CN114701758A - Anti-collision and anti-explosion intelligent storage device for transporting chemicals - Google Patents

Abstract

The invention discloses an anti-collision and anti-explosion intelligent storage device for transporting chemicals, which belongs to the technical field of storage, and comprises a protective box and a storage tank, wherein the storage tank is placed in the protective box, the storage tank is suspended in the protective box, the storage tank drives a speed reducing plate to move between two buffer magnets, and the speed reducing plate cuts a magnetic induction line to generate eddy current and block the movement of the speed reducing plate, so that the speed of a bearing plate is reduced, and the storage tank is damped and buffered; when the temperature in the protection box rises and the magnetic force of the buffer magnet weakens, the change of the diameter of the outer ring of the coil spring is accelerated, the detection rod detects the change of the diameter of the outer ring of the coil spring, the control system analyzes the detection data, and the temperature in the protection box is adaptively regulated and controlled according to the analyzed result, so that the intelligent automatic control of the temperature is realized; through the detection of test bar, reflect the state of holding vessel, make things convenient for navigating mate adjustment speed of transportation, improve the user and embody the sense.

Description

Anti-collision and anti-explosion intelligent storage device for transporting chemicals

Technical Field

The invention relates to the technical field of storage, in particular to an anti-collision and anti-explosion intelligent storage device for transporting chemicals.

Background

During the transportation of dangerous goods, the dangerous goods need to be put into a special protection device to reduce the risk of transportation, and the risks existing in the transportation include: in transportation, dangerous goods can cause temperature rise due to bumping and friction, so that the dangerous chemicals in transportation are ignited, and explosion can also occur due to collision. Therefore, there is a need to ensure that hazardous chemicals do not collide during transportation.

The existing chemical transportation is usually buffered by soft substances such as cushion sheets or cloth, so that the buffer sheets or cloth cannot play a good protection role when strong collision is faced, and the soft substances such as the buffer sheets or cloth cannot well isolate the shock of a container and cannot well block the friction between chemicals;

store the transportation in-process, need cool down to storage device inside, make the chemicals keep at certain temperature, and conventional setting lets cooling device continuously work, and can only work according to the temperature that sets for, can not carry out automatic monitoring and intelligent control to the inside temperature of storage device, and storage device can not the current transport state of automatic feedback, lead to the control transport speed that navigating mate can not be fine, the energy consumption of current storage device's whole equipment is too high, intelligent degree is lower.

Disclosure of Invention

The invention aims to provide an anti-collision and anti-explosion intelligent storage device for transporting chemicals, so as to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides an explosion-proof intelligent storage device who is used for transporting chemicals of anticollision, the storage device of chemicals includes protecting box, holding vessel, chassis, the chassis is installed in the protecting box bottom, protecting box internally mounted has four screws, and the case that resets, every are all installed to the one end of every screw rod in the protecting box the one end of screw rod all with the inside wind spring inner circle of case that resets be connected, the holding vessel is placed in the protecting box, and the holding vessel rotates with the screw rod to be connected.

Inside the guard box all installs the buffering magnet in the both sides of every screw rod, install the loading board on the screw rod, all install the air brake on two sides of loading board orientation buffering magnet, two magnetic poles that buffering magnet is relative are the synonym magnetic pole, the loading board rotates with the holding vessel and is connected. The bearing plate is rotatably connected with the storage tank, when the outside vibrates, the storage tank can move up and down in the protective box under the influence of the outside vibration, the speed reducing plate is a metal plate, the up-and-down movement of the storage tank drives the speed reducing plate to move between the two buffer magnets, so that the speed reducing plate cuts magnetic induction lines, the speed reducing plate cuts the magnetic induction lines to generate eddy current and block the movement of the speed reducing plate, the bearing plate is decelerated, and the storage tank is damped and buffered; the speed reducing plate is not contacted with the buffer magnet, so that the abrasion between the speed reducing plate and the buffer magnet is reduced, and the service lives of the speed reducing plate and the buffer magnet are prolonged.

The device comprises a reset box, a protective box, a coil spring, a detection rod and a control system, wherein the coil spring is arranged in the reset box, an outer ring of the coil spring is fixed with the protective box, an inner ring of the coil spring is fixed with a screw rod, the detection rod is arranged on one side of the coil spring in the reset box, the detection rod is electrically connected with the control system, and one end of the detection rod abuts against the wall surface of the outer ring of the coil spring. The storage tank is arranged on the screw rod through the bearing plate, the screw rod winds the coil spring under the weight of the storage tank, and when the coil spring is wound to a certain degree, the coil spring bears the weight of the storage tank and enables the storage tank to be suspended in the middle of the protection box; when the coil spring is rolled inwards or expanded outwards by the screw rod, the coil spring enables the screw rod to rotate reversely through elastic potential energy, and then the storage tank returns to the original position; when the inside temperature of protective housing risees, the magnetic force of buffering magnet is weakened to the temperature that risees messenger, make buffering magnet and speed reduction plate weaken to the shock attenuation buffer capacity of holding vessel, and then make the speed that the coil spring was rolled up or expanded become fast, the diameter size change of coil spring outer lane is accelerated promptly, the measuring stick detects the change of the outer lane diameter size of coil spring, control system carries out the analysis to the measured data, and regulate and control the inside temperature of protective housing through the result after the analysis, and through the measuring of measuring stick, the realization detects the state of holding vessel in the protective housing, and then conveniently adjusts transportation speed.

The utility model discloses a piezoelectric actuator, including detection pole, including interior pole and loop bar, the piston plate is installed to interior pole one end, the piston plate is located inside the loop bar, interior pole and piston plate all with loop bar sliding connection, ejecting spring is installed to piston plate one end, ejecting spring is fixed with the loop bar inner wall, install two at least piezoelectric plate on the piston plate other end, piezoelectric plate one end is fixed with the loop bar inner wall, and the piezoelectric plate is curved piezoelectric plate, the piezoelectric plate is connected with the control system electricity. When the outer ring of the coil spring is rolled inwards or expanded outwards, the piezoelectric plate is compressed or stretched between the piston plate and the sleeve rod, the piezoelectric plate deforms and generates current, and the control system detects and analyzes the frequency and the size of the generated current to obtain temperature data inside the protective box and state data of the storage tank inside the protective box.

All install the bumping post on four inside lateral walls of protective housing, the cross section of every bumping post is semi-circular, and the material of bumping post is the rubber material. When the striking takes place, when the lateral wall of guard box was hit when sunken, crashproof post withstood the holding vessel and made the holding vessel produce the displacement in the guard box, and the holding vessel rotates with the loading board to be connected, loading board and screw rod threaded connection, and the loading board drives the screw rod and rotates, and the holding vessel produces the displacement at the guard box through the rotation of loading board promptly, and then avoids the holding vessel to be hit.

Every two screw rods are located on one side face of the protection box, the two side faces of the protection box provided with the screw rods are parallel, the buffer plate is installed at the position, corresponding to each bearing plate, on the storage tank and comprises an inner plate and a plate sleeve, one end of the inner plate is slidably installed in the plate sleeve, a buffer spring is installed between the inner plate and the plate sleeve and located in the plate sleeve, and the other end of the inner plate is rotatably connected with the bearing plate. When the tank is jacked by the crash posts, the bumper plate provides support for the displacement of the tank by stretching.

The chassis is the no end cover box of inversion, and the diaphragm is installed to the bottom on chassis, the arm-tie is installed to the diaphragm top, the mid-mounting of arm-tie has the linking spring, the pull rod is installed to the one end that links up the spring, set up screw thread on the pull rod, the middle part position on chassis upper end has seted up and has linked up the mouth, the axle sleeve is installed to the lower extreme middle part position of protective housing, the axle sleeve is through linking up mouth and pull rod threaded connection. The chassis is buckled on the transport machinery firstly, then the pull rod is pushed by a cylindrical guide rod or other cylindrical objects, the pull rod pushes the pull plate through a linking spring, the pull plate extrudes the diaphragm, and then air between the diaphragm and the transport machinery is emptied, then the protective box is installed on the chassis, the shaft sleeve is in threaded connection with the pull rod through a linking port, the pull rod drives the pull plate upwards through continuous rotation of the shaft sleeve, a gap is generated between the diaphragm and the transport machinery, and then the chassis is adsorbed on the transport machinery through negative pressure, and the linking spring provides space support for the continuous upward movement of the pull plate.

The pull plate is internally provided with a partition plate around the pull plate, the pull plate is tightly connected with the partition plate, one end of the partition plate is connected with the diaphragm, the partition plate is provided with an air vent, the air vent is positioned above the pull plate, the pull plate is provided with four linking ropes, and one end of each linking rope penetrates through the chassis and the protective box;

one end of the screw rod penetrates through the reset box and is provided with a winding wheel, and one end of the connecting rope is connected with the winding wheel. A sealing gasket is arranged between the protective box and the chassis, the connecting rope also penetrates through the sealing gasket, and the sealing gasket is used for preventing friction between the protective box and the chassis and sealing between the protective box and the chassis so as to prevent air in the chassis from leaking; when the storage tank is suspended in the middle of the protective box, the winding wheel does not pull the connecting rope, when vibration occurs outside, the storage tank enables the screw to rotate through the bearing plate, so that the screw drives the winding wheel to rotate, when the storage tank moves from top to bottom in the protective box, the screw releases the connecting rope firstly and winds the connecting rope secondly through the winding wheel, when the storage tank moves from bottom to top in the protective box, the screw releases the connecting rope firstly and winds the connecting rope secondly through the winding wheel, when the connecting rope is wound, the connecting rope pulls the pulling plate to move upwards, so that the pulling plate stretches the diaphragm, the negative pressure between the chassis and the transport machinery is increased, the stability of the protective box on the transport machinery is further increased, and when vibration does not occur outside, the connecting rope is restored to the original state again, so that the negative pressure between the chassis and the transport machinery is restored; when the arm-tie up moved, the air of arm-tie top was extruded the opposite side of baffle through the air vent, made the atmospheric pressure grow between baffle and the chassis, and the air of pressure grow extrudees the diaphragm, makes the contact between diaphragm and the transport machinery inseparabler, and then improves the leakproofness between diaphragm and the transport machinery, prevents that the diaphragm from appearing the gap when being stretched and between the transport machinery.

Compared with the prior art, the invention has the following beneficial effects: the holding vessel is unsettled to be installed in the guard box, the up-and-down motion of holding vessel drives the air brake and moves between two buffering magnets, make air brake cutting magnetism feel the line, air brake cutting magnetism feels the line and produces eddy current and obstruct the motion of self, and then realize the speed reduction to the loading board, realize the shock attenuation to the holding vessel, the buffering, the air brake does not contact with buffering magnet, and then reduce the wearing and tearing between air brake and the buffering magnet, the life of extension air brake and buffering magnet.

When the temperature in the protection box rises and the magnetic force of the buffer magnet weakens, the change of the diameter of the outer ring of the coil spring is accelerated, the detection rod detects the change of the diameter of the outer ring of the coil spring, the control system analyzes the detection data, and the temperature in the protection box is adaptively regulated and controlled according to the analyzed result, so that the intelligent automatic control of the temperature is realized; through the detection of test bar, reflect the state of holding vessel, according to control system's feedback, make things convenient for the navigating mate to know the state that the form was stored at the rear, aspect navigating mate adjusts transport speed.

When the outside striking takes place and when hitting the guard box on, the holding vessel is moved on crashproof capital, and the inner panel rotates with the loading board to be connected, and loading board and screw rod threaded connection, loading board drive screw rod rotate, and the holding vessel passes through the rotation of loading board and the extension of buffer board realizes producing the displacement at the guard box, and then avoids the holding vessel to be collided, realizes the automation of holding vessel and dodges and the anticollision.

Drawings

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. In the drawings:

FIG. 1 is a schematic view of a storage tank of the present invention inside a protective enclosure;

FIG. 2 is a schematic top view of the interior of the protective enclosure of the present invention;

FIG. 3 is a schematic view of the position between the speed reduction plate and the buffer magnet of the present invention;

FIG. 4 is a schematic view of the connection between the sensing rod and the coil spring of the present invention;

FIG. 5 is a schematic view of the internal structure of the test rod of the present invention;

FIG. 6 is a schematic view showing an internal structure of a buffer plate according to the present invention;

fig. 7 is a schematic view of the internal structure of the chassis of the present invention.

In the figure: 1. a protective box; 101. a refrigeration plate; 102. a buffer magnet; 103. a screw; 104. a speed reduction plate; 105. a reset box; 106. a coil spring; 107. a detection lever; 108. a piezoelectric plate; 109. an impact post;

2. a storage tank; 201. a buffer plate; 2011. an inner plate; 2012. sheathing the plate; 2013. a buffer spring;

3. a chassis; 301. a diaphragm; 302. pulling a plate; 303. a partition plate; 304. a pull rod; 305. connecting the springs; 306. and (5) connecting the ropes.

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.

Referring to fig. 1 to 7, the present invention provides a technical solution: the utility model provides an anti-collision explosion-proof intelligent storage device who is used for transporting chemicals, the storage device of chemicals includes protective housing 1, holding vessel 2, chassis 3 is installed in protective housing 1 bottom, refrigeration piece 101 is installed to the inside upper end of protective housing 1, refrigeration piece 101 is connected with the control system electricity, refrigeration piece 101 is adjusted the inside temperature of protective housing 1, internally mounted has four screw rods 103, per two screw rods 103 are located a side of protective housing 1, two sides of protective housing 1 of installing screw rod 103 are parallel, all install the case 105 that resets in protective housing 1 at the one end of every screw rod 103, the one end of every screw rod 103 all is connected with the inside wind spring 106 inner circle of case 105 that resets, the one end of screw rod 103 runs through the case 105 that resets and installs the wind-up wheel.

Inside each screw rod 103 both sides of guard box 1 all install buffering magnet 102, install the loading board on the screw rod 103, all install speed reduction plate 104 on the loading board towards buffering magnet 102's two sides, speed reduction plate 104 is the metal sheet, and the magnetic pole of the relative one end of two buffering magnets 102 is the synonym magnetic pole, and the loading board rotates with holding vessel 2 to be connected.

Storage tank 2 is placed in protective housing 1, and buffer board 201 is all installed to the position that corresponds every loading board on storage tank 2, and buffer board 201 includes inner panel 2011, board cover 2012, and inner panel 2011 one end slidable mounting installs buffer spring 2013 in board cover 2012 between inner panel 2011 that is located board cover 2012 and board cover 2012, and the other end and the loading board of inner panel 2011 rotate to be connected.

All install crashproof post 109 on four inside lateral walls of protective housing 1, the cross section of every crashproof post 109 is semi-circular, and crashproof post 109's material is the rubber material.

A coil spring 106 is arranged in the reset box 105, the outer ring of the coil spring 106 is fixed with the reset box 105, the inner ring of the coil spring 106 is fixed with the screw 103, a detection rod 107 is arranged on one side of the coil spring 106 in the reset box 105, the detection rod 107 is electrically connected with a control system, and one end of the detection rod 107 abuts against the wall surface of the outer ring of the coil spring 106.

When the coil spring 106 is rolled inwards or expanded outwards by the screw 103, the coil spring 106 enables the screw 103 to rotate reversely through elastic potential energy, and further enables the storage tank 2 to return to the original position under the driving of the screw 103;

the detection rod 107 comprises an inner rod and a loop bar, a piston plate is installed at one end of the inner rod and is located inside the loop bar, the inner rod and the piston plate are connected with the loop bar in a sliding mode, an ejection spring is installed at one end of the piston plate and is fixed to the inner wall of the loop bar, at least two piezoelectric plates 108 are installed at the other end of the piston plate, one end of each piezoelectric plate 108 is fixed to the inner wall of the loop bar, each piezoelectric plate 108 is an arc-shaped piezoelectric plate 108, and each piezoelectric plate 108 is electrically connected with the control system.

The end cover box body that does not have of chassis 3 for invering, and diaphragm 301 is installed to chassis 3's bottom, and arm-tie 302 is installed to diaphragm 301 top, and the mid-mounting of arm-tie 302 has linking spring 305, and pull rod 304 is installed to the one end that links up spring 305, has seted up screw thread on the pull rod 304, and the middle part position on chassis 3 has seted up the mouth of linking up, and the axle sleeve is installed to the lower extreme middle part position of protective housing 1, and the axle sleeve is through linking up mouth and pull rod 304 threaded connection.

The inside baffle 303 of installing around arm-tie 302 in chassis 3, zonulae occludens between arm-tie 302 and the baffle 303, the one end and the diaphragm 301 of baffle 303 are connected, the air vent has been seted up on the baffle 303, the air vent is located the top of arm-tie 302, install four on the arm-tie 302 and link up rope 306, link up rope 306 one end and run through chassis 3 and protective housing 1, install sealed the pad between protective housing 1 and the chassis 3, link up rope 306 and also run through sealed the pad, link up rope 306 one end and be connected with the take-up pulley.

The working principle of the invention is as follows:

place the chemicals in holding vessel 2, holding vessel 2 is installed on screw rod 103 through the loading board, and screw rod 103 carries out the rolling to spring 106 under the weight of holding vessel 2, and when spring 106 rolling to a certain extent, spring 106 supported holding vessel 2's weight and made holding vessel 2 unsettled at the middle part of protective housing 1, and holding vessel 2 and protective housing 1 mutually support and realize the double-deck protection to the chemicals.

Firstly, buckling a chassis 3 on a transport machine, then, jacking a pull rod 304 by using a cylindrical guide rod or other cylindrical objects, enabling the pull rod 304 to push a pull plate 302 through a connecting spring 305, enabling the pull plate 302 to extrude a diaphragm 301, further exhausting air between the diaphragm 301 and the transport machine, then, installing a protective box 1 on the chassis 3, and connecting a shaft sleeve with the pull rod 304 through a connecting port in a threaded manner; the protective box 1 is rotated to enable the shaft sleeve to rotate continuously, the pull rod 304 drives the pull plate 302 to move upwards, a gap is formed between the diaphragm 301 and the transport machinery, and the chassis 3 is adsorbed on the transport machinery through negative pressure.

When the storage tank 2 is suspended in the middle position of the protective box 1, the take-up reel does not pull the engaging rope 306.

When the external world shakes, storage tank 2 can receive the influence of external world vibrations to move up and down in protection box 1, and the up-and-down motion of storage tank 2 drives speed reduction plate 104 and moves between two buffering magnets 102, makes speed reduction plate 104 cut the magnetic induction line, and speed reduction plate 104 cuts the magnetic induction line and produces eddy current and hinders the motion of self, and then realizes the speed reduction to the loading board, realizes shock attenuation, the buffering to storage tank 2.

When external vibration occurs, the storage tank 2 enables the screw rod 103 to rotate through the bearing plate, and then the screw rod 103 drives the winding wheel to rotate, when the storage tank 2 moves from top to bottom in the protective box 1, the screw rod 103 firstly releases the connecting rope 306 and then winds the connecting rope 306 through the winding wheel, when the storage tank 2 moves from bottom to top in the protective box 1, the screw rod 103 firstly releases the connecting rope 306 and then winds the connecting rope 306 through the winding wheel, when the connecting rope 306 is wound, the connecting rope 306 pulls the pull plate 302 to move upwards, so that the pull plate 302 stretches the diaphragm 301, negative pressure between the chassis 3 and the transport machinery is increased, and then the stability of the protective box 1 on the transport machinery is increased, and when external vibration does not occur, the connecting rope 306 restores the original state again, so that the negative pressure between the chassis 3 and the transport machinery is restored; when the pulling plate 302 moves upwards, air above the pulling plate 302 is extruded to the other side of the partition plate 303 through the vent hole, so that the air pressure between the partition plate 303 and the chassis 3 is increased, the diaphragm 301 is extruded by the air with increased pressure, the contact between the diaphragm 301 and the transport machinery is tighter, the sealing performance between the diaphragm 301 and the transport machinery is further improved, and a gap is prevented from occurring between the diaphragm 301 and the transport machinery when the diaphragm is stretched.

When the striking takes place, when the lateral wall of protective housing 1 is hit when sunken, crashproof post 109 withstands holding vessel 2 and makes holding vessel 2 produce the displacement in protective housing 1, and inner panel 2011 rotates with the loading board to be connected, and loading board and screw rod 103 threaded connection, loading board drive screw rod 103 rotate, and holding vessel 2 passes through the rotation of loading board and the extension of buffer board 201 realizes producing the displacement at protective housing 1 promptly, and then avoids holding vessel 2 to be hit.

When the temperature in the protection box 1 rises, the rising temperature weakens the magnetic force of the buffer magnet 102, so that the damping and buffering capacity of the buffer magnet 102 and the speed reduction plate 104 on the storage tank 2 is weakened, further the winding or expanding speed of the coil spring 106 is increased, namely the diameter change of the outer ring of the coil spring 106 is accelerated, the detection rod 107 detects the change of the diameter of the outer ring of the coil spring 106, when the outer ring of the coil spring 106 is wound inwards or expanded outwards, the piezoelectric plate 108 is compressed or stretched between the piston plate and the sleeve rod, the piezoelectric plate 108 deforms and generates current, and the control system detects and analyzes the frequency and the size of the generated current to obtain the temperature data in the protection box 1 and the state data of the storage tank 2 in the protection box 1.

Control system carries out the analysis to the measured data to regulate and control the inside temperature of protective housing 1 through the result after the analysis, realize the cooling to protective housing 1 inside through control refrigeration piece 101, and through the detection of test bar 107, realize detecting the state of holding vessel 2 in protective housing 1, and then conveniently adjust transport speed.

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.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides an explosion-proof intelligent storage device who is used for transporting chemicals of anticollision which characterized in that: storage device of chemicals includes protective housing (1), holding vessel (2), chassis (3), install in protective housing (1) bottom chassis (3), protective housing (1) internally mounted has four screw rods (103), and reset box (105), every are all installed to the one end of protective housing (1) inherent every screw rod (103) the one end of screw rod (103) all with reset box (105) inside wind spring (106) inner circle connection, holding vessel (2) are placed in protective housing (1), and holding vessel (2) rotate with screw rod (103) and are connected.

2. An anti-collision and anti-explosion intelligent storage device for transportation chemicals as claimed in claim 1, wherein: inside buffering magnet (102) all installed in the both sides of every screw rod (103) of guard box (1), install the loading board on screw rod (103), all install on two sides of loading board towards buffering magnet (102) speed reduction plate (104), two relative magnetic poles of buffering magnet (102) are the synonym magnetic pole, the loading board rotates with holding vessel (2) and is connected.

3. An anti-collision and anti-explosion intelligent storage device for transportation chemicals as claimed in claim 1, wherein: a coil spring (106) is installed in the reset box (105), the outer ring of the coil spring (106) is fixed with the reset box (105), the inner ring of the coil spring (106) is fixed with the screw rod (103), a detection rod (107) is installed on one side of the coil spring (106) in the reset box (105), the detection rod (107) is electrically connected with a control system, and one end of the detection rod (107) abuts against the wall surface of the outer ring of the coil spring (106).

4. An anti-collision and anti-explosion intelligent storage device for transportation chemicals as claimed in claim 3, wherein: detect pole (107) including interior pole and loop bar, the piston plate is installed to interior pole one end, the piston plate is located inside the loop bar, interior pole and piston plate all with loop bar sliding connection, ejecting spring is installed to piston plate one end, ejecting spring is fixed with the loop bar inner wall, install two at least piezoelectric plate (108) on the piston plate other end, piezoelectric plate (108) one end is fixed with the loop bar inner wall, and piezoelectric plate (108) are curved piezoelectric plate (108), piezoelectric plate (108) are connected with the control system electricity.

5. An anti-collision and anti-explosion intelligent storage device for transportation chemicals as claimed in claim 1, wherein: all install bumping post (109) on four inside lateral walls of guard box (1), the cross section of every bumping post (109) is semi-circular, and the material of bumping post (109) is the rubber material.

6. An anti-collision and anti-explosion intelligent storage device for transportation chemicals as claimed in claim 2, wherein: every two screws (103) are located a side of protective housing (1), and two sides of protective housing (1) of installing screw (103) are parallel, buffer board (201) are all installed to the position that corresponds every loading board on holding vessel (2), buffer board (201) include inner panel (2011), board cover (2012), inner panel (2011) one end slidable mounting is in board cover (2012), is located board cover (2012) install buffer spring (2013) between inner panel (2011) and board cover (2012), the other end and the loading board rotation of inner panel (2011) are connected.

7. An anti-collision and anti-explosion intelligent storage device for transportation chemicals as claimed in claim 1, wherein: the utility model discloses a safety protection box, including chassis (3), diaphragm (301) are installed to the bottom of chassis (3) for the no end cover box of inversion, diaphragm (301), arm-tie (302) are installed to diaphragm (301) top, the mid-mounting of arm-tie (302) has linking spring (305), pull rod (304) are installed to the one end that links up spring (305), set up screw thread on pull rod (304), the middle part position of chassis (3) upper end has been seted up and has been linked up the mouth, the axle sleeve is installed to the lower extreme middle part position of protective housing (1), the axle sleeve is through linking up mouth and pull rod (304) threaded connection.

8. An anti-collision and anti-explosion intelligent storage device for transportation chemicals as claimed in claim 7, wherein: a partition plate (303) is arranged around a pulling plate (302) in the chassis (3), the pulling plate (302) is tightly connected with the partition plate (303), one end of the partition plate (303) is connected with a diaphragm (301), the partition plate (303) is provided with a vent hole, the vent hole is positioned above the pulling plate (302), the pulling plate (302) is provided with four connecting ropes (306), and one end of each connecting rope (306) penetrates through the chassis (3) and the protective box (1);

one end of the screw rod (103) penetrates through the reset box (105) and is provided with a winding wheel, and one end of the connecting rope (306) is connected with the winding wheel.

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