CN109229850B

CN109229850B - Nanometer new material prevents leaking safety protection type storage device

Info

Publication number: CN109229850B
Application number: CN201810970522.2A
Authority: CN
Inventors: 荣广磊
Original assignee: Zhejiang Longteng Electrical Equipment Co Ltd
Current assignee: Zhejiang Longteng Electrical Equipment Co., Ltd
Priority date: 2018-08-24
Filing date: 2018-08-24
Publication date: 2019-12-06
Anticipated expiration: 2038-08-24
Also published as: CN109229850A

Abstract

the invention discloses a nanometer new material leakage-proof safety protection type storage device, which comprises: the barrel body is a cylinder body with a first opening at the upper end, and the first opening is provided with a matched barrel cover; the side wall of the barrel body comprises an inner layer wall and an outer layer wall, the top end of the inner layer wall is provided with an elastic connecting piece, the barrel cover comprises an outer layer cover and an inner layer cover, and the inner layer cover is arranged in the outer layer cover in a lifting mode; a feed inlet is formed in one side of the barrel body, a discharge outlet is formed in the bottom surface of the barrel body, a base is arranged below the barrel body, and adaptive cover bodies are arranged on the discharge outlet and the feed inlet; the monitoring mechanism comprises a pressure sensor, a pressure gauge and a weight sensor, and the pressure sensor and the weight sensor are respectively connected with the control mechanism; the auxiliary structure comprises an air bag and a sliding cover, wherein the air bag is arranged in an interlayer of the outer layer wall and the inner layer wall; the sliding cover is arranged on the inner wall corresponding to the discharge hole. According to the invention, the nano-materials are stored in a sealed manner, and once the leakage is monitored by the monitoring mechanism, the control mechanism controls the inner layer cover to descend and the auxiliary mechanism to be started so as to isolate the inner layer wall from the outside.

Description

Nanometer new material prevents leaking safety protection type storage device

Technical Field

The invention relates to the technical field of new material storage equipment, in particular to a leakage-proof safety protection type storage device for a nanometer new material.

Background

In recent years, nanomaterials are increasingly popular in the market and are receiving much attention. As one of new materials, the nano material is a material which has at least one dimension in a three-dimensional space in a nano size (0.1-100nm) or is formed by the nano size and the nano material serving as a basic unit, and the dimension is about equivalent to the dimension of 10-100 atoms which are closely arranged together. Due to the special physical and chemical properties of the nano-materials, the nano-materials have wide application in many fields, such as: chemical engineering, microelectronics, metrology, information communication, biology and medicine. There are many products based on nanotechnology on the market today, including paints, cosmetics, personal care products and food supplements, and therefore the human exposure to nanoparticles is diverse, inhalation, ingestion and skin routes, and once inhaled through the respiratory tract, it precipitates in the lungs and then penetrates the cellular membranes of the lung tissue into the systemic circulation; it may also penetrate the skin through food, cosmetics, or direct contact with the skin, which may allow the nanoparticles to eventually enter the interior of the body, potentially compromising bodily functions. Therefore, for these tiny nanoparticles, the storage sealing structure should be strengthened to avoid leaking into the environment and contacting the human body as much as possible, so as to reduce the direct contact of the nanoparticles with the human body and prevent the occurrence of the situation in the bud.

At present, application number 201810131208.5 discloses a safety protection type storage device is prevented leaking by nanometer new material, carry out intelligent monitoring through LCD and little letter control room, in order to make things convenient for the developments of the new material of nanometer in the monitoring storage device, pay attention to at any time, and through the boss, fixed block and fenestrate setting, conveniently hang in midair and then shift or fix storage device, but do not prevent in this patent to keep on the protective structure who leaks after the nanometer material leaks, so as to prevent to cause the influence to the human body in the serious diffusion environment because the leakage of nanometer material. In view of the above, a storage device that can store nano materials in a sealed manner and can prevent protection in time after the nano materials leak is very necessary.

Disclosure of Invention

an object of the present invention is to solve at least the above problems and to provide at least the advantages described later.

The invention also aims to provide a novel nano material leakage-proof safety protection type storage device, wherein a monitoring mechanism monitors the sealing condition in real time, and once leakage occurs, a control mechanism controls the inner cover to descend and an auxiliary mechanism to start so as to enhance the sealing effect and avoid continuous leakage.

To achieve these objects and other advantages in accordance with the purpose of the invention, there is provided a nano new material leakage-proof safety protection type memory device, comprising:

The barrel body is a cylinder with a first opening at the upper end, the first opening is provided with a barrel cover matched with the barrel body, the side wall of the barrel body comprises an inner layer wall and an outer layer wall, the top end of the inner layer wall is provided with an elastic connecting piece, the barrel cover comprises an outer layer cover and an inner layer cover, the outer layer cover and the inner layer cover are both of cavity structures with longitudinal sections in arc shapes, the inner layer cover is arranged inside the outer layer cover in a lifting mode, the bottom end of the inner layer cover abuts against the elastic connecting piece at the top end of the inner layer wall, and the bottom end of the outer layer cover abuts against the top end of the outer layer wall; a support plate is fixedly arranged around the upper edge of the outer layer wall, a connecting plate is fixedly arranged around the lower edge of the outer layer cover, the support plate and the connecting plate are arranged in a vertically symmetrical mode, a plurality of through holes are uniformly formed in the support plate and the connecting plate, adaptive connecting shafts are arranged in the through holes, and the connecting shafts and the through holes are in threaded connection through adaptive threads; a feed port is arranged on the side surface of the barrel body close to the first opening end, the feed port penetrates through the outer layer wall and the elastic connecting piece, a discharge port is arranged on the bottom surface of the barrel body, a base is arranged below the barrel body, the discharge port penetrates through the base and extends out of the base, and the discharge port and the feed port are respectively provided with adaptive cover bodies;

The monitoring mechanism comprises a pressure sensor, a pressure gauge and a weight sensor, the pressure sensor is arranged on the bottom surface of the inner layer cover, the pressure gauge is arranged on the side wall of the barrel body, the weight sensor is movably arranged on the base, and the pressure sensor and the weight sensor are respectively connected with and controlled by the control mechanism;

The auxiliary structure comprises an air bag and a sliding cover, the air bag is arranged in an interlayer of the outer layer wall and the inner layer wall, the structure of the air bag is matched with that of the interlayer, the air bag is in air communication with an air pump, the air pump is arranged in a cavity of the inner layer cover, and the air pump is connected with the control mechanism and is controlled by the control mechanism; the sliding cover is arranged on the inner wall corresponding to the discharge port, sliding rails are arranged on two sides of the discharge port respectively, sliding blocks matched with the sliding rails are arranged on two sides of the sliding cover respectively, the sliding blocks are connected with a driving device, and the driving device is controlled by the control mechanism.

preferably, the inner cover is arranged inside the outer cover in a liftable manner, and the specific manner is as follows: a telescopic rod body is arranged between the arc top of the outer layer cover and the arc top of the inner layer cover, the rod body is formed by sequentially connecting a plurality of sections of sleeves from top to bottom, the top end of each sleeve is fixedly connected with the inner layer cover, the bottom end of each sleeve penetrates through the outer layer cover to be connected with a cylinder, the cylinder is in gas communication with the gas pump, and the cylinder is controlled by the control mechanism;

In addition, the telescopic length of the rod body is matched with the height of the elastic connecting piece.

Preferably, the base is provided with a first groove, the upper end and two sides of the first groove are provided with second openings, the weight sensor is clamped in the first groove, and the top surface of the weight sensor is abutted against the bottom surface of the barrel body.

Preferably, a first sealing ring is arranged at the joint of the barrel body and the barrel cover, and a second sealing ring is arranged at the joint of the feed inlet, the discharge outlet and the cover body.

Preferably, the upper edge of the inner layer wall is lower than the upper edge of the outer layer wall, the elastic connecting piece is fixedly arranged along the upper edge of the inner layer wall, and the upper edge of the elastic connecting piece is flush with the upper edge of the outer layer wall;

The feed inlet is provided with a feed pipeline matched with the feed inlet, one end of the feed pipeline is positioned at the outer side of the barrel body, the other end of the feed pipeline penetrates through the outer layer wall and is clamped on the elastic connecting piece, and the part of the feed pipeline positioned between the outer layer wall and the elastic connecting piece is elastic.

Preferably, the gasbag is fixed between the intermediate layer of outer wall and inlayer wall, the gasbag with the feed line contact surface sets up to sunken, so that under the gasbag inflation state, the feed line joint is in the sunken department of gasbag, the top edge of gasbag with the top edge of outer wall flushes, just the gasbag will the outer wall and inlayer wall's intermediate layer is filled completely.

Preferably, the inner wall comprises a waterproof layer and a fireproof layer from inside to outside, a heating wire is arranged on the fireproof layer, and the heating wire is connected with the control mechanism and controlled by the control mechanism.

Preferably, the device further comprises second grooves and pulleys, wherein the second grooves are respectively arranged at four corners close to the base; the pulleys are detachably and foldable and are respectively arranged at four corners of the base, and the pulleys and the second grooves are correspondingly arranged, so that the pulleys are embedded into the second grooves when being folded inwards.

The invention at least comprises the following beneficial effects:

The invention is provided with a barrel body and a barrel cover, a support plate is arranged around the opening of the barrel body, a connecting plate is arranged around the lower edge of the barrel cover, the support plate and the connecting plate are arranged in a vertically symmetrical manner, and the barrel cover is in threaded connection with the barrel body through a mutually matched connecting shaft and a through hole, so that the reinforcement sealing is realized and the disassembly is also convenient; the side wall of the barrel body is set into a double-layer structure of an inner layer wall and an outer layer wall, and the barrel cover is set into a double-layer structure of an inner layer cover and an outer layer cover, so that the outer layer cover is butted with the outer layer wall when the barrel cover is closed, the inner layer cover is butted with the inner layer wall, and double layers are sealed; the inner layer cover is connected with the outer layer cover in a lifting mode, once the nano material leaks, due to gaps or loose places, the new nano material can leak outwards from the opening, the feeding hole or the discharging hole, in order to avoid continuous leakage of the nano material after the leakage is monitored and further influence the environment and the personal safety, at the moment, the pressure sensor arranged at the bottom end of the barrel cover can sense continuous change of internal pressure, the weight sensor senses continuous change of the weight of the barrel body, when the pressure sensor 208 and the weight sensor transmit sensing signals to the control mechanism at the same time, the control mechanism controls the inner layer cover to descend to force the elastic connecting piece at the top end of the inner layer wall of the opening to press downwards, the feeding hole is also forced to compress at the same time, the opening is sealed in a tighter mode, the air pump is controlled to inflate the air bag to fill the whole interlayer, and the inner layer wall is assisted to cut off the communication between, and the control mechanism controls the driving device to drive the sliding cover to move so as to seal the discharge hole, and the sealing effect of the pure cover body on the discharge hole is reinforced. The storage device realizes the sealing and storage of the new nano material, can monitor the sealing effect of the nano material in real time, and presses the opening more tightly by descending the inner layer cover once the storage device leaks, and the auxiliary mechanism assists in isolating the inner layer wall from the outside and reinforcing the sealing effect so as to prevent the new nano material from continuously leaking outwards.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

FIG. 1 is a structural diagram of a new nano-material leakage-proof safety protection type storage device according to the present invention;

fig. 2 is a structural view illustrating a state where an inner layer cover is lowered according to the present invention.

Detailed Description

The present invention is further described in detail below with reference to the attached drawings so that those skilled in the art can implement the invention by referring to the description text.

It will be understood that terms such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

As shown in fig. 1 and fig. 2, the present invention provides a new nano material leakage-proof safety protection type memory device, comprising:

The barrel body 100 is a cylinder with a first opening at the upper end, the first opening is provided with a barrel cover 101 matched with the barrel body, the side wall of the barrel body 100 comprises an inner layer wall 200 and an outer layer wall 201, the top end of the inner layer wall 200 is provided with an elastic connecting piece, the barrel cover 101 comprises an outer layer cover 203 and an inner layer cover 202, the outer layer cover 203 and the inner layer cover 202 are both in a cavity structure with arc-shaped longitudinal sections, the inner layer cover 202 is arranged inside the outer layer cover 203 in a lifting mode, the bottom end of the inner layer cover 202 abuts against the elastic connecting piece at the top end of the inner layer wall 200, and the bottom end of the outer layer cover 203 abuts against the top end of the outer layer wall 201; a support plate 102 is fixedly arranged around the upper edge of the outer layer wall 201, a connecting plate is fixedly arranged around the lower edge of the outer layer cover 203, the support plate 102 and the connecting plate are arranged in an up-down symmetrical mode, a plurality of through holes 106 are uniformly arranged on the support plate 102 and the connecting plate, the through holes 106 are provided with adaptive connecting shafts, and the connecting shafts are in threaded connection with the through holes 106 through adaptive threads; a feed inlet 103 is arranged on the side surface of the barrel body 100 close to the first opening end, the feed inlet 103 penetrates through the outer layer wall 201 and the elastic connecting piece, a discharge outlet 104 is arranged on the bottom surface of the barrel body 100, a base 107 is arranged below the barrel body 100, the discharge outlet 104 penetrates through the base 107 and extends out of the base 107, and the discharge outlet 104 and the feed inlet 103 are respectively provided with a cover body 105 which is matched with each other;

The monitoring mechanism comprises a pressure sensor 208, a pressure gauge and a weight sensor, wherein the pressure sensor 208 is arranged on the bottom surface of the inner layer cover 202, the pressure gauge is arranged on the side wall of the barrel body 100, the weight sensor is movably arranged on the base 107100, and the pressure sensor 208 and the weight sensor are respectively connected with and controlled by a control mechanism;

The auxiliary structure comprises an air bag 209 and a sliding cover, the air bag 209 is arranged in an interlayer of the outer layer wall 201 and the inner layer wall 200, the air bag 209 is matched with the interlayer in structure, the air bag 209 is in air communication with an air pump 204, the air pump 204 is arranged in a cavity of the inner layer cover 202, and the air pump 204 is connected with the control mechanism and is controlled by the control mechanism; the sliding cover is arranged on the inner wall 200 corresponding to the discharge hole 104, sliding rails are respectively arranged on two sides of the discharge hole 104, sliding blocks matched with the sliding rails are respectively arranged on two sides of the sliding cover, the sliding blocks are connected with a driving device 205, and the driving device 205 is controlled by the control mechanism.

In the above scheme, the lateral wall of the barrel body 100 comprises an inner layer wall 200 and an outer layer wall 201, the barrel cover 101 comprises an inner layer cover 202 and an outer layer cover 203, so that when the barrel cover 101 covers the barrel body 100, the inner layer cover 202 corresponds to the inner layer wall 200, the outer layer cover 203 corresponds to the outer layer wall 201, a sealed double-layer structure is formed, the barrel body 100 is fixedly provided with a supporting plate 102 around the outer edge of an opening, the barrel cover 101 is fixedly provided with a connecting plate around the lower edge, the supporting plate 102 and the connecting plate are arranged in an up-and-down symmetrical manner, a plurality of through holes 106 are uniformly arranged on the supporting plate 102 and the connecting plate, the through holes 106 are provided with adaptive connecting shafts, and the connecting shafts and the through holes 106 are in threaded connection, so that the barrel body 100 and the barrel cover 101. The sealing state of the nano material in the storage device can be monitored in real time through the monitoring mechanism, when the new nano material leaks outwards, the new nano material leaks outwards through the opening part where the barrel cover 101 and the barrel body 100 are connected and the feed inlet 103 and the discharge outlet 104, the pressure sensor 208 arranged at the bottom end of the barrel cover 101 senses the continuous change of the internal pressure, and the weight sensor senses the continuous change of the weight of the barrel body 100, so that when the pressure sensor 208 and the weight sensor transmit sensing signals to the control mechanism at the same time, the inner layer cover 202 is controlled to descend through the control mechanism, so that the inner layer cover 202 forces the elastic connecting piece at the top end of the inner layer wall 200 to be compressed, wherein the elastic connecting piece can adopt memory metal, so that the elastic deformation is generated when the inner layer cover 202 descends, the elastic connecting piece is completely compressed, namely, the feed inlet 103 is also compressed together, so that the inner layer cover, the sealing performance is enhanced; in addition, the set auxiliary mechanism is also started, the air bag 209 is inflated to fill an interlayer between the inner layer wall 200 and the outer layer wall 201, so that the inner layer wall 200 is isolated from the outside, the sliding cover seals the discharge hole 104 under the driving of the driving device 205, so as to reinforce the effect of the pure cover body 105 for sealing the discharge hole 104, the starting of the air bag 209 and the sliding cover assists in enhancing the sealing performance of the barrel body 100, so as to avoid the damage to the environment and human bodies caused by the continuous leakage of new nano materials, meanwhile, a pressure gauge arranged on the barrel body 100 exceeds the original stable numerical range, macroscopically prompts that the nano materials in the barrel body have leaked and execute protective measures, and prompts a worker to perform subsequent maintenance treatment work and the like; wherein the drive means 205 comprises a motor and the control mechanism comprises a controller, both the motor and the controller being disposed in the cavity of the inner cover 202. According to the invention, the new nano material can be stored in a sealed manner through the arranged barrel body 100, the monitoring mechanism can monitor the sealing effect of the new nano material in real time, once the storage device leaks, the inner layer cover 202 is started to descend in time to press the opening, and meanwhile, the auxiliary device is started to assist in isolating the internal environment of the barrel body 100 from the outside, so that the sealing effect is enhanced, and continuous leakage is prevented.

In a preferred embodiment, the inner cover 202 is disposed inside the outer cover 203 in a liftable manner, and the specific manner is as follows: a telescopic rod body 207 is arranged between the arc top of the outer layer cover 203 and the arc top of the inner layer cover 202, the rod body 207 is formed by sequentially connecting a plurality of sections of sleeves from top to bottom, the top end of each sleeve is fixedly connected with the inner layer cover 202, the bottom end of each sleeve penetrates through the outer layer cover 203 to be connected with a cylinder 206, the cylinder 206 is in gas communication with the gas pump 204, and the cylinder 206 is controlled by the control mechanism;

In the above scheme, the air cylinder 206 is fixed on the outer layer cover 203, the rod body 207 is formed by sequentially connecting a plurality of sections of sleeves from top to bottom, the control mechanism controls the starting of the air pump 204, so that the air pump 204 drives the piston rod of the air cylinder 206 to move up and down, and the bottom end of the sleeve is connected with the piston rod of the air cylinder 206, so that the air cylinder 206 drives the sleeve to move up and down, and therefore, the inner layer cover 202 can move up and down under the pushing and pulling action of the sleeves.

The telescopic length of the rod 207 is matched with the height of the elastic connecting piece, and due to the elastic arrangement of the elastic connecting piece, after the rod 207 is extended, the inner layer cover 202 descends to compress the elastic connecting piece, so that the elastic connecting piece can be completely compressed by the extended length of the rod 207, and the opening is more tightly closed.

In a preferred scheme, a first groove is formed in the base 107, second openings are formed in the upper end and two sides of the first groove, the weight sensor is clamped in the first groove, and the top surface of the weight sensor abuts against the bottom surface of the barrel body 100.

In the above scheme, the base 107 is provided with the first groove, the weight sensor is clamped in the first groove, and the top surface of the weight sensor abuts against the bottom surface of the barrel body 100, so that the weight sensor can sense the weight of the barrel body 100, and the weight sensor is conveniently separated from the contact with the barrel body 100 temporarily during feeding or discharging, the sensing on the barrel body is interrupted, and the situation that only the pressure sensor 208 senses the change, namely, a signal is sent to the control mechanism and the mechanism for preventing continuous leakage is started is avoided.

in a preferable scheme, a first sealing ring is arranged at the joint of the barrel body 100 and the barrel cover 101, and a second sealing ring is arranged at the joint of the feed inlet 103, the discharge outlet 104 and the cover body 105.

In the above scheme, a first sealing ring is arranged at the joint of the barrel body 100 and the barrel cover 101, and a second sealing ring is arranged at the joint of the feed inlet 103, the discharge outlet 104 and the cover body 105, so as to enhance the sealing effect of the whole storage device.

In a preferable scheme, the upper edge of the inner layer wall 200 is lower than the upper edge of the outer layer wall 201, the elastic connecting piece is fixedly arranged along the upper edge of the inner layer wall 200, and the upper edge of the elastic connecting piece is flush with the upper edge of the outer layer wall 201;

The feed inlet 103 is provided with a feed pipeline which is adaptive to the feed inlet, one end of the feed pipeline is positioned at the outer side of the barrel body 100, the other end of the feed pipeline penetrates through the outer layer wall 201 and is clamped on the elastic connecting piece, and the part of the feed pipeline positioned between the outer layer wall 201 and the elastic connecting piece has elasticity.

In the above scheme, the upper edge of the inner layer wall 200 is lower than the upper edge of the outer layer wall 201, an elastic connector is fixedly arranged along the upper edge of the inner layer wall 200, the upper edge of the elastic connector is flush with the upper edge of the outer layer wall 201, so that the upper edges of the inner layer wall 200 and the outer layer wall 201 are in the same plane, which is beneficial for the closing of the barrel cover 101, and meanwhile, because the elastic connector has elasticity, when the inner layer cover 202 descends and compresses, the inner layer wall 200 is lower than the outer layer wall 201, and the upper edge of the air bag 209 is flush with the upper edge of the outer layer wall 201, which is beneficial for the isolation of the inner layer wall 200 from the outside.

the feed inlet 103 is provided with a feed pipeline adaptive to input new nano-materials through the feed inlet 103 conveniently, one end of the feed pipeline is positioned outside the barrel body 100, the other end of the feed pipeline penetrates through the outer wall 201 and is connected with the elastic connecting piece in a clamping manner, the contact part of the feed pipeline and the outer wall 201 is fixedly arranged, the part between the outer wall 201 and the elastic connecting piece has elasticity, the feed pipeline can be stably arranged on the side wall of the barrel body 100, and meanwhile, the part between the outer wall 201 and the elastic connecting piece, which is positioned in the feed pipeline, is separated from the elastic connecting piece in an inflation state of the air bag 209, so that the feed pipeline is pushed away upwards, and the air bag 209 completely isolates the inner wall 200 and the elastic connecting piece from the outside.

in a preferable scheme, the air bag 209 is fixed between the sandwich layer of the outer layer wall 201 and the inner layer wall 200, the contact surface of the air bag 209 and the feeding pipeline is set to be concave, so that the feeding pipeline is clamped at the concave position of the air bag 209 in the inflated state of the air bag 209, the upper edge of the air bag 209 is flush with the upper edge of the outer layer wall 201, and the sandwich layer of the outer layer wall 201 and the inner layer wall 200 is completely filled by the air bag 209.

In the above scheme, the air bag 209 is fixed between the interlayers of the outer layer wall 201 and the inner layer wall 200, and the contact surface between the air bag 209 and the feeding pipeline is provided with a recess, so that the feeding pipeline pushes up the feeding pipeline and is clamped at the recess at the same time under the inflation state of the air bag 209, thereby preventing the end part of the feeding pipeline from separating from the elastic connecting piece and drooping to the interlayer to influence the isolation effect of the air bag 209; the upper edge of the air bag 209 is flush with the upper edge of the outer layer wall 201, the air bag 209 completely fills the interlayer of the outer layer wall 201 and the inner layer wall 200, and the inner layer wall 200 can be completely isolated after the compression is reduced through the inflated air bag 209, so that a better sealing effect is achieved.

in a preferred scheme, the inner wall 200 comprises a waterproof layer and a fireproof layer from inside to outside, and a heating wire is arranged on the fireproof layer and connected with and controlled by the control mechanism.

In the above scheme, inner wall 200 includes waterproof layer and flame retardant coating from inside to outside, and long-time deposit nanometer new material prevents that external humidity from influencing staving 100 internal environment, for staving 100 provides high-quality storage environment, sets up the heater strip on the flame retardant coating, and accessible control mechanism controls the heater strip heating, provides suitable temperature for in the staving 100 to the storage of the nanometer new material that needs the heating to preserve.

In a preferable scheme, the device further comprises second grooves and pulleys, wherein the second grooves are respectively arranged at four corners close to the base 107; the pulleys are detachably and foldable arranged at four corners of the base 107 respectively, and the pulleys are arranged corresponding to the second grooves, so that the pulleys are embedded into the second grooves when being folded inwards.

in the above scheme, the second grooves are respectively arranged at four corners close to the base 107, the pulleys are respectively arranged at four corners of the base 107 in a detachable and foldable manner, and the pulleys are correspondingly arranged with the second grooves, so that the pulleys are embedded into the second grooves when being folded inwards, and are conveniently fixed at a certain position and are also conveniently moved.

While embodiments of the invention have been described above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable in various fields of endeavor to which the invention pertains, and further modifications may readily be made by those skilled in the art, it being understood that the invention is not limited to the details shown and described herein without departing from the general concept defined by the appended claims and their equivalents.

Claims

1. a nanometer new material prevents leaking safety protection type storage device, wherein includes:

2. A nano new material leakage prevention safety protection type storage device as claimed in claim 1, wherein said inner cover is arranged inside said outer cover in a liftable manner by: a telescopic rod body is arranged between the arc top of the outer layer cover and the arc top of the inner layer cover, the rod body is formed by sequentially connecting a plurality of sections of sleeves from top to bottom, the top end of each sleeve is fixedly connected with the inner layer cover, the bottom end of each sleeve penetrates through the outer layer cover to be connected with a cylinder, the cylinder is in gas communication with the gas pump, and the cylinder is controlled by the control mechanism;

3. A leakage-proof safety protection type storage device of new nano-material as claimed in claim 1, wherein a first groove is formed on said base, a second opening is formed at the upper end and both sides of said first groove, said weight sensor is engaged in said first groove, and the top surface of said weight sensor is abutted against the bottom surface of said barrel.

4. A leakage-proof safety protection type storage device made of new nano-material as claimed in claim 1, wherein a first sealing ring is disposed at the joint of the barrel body and the barrel cover, and a second sealing ring is disposed at the joint of the feed inlet and the discharge outlet and the cover.

5. a nano new material leakage prevention safety protection type storage device as claimed in claim 1, wherein the upper edge of said inner wall is lower than the upper edge of said outer wall, said elastic connection member is fixed along the upper edge of said inner wall, and the upper edge of said elastic connection member is flush with the upper edge of said outer wall;

6. A leak-proof safety protection type storage device made of new nano-material according to claim 5, wherein the air bag is fixed between the interlayers of the outer layer wall and the inner layer wall, the contact surface between the air bag and the feeding pipeline is recessed, so that the feeding pipeline is clamped in the recessed portion of the air bag when the air bag is inflated, the upper edge of the air bag is flush with the upper edge of the outer layer wall, and the air bag completely fills the interlayer of the outer layer wall and the inner layer wall.

7. a nano new material leakage prevention safety protection type storage device according to claim 1, wherein said inner wall comprises a waterproof layer and a fireproof layer from inside to outside, said fireproof layer is provided with a heating wire, and said heating wire is connected with and controlled by said control mechanism.

8. A nano new material leakage prevention safety protection type storage device as claimed in claim 1, further comprising second grooves and pulleys, said second grooves being respectively disposed at four corners of said base; the pulleys are detachably and foldable and are respectively arranged at four corners of the base, and the pulleys and the second grooves are correspondingly arranged, so that the pulleys are embedded into the second grooves when being folded inwards.