side plates located.

As a further optimization of the technical scheme, the new material sealing storage device comprises a storage box, mounting columns, a closed support, two closed baffles, a circular mounting plate, two sliding cylinders, triangular clamping blocks, a sliding groove II and the sliding columns, wherein the storage box is a box body with an open upper end, the four mounting columns are respectively and fixedly connected to four corners of the upper end of the storage box, the closed support is fixedly connected to the upper end of the storage box, the two closed baffles are respectively and fixedly connected to the upper end of the closed support, the inner sides of the two closed baffles form a closed sliding groove, the circular mounting plate is fixedly connected to the upper end of the storage box, the two sliding cylinders, the triangular clamping blocks and the sliding groove II are respectively and symmetrically arranged at the left and right sides of the storage box, the inner sides of the two triangular clamping blocks are respectively and slidably connected to the outer sides of the two sliding cylinders, equal fixedly connected with compression spring II between two triangle-shaped fixture blocks and two slip cylinders, two sliding tray II all set up the lower extreme at the bin, and slip post fixed connection is in the middle-end of bin downside, and slip post sliding connection is in a bottom plate section of thick bamboo, fixedly connected with compression spring I between slip post and the bottom plate, and two triangle-shaped fixture blocks joint respectively is on two W shape fixture blocks.

As a further optimization of the technical scheme, the new material sealing storage device comprises a top plate body, two top plate cylinders and two sliding blocks, wherein the top plate cylinders are fixedly connected to the middle end of the top plate body, the two sliding blocks are arranged in bilateral symmetry, the two sliding blocks are respectively and fixedly connected to the left end and the right end of the top plate body, the two sliding blocks are respectively and slidably connected into the two vertical sliding grooves, and the top plate body is fixedly connected to the upper ends of the four mounting columns.

As a further optimization of the technical scheme, the new material sealing storage device is characterized in that a closed tooth groove and a closed mounting groove are formed in a closed gear ring, the closed tooth groove and the closed mounting groove are respectively and coaxially arranged at the upper end and the lower end of the closed gear ring, the closed gear ring positioned at the lower side is rotatably connected to a circular mounting plate through the closed mounting groove, the closed gear ring positioned at the upper side is rotatably connected to a top plate cylinder through the closed mounting groove, and two gears are respectively in meshing transmission with the gear rings in the two closed tooth grooves;

the closed plate I comprises a threaded rod I, a closed plate body I and a closed groove, the closed plate body I is fixedly connected to the left end of the threaded rod I, the closed groove is formed in the left end of the closed plate body I, the threaded rod I is connected to a gear located on the right side through threads, the threaded rod I is connected to a closed support in a sliding mode, and the closed plate body I is connected to a closed sliding groove formed in the inner sides of two closed baffles in a sliding mode;

the closing plate II comprises a threaded rod II, a closing plate body II and a closing body, the closing plate body II is fixedly connected to the right end of the threaded rod II, the closing body is fixedly connected to the right end of the closing plate body II, the threaded rod II is connected to a gear located on the left side through threads, the threaded rod II is slidably connected to a closing support, and the closing plate body II is slidably connected to a closing sliding groove formed in the inner sides of the two closing baffles.

According to the new material sealing storage device, the shifting fork comprises a shifting fork body and a shifting fork sliding column, the right end of the shifting fork sliding column is fixedly connected to the shifting fork body, the shifting fork sliding column is connected in the circular through hole I in a sliding mode, the upper end of the connecting rod is hinged to the storage box, and the lower end of the connecting rod is hinged to the upper end of the shifting fork body. The lower end of the connecting rod is inclined to the right.

As a further optimization of the technical scheme, the new material sealing and storing device comprises a screw rod, a handle, sliding side teeth and a connecting key, wherein the handle is provided with the side teeth, the thread turning directions of the left end and the right end of the screw rod are opposite, the handle is rotatably connected to the right end of the screw rod, the sliding side teeth are slidably connected to the right end of the screw rod through the connecting key, the sliding side teeth are located at the left end of the handle, the two ends of the screw rod are respectively rotatably connected to two side plates, and the lower end of a shifting fork body is rotatably connected to the sliding side teeth.

As a further optimization of the technical scheme, the new material sealing storage device comprises a clamping plate, two clamping plate bodies and two circular through holes II, wherein the upper end of the clamping plate is fixedly connected to the clamping plate, the two circular through holes II are symmetrically arranged on the left side, the two circular through holes II are arranged on the clamping plate, the lower ends of the two clamping plate rods are respectively connected to the left end and the right end of a screw rod through threads, the two clamping plate rods are respectively and slidably connected to the two sliding grooves I, the two clamping plate rods respectively penetrate through the two sliding grooves II, and the two clamping plate bodies are located in a storage box.

As a further optimization of the technical scheme, the new material sealing storage device comprises two sliding plate bodies and two sliding plate columns, wherein the two sliding plate columns are arranged in bilateral symmetry, one ends of the two sliding plate columns are fixedly connected to the sliding plate bodies, the four sliding plate columns are respectively connected to the four circular through holes II in a sliding mode, the four sliding plate columns are respectively sleeved with a compression spring III, and the four compression springs III are respectively located between the two sliding plate bodies and the two clamping plate bodies.

The new material sealing storage device has the beneficial effects that:

the new material sealing storage device can store new materials according to the clamping requirements of the new materials, when the new materials are placed in the device and need to be clamped at fixed positions, the device can clamp the new materials through the clamping mechanism, and when the new materials are placed in the device and do not need to be clamped at fixed positions, the device cannot clamp the new materials.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic diagram of the overall structure of the new material sealed storage device of the present invention;

FIG. 2 is a schematic structural view of a cross-sectional view of the new material sealed storage device of the present invention;

FIG. 3 is a schematic view of the overall bracket structure of the present invention;

FIG. 4 is a schematic view of the storage mechanism of the present invention;

FIG. 5 is a schematic cross-sectional view of the storage mechanism of the present invention;

FIG. 6 is a schematic view of the top plate construction of the present invention;

FIG. 7 is a schematic view of a closed ring gear configuration of the present invention;

FIG. 8 is a schematic view of a bottom view of the closed ring gear of the present invention;

FIG. 9 is a schematic view of the closure panel I of the present invention;

FIG. 10 is a schematic view of the closure panel II of the present invention;

FIG. 11 is a schematic view of a fork of the present invention;

FIG. 12 is a schematic structural view of a clamping mechanism of the present invention;

FIG. 13 is a cross-sectional structural view of the clamping mechanism of the present invention;

FIG. 14 is a schematic view of a chuck structure of the present invention;

fig. 15 is a schematic view of the slide plate structure of the present invention.

In the figure: a complete machine bracket 1; a bottom plate 1-1; side plates 1-2; 1-3 of a bottom plate cylinder; 1-4 of a W-shaped fixture block; 1-5 sliding grooves; 1-6 of a vertical sliding groove; 1-7 of a clearance groove; 1-8 circular through holes; a storage mechanism 2; a storage tank 2-1; mounting a column 2-2; 2-3 of a closed bracket; 2-4 of a closed baffle; 2-5 of a circular mounting plate; 2-6 of a sliding cylinder; 2-7 parts of triangular fixture blocks; 2-8 of a sliding groove; 2-9 of a sliding column; a top plate 3; a top plate body 3-1; a roof cylinder 3-2; 3-3 of a sliding block; closing the gear ring 4; 4-1, closing the tooth groove; closing the installation groove 4-2; a gear 5; a closing plate I6; 6-1 parts of a threaded rod; the closing plate body I6-2; closed groove 6-3; a closing plate II 7; a threaded rod II 7-1; a closing plate body II 7-2; closure 7-3; a connecting rod 8; a shift fork 9; a fork body 9-1; a shifting fork sliding column 9-2; a clamping mechanism 10; 10-1 of a screw rod; a handle 10-2; sliding side teeth 10-3; 10-4 of a connecting bond; a clamping plate 11; clamping the plate rod 11-1; a clamping plate body 11-2; a circular through hole II 11-3; a slide plate 12; a slide plate body 12-1; sliding plate column 12-2.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 15, a new material sealed storage device includes a complete machine support 1, a storage mechanism 2, a top plate 3, closed gear rings 4, gears 5, a closed plate i 6, a closed plate ii 7, a connecting rod 8, a shift fork 9, a clamping mechanism 10, a clamping plate 11 and a sliding plate 12, wherein the middle end of the storage mechanism 2 is slidably connected to the complete machine support 1, a compression spring i is disposed between the storage mechanism 2 and the complete machine support 1, the left and right ends of the storage mechanism 2 are both clamped to the complete machine support 1, the top plate 3 is slidably connected to the complete machine support 1, the top plate 3 is fixedly connected to the upper end of the storage mechanism 2, the two closed gear rings 4 are symmetrically disposed, the two closed gear rings 4 are respectively rotatably connected to the upper end of the storage mechanism 2 and the lower end of the top plate 3, the two gears 5 are symmetrically disposed left and, the two gears 5 are respectively connected on a closed plate I6 and a closed plate II 7 through threads, the outer sides of the closed plate I6 and the closed plate II 7 are both connected on a whole machine bracket 1 in a sliding mode, the inner sides of the closed plate I6 and the closed plate II 7 are both connected on a storage mechanism 2 in a sliding mode, one end of a connecting rod 8 is hinged on the storage mechanism 2, the other end of the connecting rod 8 is hinged at the upper end of a shifting fork 9, the middle end of the shifting fork 9 is connected on the whole machine bracket 1 in a sliding mode, the lower end of the shifting fork 9 is connected on a clamping mechanism 10 in a rotating mode, the clamping mechanism 10 is connected on the whole machine bracket 1 in a rotating mode, two clamping plates 11 and two sliding plates 12 are symmetrically arranged in the left-right mode, the lower ends of the two clamping plates 11 are both connected on the clamping mechanism 10 through threads, the middle ends of the two clamping plates 11 are both connected on the whole machine bracket 1, the upper ends of the two sliding plates 12 and the two clamping plates 11 are arranged in the storage mechanism 2; the new material can be stored according to the clamping requirement of the new material, when the new material is placed in the device and needs to be clamped at a fixed position, the device can clamp the new material through the clamping mechanism 10, and when the new material is placed in the device and does not need to be clamped at the fixed position, the device cannot clamp the new material.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 15, and the embodiment further describes the first embodiment, the complete machine bracket 1 includes a bottom plate 1-1, side plates 1-2, a bottom plate cylinder 1-3, W-shaped fixture blocks 1-4, sliding grooves i 1-5, vertical sliding grooves 1-6, clearance grooves 1-7 and circular through holes i 1-8, the side plates 1-2, the W-shaped fixture blocks 1-4, the sliding grooves i 1-5 and the vertical sliding grooves 1-6 are symmetrically arranged in left and right, the left and right ends of the bottom plate 1-1 are respectively and fixedly connected to the middle ends of the two side plates 1-2, the bottom plate cylinder 1-3 is fixedly connected to the middle end of the bottom plate 1-1, the two W-shaped fixture blocks 1-4 are respectively and fixedly connected to the inner sides of the two side plates 1-2, the two sliding grooves I1-5 are arranged on the bottom plate 1-1, the two vertical sliding grooves 1-6 are arranged on the two side plates 1-2 respectively, the two side plates 1-2 are located at the upper ends of the two W-shaped clamping blocks 1-4 respectively, the clearance grooves 1-7 and the circular through holes I1-8 are arranged on the side plates 1-2 located on the right side, and the clearance grooves 1-7 are located at the upper ends of the circular through holes I1-8.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 15, and the embodiment is further described, wherein the storage mechanism 2 includes a storage box 2-1, mounting columns 2-2, a closed bracket 2-3, closed baffles 2-4, a circular mounting plate 2-5, a sliding cylinder 2-6, triangular clamping blocks 2-7, sliding grooves ii 2-8 and sliding columns 2-9, the storage box 2-1 is a box body with an open upper end, four mounting columns 2-2 are provided, four mounting columns 2-2 are respectively fixedly connected to four corners of the upper end of the storage box 2-1, the closed bracket 2-3 is fixedly connected to the upper end of the storage box 2-1, two closed baffles 2-4 are provided, and two closed baffles 2-4 are both fixedly connected to the upper end of the closed bracket 2-3, the inner sides of the two closed baffles 2-4 form a closed sliding groove, the circular mounting plate 2-5 is fixedly connected with the upper end of the storage tank 2-1, the sliding cylinders 2-6, the triangular clamping blocks 2-7 and the sliding grooves II 2-8 are symmetrically arranged in a left-right manner, the two sliding cylinders 2-6 are respectively and fixedly connected with the left side and the right side of the storage tank 2-1, the inner sides of the two triangular clamping blocks 2-7 are respectively and slidably connected with the outer sides of the two sliding cylinders 2-6, a compression spring II is fixedly connected between the two triangular clamping blocks 2-7 and the two sliding cylinders 2-6, the two sliding grooves II 2-8 are respectively arranged at the lower end of the storage tank 2-1, the sliding columns 2-9 are fixedly connected with the middle end of the lower side of the storage tank 2-1, the sliding columns 2-9, a compression spring I is fixedly connected between the sliding column 2-9 and the bottom plate 1-1, and the two triangular clamping blocks 2-7 are respectively clamped on the two W-shaped clamping blocks 1-4; when in use, a novel material to be stored is placed in the storage tank 2-1, the weight in the storage tank 2-1 is increased, the storage tank 2-1 can move downwards, the storage tank 2-1 extrudes the compression spring I, the storage tank 2-1 pushes the sliding column 2-9 to move downwards, the sliding column 2-9 slides in the bottom plate cylinder 1-3, the storage tank 2-1 drives the two sliding cylinders 2-6 to move downwards, the two sliding cylinders 2-6 drive the two triangular clamping blocks 2-7 to move downwards, the triangular clamping blocks 2-7 extrude the compression spring II to move downwards, the two triangular clamping blocks 2-7 are clamped at the upper ends of the two W-shaped clamping blocks 1-4 in the initial state, and the two triangular clamping blocks 2-7 are respectively clamped at the lower ends of the two W-shaped clamping blocks 1-4 when the novel material is placed in the storage tank 2-1, when the novel material in the storage box 2-1 is taken out, the compression spring I pushes the storage box 2-1 to move upwards, and the two triangular clamping blocks 2-7 are respectively clamped at the upper ends of the two W-shaped clamping blocks 1-4 to return to the initial state.

The fourth concrete implementation mode:

the third embodiment is further described with reference to fig. 1-15, in which the top plate 3 includes a top plate body 3-1, a top plate cylinder 3-2 and two sliding blocks 3-3, the top plate cylinder 3-2 is fixedly connected to the middle end of the top plate body 3-1, the two sliding blocks 3-3 are arranged in bilateral symmetry, the two sliding blocks 3-3 are respectively and fixedly connected to the left and right ends of the top plate body 3-1, the two sliding blocks 3-3 are respectively and slidably connected to the two vertical sliding grooves 1-6, and the top plate body 3-1 is fixedly connected to the upper ends of the four mounting posts 2-2; when the storage box 2-1 moves upwards or downwards, the storage box 2-1 drives the top plate body 3-1 to move upwards or downwards through the four mounting columns 2-2, and the relative distance between the storage box 2-1 and the top plate body 3-1 is unchanged.

The fifth concrete implementation mode:

the fourth embodiment is further described with reference to fig. 1 to 15, in which the closed gear ring 4 is provided with a closed tooth groove 4-1 and a closed mounting groove 4-2, the closed tooth groove 4-1 and the closed mounting groove 4-2 are respectively coaxially disposed at the upper and lower ends of the closed gear ring 4, the closed gear ring 4 located at the lower side is rotatably connected to a circular mounting plate 2-5 through the closed mounting groove 4-2, the closed gear ring 4 located at the upper side is rotatably connected to a top plate cylinder 3-2 through the closed mounting groove 4-2, and two gears 5 are respectively in meshing transmission with the gear rings in the two closed tooth grooves 4-1;

the closing plate I6 comprises a threaded rod I6-1, a closing plate body I6-2 and a closing groove 6-3, the closing plate body I6-2 is fixedly connected to the left end of the threaded rod I6-1, the closing groove 6-3 is arranged at the left end of the closing plate body I6-2, the threaded rod I6-1 is connected to a gear 5 located on the right side through threads, the threaded rod I6-1 is connected to a closing support 2-3 in a sliding mode, and the closing plate body I6-2 is connected to the inside of two closing baffles 2-4 in a sliding groove in a sliding mode;

the closing plate II 7 comprises a threaded rod II 7-1, a closing plate body II 7-2 and a closing body 7-3, the closing plate body II 7-2 is fixedly connected to the right end of the threaded rod II 7-1, the closing body 7-3 is fixedly connected to the right end of the closing plate body II 7-2, the threaded rod II 7-1 is connected to the gear 5 located on the left side through threads, the threaded rod II 7-1 is connected to the closing support 2-3 in a sliding mode, and the closing plate body II 7-2 is connected to the inside of the two closing baffles 2-4 in a sliding mode in a closed sliding groove; manually rotating a closed gear ring 4 on one side, wherein the closed gear ring 4 on one side rotates on a circular mounting plate 2-5 or a top plate barrel 3-2, the rotating directions of the two closed gear rings 4 are opposite, the two closed gear rings 4 drive two gears 5 to rotate through gear rings in two closed tooth grooves 4-1 respectively, the rotating directions of the two gears 5 are opposite, the two gears 5 drive a threaded rod I6-1 and a threaded rod II 7-1 to approach or separate from each other through threads respectively, the threaded rod I6-1 and the threaded rod II 7-1 drive a closed plate body I6-2 and a closed plate body II 7-2 to slide in a closed sliding groove formed on the inner sides of two closed baffles 2-4 respectively, and the closed plate body I6-2 and the closed plate body II 7-2 approach or separate from each other, when the closing plate body I6-2 and the closing plate body II 7-2 are close to each other, the closing body 7-3 is inserted into the closing groove 6-3, the closing sliding groove formed on the inner sides of the two closing baffles 2-4 is closed, and the novel material is stored in the storage box 2-1.

The sixth specific implementation mode:

the fifth embodiment is further described with reference to fig. 1-15, wherein the shift fork 9 includes a fork body 9-1 and a shift fork sliding column 9-2, the right end of the shift fork sliding column 9-2 is fixedly connected to the fork body 9-1, the shift fork sliding column 9-2 is slidably connected to the circular through hole i 1-8, the upper end of the connecting rod 8 is hinged to the storage box 2-1, and the lower end of the connecting rod 8 is hinged to the upper end of the fork body 9-1. The lower end of the connecting rod 8 is inclined rightward; when the novel material is stored in the storage box 2-1, the storage box 2-1 pushes the upper end of the connecting rod 8 to move downwards, the lower end of the connecting rod 8 moves rightwards, and the connecting rod 8 pushes the shifting fork body 9-1 to move rightwards.

The seventh embodiment:

the sixth embodiment is further described with reference to fig. 1-15, wherein the clamping mechanism 10 includes a screw rod 10-1, a handle 10-2, a sliding side tooth 10-3 and a connecting key 10-4, the handle 10-2 is provided with a side tooth, the thread directions of the left and right ends of the screw rod 10-1 are opposite, the handle 10-2 is rotatably connected to the right end of the screw rod 10-1, the sliding side tooth 10-3 is slidably connected to the right end of the screw rod 10-1 through the connecting key 10-4, the sliding side tooth 10-3 is located at the left end of the handle 10-2, the two ends of the screw rod 10-1 are respectively rotatably connected to the two side plates 1-2, and the lower end of the shift fork body 9-1 is rotatably connected to the sliding side tooth 10-3; the shifting fork body 9-1 drives the sliding side tooth 10-3 to move leftwards, the sliding side tooth 10-3 slides on the connecting key 10-4, the sliding side tooth 10-3 is meshed with the side tooth on the handle 10-2, the sliding side tooth 10-3 plays a role in protecting the handle 10-2, when the novel material is placed in the storage box 2-1, the handle 10-2 is rotated, the handle 10-2 can drive the screw rod 10-1 to rotate, the screw threads at the left end and the right end of the screw rod 10-1 are opposite in rotating direction, the screw rod 10-1 drives the two clamping plates 11 to approach each other to clamp the novel material, when no novel material is placed in the storage box 2-1, the handle 10-2 is rotated, the handle 10-2 cannot drive the screw rod 10-1 to rotate, and the two clamping plates 11 cannot approach each other to reduce the use volume in the storage box 2-1.

The specific implementation mode is eight:

this embodiment will be described with reference to fig. 1 to 15, and a seventh embodiment will be further described, the clamping plate 11 comprises clamping plate rods 11-1, clamping plate bodies 11-2 and circular through holes II 11-3, the upper ends of the clamping plate rods 11-1 are fixedly connected to the clamping plate bodies 11-2, the circular through holes II 11-3 are symmetrically arranged in the left and right directions, the two circular through holes II 11-3 are arranged on the clamping plate bodies 11-2, the lower ends of the two clamping plate rods 11-1 are connected to the left end and the right end of a screw rod 10-1 through threads respectively, the two clamping plate rods 11-1 are connected in two sliding grooves I1-5 in a sliding mode respectively, the two clamping plate rods 11-1 penetrate through the two sliding grooves II 2-8 respectively, and the two clamping plate bodies 11-2 are located in a storage box 2-1.

The specific implementation method nine:

the embodiment is described below with reference to fig. 1 to 15, and the embodiment further describes an eighth embodiment, where the sliding plate 12 includes two sliding plate bodies 12-1 and two sliding plate columns 12-2, the two sliding plate columns 12-2 are symmetrically arranged in the left-right direction, one end of each of the two sliding plate columns 12-2 is fixedly connected to the sliding plate body 12-1, the four sliding plate columns 12-2 are respectively slidably connected to the four circular through holes ii 11-3, the four sliding plate columns 12-2 are respectively sleeved with compression springs iii, and the four compression springs iii are respectively located between the two sliding plate bodies 12-1 and the two clamping plate bodies 11-2; when the two clamping plate bodies 11-2 are close to each other to clamp the novel material, the two sliding plate bodies 12-1 respectively press the compression spring III to be in contact with the novel material, the two sliding plate bodies 12-1 can reduce the impact of the two clamping plate bodies 11-2 on the novel material, and when the novel material does not need to be fixedly placed, the handle 10-2 does not need to be rotated.

The invention relates to a new material sealing storage device, which has the working principle that:

when in use, a novel material to be stored is placed in the storage tank 2-1, the weight in the storage tank 2-1 is increased, the storage tank 2-1 can move downwards, the storage tank 2-1 extrudes the compression spring I, the storage tank 2-1 pushes the sliding column 2-9 to move downwards, the sliding column 2-9 slides in the bottom plate cylinder 1-3, the storage tank 2-1 drives the two sliding cylinders 2-6 to move downwards, the two sliding cylinders 2-6 drive the two triangular clamping blocks 2-7 to move downwards, the triangular clamping blocks 2-7 extrude the compression spring II to move downwards, the two triangular clamping blocks 2-7 are clamped at the upper ends of the two W-shaped clamping blocks 1-4 in the initial state, and the two triangular clamping blocks 2-7 are respectively clamped at the lower ends of the two W-shaped clamping blocks 1-4 when the novel material is placed in the storage tank 2-1, when the novel material in the storage box 2-1 is taken out, the compression spring I pushes the storage box 2-1 to move upwards, the two triangular clamping blocks 2-7 are respectively clamped at the upper ends of the two W-shaped clamping blocks 1-4 to return to the initial state, when the storage box 2-1 moves upwards or downwards, the storage box 2-1 drives the top plate body 3-1 to move upwards or downwards through the four mounting columns 2-2, the relative distance between the storage box 2-1 and the top plate body 3-1 is not changed, the closed gear ring 4 on one side is manually rotated, the closed gear ring 4 on one side rotates on the circular mounting plate 2-5 or the top plate barrel 3-2, the rotating directions of the two closed gear rings 4 are opposite, and the two closed gear rings 4 respectively drive the two gears 5 to rotate through the gear rings in the two closed tooth grooves 4-1, the rotating directions of the two gears 5 are opposite, the two gears 5 respectively drive the threaded rod I6-1 and the threaded rod II 7-1 to be close to or far away from each other through threads, the threaded rod I6-1 and the threaded rod II 7-1 respectively drive the closed plate body I6-2 and the closed plate body II 7-2 to slide in a closed sliding groove formed in the inner sides of the two closed baffles 2-4, the closed plate body I6-2 and the closed plate body II 7-2 are close to or far away from each other, when the closed plate body I6-2 and the closed plate body II 7-2 are close to each other, the closed body 7-3 is inserted into the closed groove 6-3, the closed sliding groove formed in the inner sides of the two closed baffles 2-4 is closed, and a novel material is stored in the storage box 2-1; when a novel material is stored in the storage box 2-1, the storage box 2-1 pushes the upper end of a connecting rod 8 to move downwards, the lower end of the connecting rod 8 moves rightwards, the connecting rod 8 pushes a shifting fork body 9-1 to move rightwards, the shifting fork body 9-1 drives a sliding side tooth 10-3 to move leftwards, the sliding side tooth 10-3 slides on a connecting key 10-4, the sliding side tooth 10-3 is meshed with a side tooth on a handle 10-2, the sliding side tooth 10-3 plays a role in protecting the handle 10-2, when the novel material is stored in the storage box 2-1, the handle 10-2 is rotated, the handle 10-2 can drive a screw rod 10-1 to rotate, the screw threads at the left end and the right end of the screw rod 10-1 are opposite in rotation direction, the screw rod 10-1 drives two clamping plates 11 to approach each other to clamp the novel material, when the novel material is not placed in the storage box 2-1, the handle 10-2 is rotated, the handle 10-2 cannot drive the screw rod 10-1 to rotate, the two clamping plates 11 cannot approach each other to reduce the use volume in the storage box 2-1, when the two clamping plates 11-2 approach each other to clamp the novel material, the two sliding plates 12-1 respectively extrude the compression spring III to contact with the novel material, the two sliding plates 12-1 can reduce the impact of the two clamping plates 11-2 on the novel material, and when the novel material is not required to be fixedly placed, the handle 10-2 does not need to be rotated.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a new material seals storage device, includes complete machine support (1), stores mechanism (2), roof (3), closed ring gear (4), gear (5), closure plate I (6), closure plate II (7), connecting rod (8), shift fork (9), clamping machine structure (10), clamping plate (11) and sliding plate (12), its characterized in that: the middle end of the storage mechanism (2) is connected to the whole machine support (1) in a sliding mode, a compression spring I is arranged between the storage mechanism (2) and the whole machine support (1), the left end and the right end of the storage mechanism (2) are clamped to the whole machine support (1), the top plate (3) is connected to the whole machine support (1) in a sliding mode, the top plate (3) is fixedly connected to the upper end of the storage mechanism (2), two closed gear rings (4) are symmetrically arranged, the two closed gear rings (4) are respectively connected to the upper end of the storage mechanism (2) and the lower end of the top plate (3) in a rotating mode, the two gears (5) are symmetrically arranged on the left side and the right side, the two gears (5) are respectively meshed with the two closed gear rings (4), the two gears (5) are respectively connected to the closed plate I (6) and the closed plate II (7) through threads, the outer sides of the closed plate I (6) and the closed, the inner sides of a closed plate I (6) and a closed plate II (7) are both connected to a storage mechanism (2) in a sliding manner, one end of a connecting rod (8) is hinged to the storage mechanism (2), the other end of the connecting rod (8) is hinged to the upper end of a shifting fork (9), the middle end of the shifting fork (9) is connected to a whole machine bracket (1) in a sliding manner, the lower end of the shifting fork (9) is connected to a clamping mechanism (10) in a rotating manner, the clamping mechanism (10) is connected to the whole machine bracket (1) in a rotating manner, two clamping plates (11) and two sliding plates (12) are arranged on the whole machine bracket (1) in a bilateral symmetry manner, the lower ends of the two clamping plates (11) are both connected to the clamping mechanism (10) through threads, the middle ends of the two clamping plates (11) are both connected to the whole machine bracket (1) in a sliding manner, the two sliding plates (12) are respectively connected to the two, the upper ends of the two sliding plates (12) and the two clamping plates (11) are arranged in the storage mechanism (2);

the whole machine support (1) comprises a bottom plate (1-1), side plates (1-2), a bottom plate cylinder (1-3), W-shaped clamping blocks (1-4), sliding grooves I (1-5), vertical sliding grooves (1-6), clearance grooves (1-7) and circular through holes I (1-8), wherein the side plates (1-2), the W-shaped clamping blocks (1-4), the sliding grooves I (1-5) and the vertical sliding grooves (1-6) are symmetrically arranged in a left-right mode, the left end and the right end of the bottom plate (1-1) are fixedly connected to the middle ends of the two side plates (1-2) respectively, the bottom plate cylinder (1-3) is fixedly connected to the middle end of the bottom plate (1-1), the two W-shaped clamping blocks (1-4) are fixedly connected to the inner sides of the two side plates (1-2) respectively, the two sliding grooves I (1-5) are arranged on the bottom plate (1-1), the two vertical sliding grooves (1-6) are respectively arranged on the two side plates (1-2), the two side plates (1-2) are respectively positioned at the upper ends of the two W-shaped clamping blocks (1-4), the clearance grooves (1-7) and the circular through holes I (1-8) are respectively arranged on the side plate (1-2) on the right side, and the clearance grooves (1-7) are positioned at the upper ends of the circular through holes I (1-8);

the storage mechanism (2) comprises a storage box (2-1), mounting columns (2-2), a closed support (2-3), closed baffles (2-4), a circular mounting plate (2-5), a sliding cylinder (2-6), triangular clamping blocks (2-7), a sliding groove II (2-8) and sliding columns (2-9), the storage box (2-1) is a box body with an open upper end, four mounting columns (2-2) are arranged, the four mounting columns (2-2) are respectively and fixedly connected to four corners of the upper end of the storage box (2-1), the closed support (2-3) is fixedly connected to the upper end of the storage box (2-1), two closed baffles (2-4) are arranged, and the two closed baffles (2-4) are both fixedly connected to the upper end of the closed support (2-3), the inner sides of the two closed baffles (2-4) form closed sliding grooves, two circular mounting plates (2-5) are fixedly connected to the upper end of the storage tank (2-1), two sliding cylinders (2-6), two triangular clamping blocks (2-7) and two sliding grooves II (2-8) are arranged in bilateral symmetry, the two sliding cylinders (2-6) are respectively and fixedly connected to the left side and the right side of the storage tank (2-1), the inner sides of the two triangular clamping blocks (2-7) are respectively and slidably connected to the outer sides of the two sliding cylinders (2-6), a compression spring II is respectively and fixedly connected between the two triangular clamping blocks (2-7) and the two sliding cylinders (2-6), the two sliding grooves II (2-8) are respectively arranged at the lower end of the storage tank (2-1), and the sliding columns (2-9) are fixedly connected to the middle end of the lower side of the storage tank (2-, the sliding columns (2-9) are connected in the bottom plate cylinders (1-3) in a sliding mode, compression springs I are fixedly connected between the sliding columns (2-9) and the bottom plate (1-1), and the two triangular clamping blocks (2-7) are respectively clamped on the two W-shaped clamping blocks (1-4);

the shifting fork (9) comprises a shifting fork body (9-1) and a shifting fork sliding column (9-2), the right end of the shifting fork sliding column (9-2) is fixedly connected to the shifting fork body (9-1), the shifting fork sliding column (9-2) is slidably connected into the circular through hole I (1-8), the upper end of the connecting rod (8) is hinged to the storage box (2-1), and the lower end of the connecting rod (8) is hinged to the upper end of the shifting fork body (9-1); the lower end of the connecting rod (8) inclines rightwards;

the clamping mechanism (10) comprises a screw rod (10-1), a handle (10-2), sliding side teeth (10-3) and a connecting key (10-4), the side teeth are arranged on the handle (10-2), the thread turning directions of the left end and the right end of the screw rod (10-1) are opposite, the handle (10-2) is rotatably connected to the right end of the screw rod (10-1), the sliding side teeth (10-3) are slidably connected to the right end of the screw rod (10-1) through the connecting key (10-4), the sliding side teeth (10-3) are located at the left end of the handle (10-2), the two ends of the screw rod (10-1) are rotatably connected to the two side plates (1-2) respectively, and the lower end of a shifting fork body (9-1) is rotatably connected to the sliding side teeth (10-3);

the clamping plate (11) comprises a clamping plate rod (11-1), the clamping device comprises a clamping plate body (11-2) and two circular through holes II (11-3), wherein the upper ends of clamping plate rods (11-1) are fixedly connected to the clamping plate body (11-2), the two circular through holes II (11-3) are arranged in bilateral symmetry, the two circular through holes II (11-3) are arranged on the clamping plate body (11-2), the lower ends of the two clamping plate rods (11-1) are respectively connected to the left end and the right end of a screw rod (10-1) through threads, the two clamping plate rods (11-1) are respectively connected in two sliding grooves I (1-5) in a sliding mode, the two clamping plate rods (11-1) respectively penetrate through the two sliding grooves II (2-8), and the two clamping plate bodies (11-2) are both located in a storage box (2-1);

the sliding plate (12) comprises two sliding plate bodies (12-1) and two sliding plate columns (12-2), the two sliding plate columns (12-2) are arranged in bilateral symmetry, one ends of the two sliding plate columns (12-2) are fixedly connected to the sliding plate bodies (12-1), the four sliding plate columns (12-2) are respectively connected to the four circular through holes II (11-3) in a sliding mode, compression springs III are sleeved on the four sliding plate columns (12-2), and the four compression springs III are respectively located between the two sliding plate bodies (12-1) and the two clamping plate bodies (11-2).