Chemical industry hazardous articles transportation jar
Technical Field
The invention relates to the field of chemical industry, in particular to a chemical industry hazardous article transportation tank.
Background
The chemical dangerous articles refer to highly toxic chemicals and other chemicals which have the properties of toxicity, corrosion, explosion, combustion supporting and the like and have harm to human bodies, facilities and environment, and the chemical industry is short for chemical technology, chemical industry, chemical engineering and the like. The technology of changing the composition and structure of substances or synthesizing new substances by chemical methods belongs to the chemical production technology, namely the chemical process, and the obtained products are called chemicals or chemical products.
However, in the traditional transportation tank for dangerous chemical products, the temperature of the oil tank in high-temperature weather is high in the transportation process, the oil tank is easy to ignite, and the oil tank explodes, the temperature of the oil tank is reduced by increasing the thickness of the oil tank through some materials, the temperature reduction speed is low, the temperature is not complete, the heat dissipation is slow, and the protective performance is low, so that the transportation tank for dangerous chemical products provided by the invention has the following characteristics:
(1) according to the chemical dangerous goods transport tank, the power supply mechanism on the side face of the shell is matched with the conductive mechanism through the pushing mechanism to open the electromagnetic valve, when the temperature of the shell reaches a certain value, mercury in the mercury chamber expands and rises to achieve communication between the first copper sheet and the second copper sheet, the electromagnetic valve is further opened, the water discharge pipe is opened, water in the water tank is discharged to the shell to be cooled, and the oil tank explosion caused by overhigh temperature is avoided.
(2) According to the chemical hazardous article transportation tank, the top of the second copper sheet is fixedly connected with the time delay plate through the second spring, mercury shrinks when the temperature of the shell is reduced, the push plate and the abutting plate descend to separate the first copper sheet from the second copper sheet, so that the electromagnetic valve is prevented from being immediately disconnected when the temperature is reduced, when the first copper sheet is separated from the second copper sheet, the time delay plate is also contacted with the first copper sheet under the action of the second spring, and the electromagnetic valve is prevented from being disconnected when the shell is not fully cooled.
Disclosure of Invention
Aiming at the problems in the prior art, the invention provides a chemical hazardous article transportation tank, a power supply mechanism on the side surface of a shell is matched with a conductive mechanism through a pushing mechanism to open an electromagnetic valve, when the temperature of the shell reaches a certain value, the mercury in the mercury chamber expands and rises to realize the communication between the first copper sheet and the second copper sheet, the electromagnetic valve is opened to discharge the water in the water tank to the shell for cooling, the explosion of the oil tank with overhigh temperature is avoided, the top of the second copper sheet is fixedly connected with the delay plate through the second spring, when the temperature of the shell is reduced, the mercury shrinks, the push plate and the abutting plate descend to separate the first copper sheet from the second copper sheet, so that the electromagnetic valve is prevented from being immediately disconnected when the temperature is reduced, when the first copper sheet is separated from the second copper sheet, the delay plate is also contacted with the first copper sheet under the action of the second spring, so that the power failure of the electromagnetic valve is avoided when the shell is not fully cooled.
The technical scheme adopted by the invention for solving the technical problems is as follows: a chemical dangerous goods transport tank comprises an oil storage mechanism, a water discharge mechanism, a recovery mechanism, a protection mechanism, a heat conduction ring, a power supply mechanism, a conductive mechanism and a pushing mechanism; the inside hollow surface fixedly connected with that is used for storing the oil storage mechanism of petrol is used for protecting the recovery mechanism of the oil storage mechanism, the top of the recovery mechanism is provided with the water storage mechanism that is used for storing water and cooling the oil storage mechanism, the surface of the recovery mechanism is relatively provided with the water discharge mechanism that is positioned on the two side walls of the water storage mechanism, the side surface of the recovery mechanism is provided with the power supply mechanism that is used for providing electric power, the side surface fixedly connected with that is used for heat conduction is a cylindrical structure and a top opening of the heat conduction ring, the side wall fixedly connected with that is hollow cylindrical structure of the recovery mechanism is positioned on the top of the heat conduction ring, one end of the power supply mechanism penetrates through the inside of the protection mechanism and is electrically connected with the electric conduction mechanism, and one end of the electric conduction mechanism is electrically connected with the water discharge mechanism, the bottom of the protection mechanism is provided with the pushing mechanism which is used for driving the conductive mechanism and sensing the heat of the heat conductive ring.
Specifically, retrieve the mechanism and include shell and inlet opening, the inside hollow guard action that plays of outside fixedly connected with of oil storage mechanism the shell, two lateral wall equidistance of shell are seted up and are used for collecting the rainwater the inlet opening, in rainy day rainwater along the shell flows the inside of inlet opening can do at high temperature weather the oil storage mechanism cools down, avoids the explosion of oil storage mechanism.
Specifically, oil storage mechanism includes the oil tank, goes out oil pipe and advances oil pipe, the inside fixedly connected with of shell is used for the oil storage the oil tank, advance oil pipe and run through the one end of shell communicate in the oil tank, it runs through to go out oil pipe the one end of shell communicate in the oil tank, it is located to go out oil pipe advance oil pipe's bottom, the pipeline intercommunication that will refuel when refueling advance oil pipe and refuel, will when refueling to gas station it carries out the oil drain to go out oil pipe intercommunication in gas station's oil tank.
Specifically, water storage mechanism includes inlet tube, observation window and water tank, the inside cavity of top center department fixed connection of shell, the cross-section is fan-shaped structure be used for the water storage the water tank, the side of water tank is equipped with owing to observe the water yield the observation window, the inlet tube communicate in the top of water tank is in hot day gas to add water in the inside of water tank, follow the observation window is observed the inside water yield of water tank is convenient for right the shell dispels the heat, thereby avoids the oil tank explosion.
Specifically, the mechanism that drains includes solenoid valve, delivery pipe, breakwater and the groove that drains, the lateral wall relative equidistance of shell is equipped with and is the arc structure, is located the both sides wall of water tank the breakwater, the both sides wall equidistance of water tank is installed and is used for controlling rivers the solenoid valve, the side of solenoid valve connect in the delivery pipe, the solenoid valve is located two between the breakwater, adjacent two form between the breakwater the groove that drains, will after the solenoid valve circular telegram the delivery pipe is opened the realization the inside rivers of water tank arrive the surface of shell, the breakwater avoids the water outflow, practices thrift the water source, and is comprehensive will the shell heat dissipation, rivers pass through can flow during the inlet opening the inside of shell is stored, equally can with the shell heat dissipation.
Specifically, power supply mechanism includes box body, battery and inlet wire, the side-mounting of shell is used for placing the battery the box body, the inlet wire runs through the one end electric connection of box body in the battery, the solenoid valve is located the top of box body will the battery is put the inside of box body realizes the power supply, will inlet wire electric connection in the circular telegram is realized to the battery.
Specifically, protection machanism includes first spring, foam-rubber cushion and barrel, the side fixedly connected with inside hollow cylindrical structure of shell, be located the top of heat conduction circle the barrel, the inside wall of barrel bonds and has the foam-rubber cushion, the interior top fixed connection of barrel is a plurality of first spring, first spring with the foam-rubber cushion can avoid conductive machanism with pushing mechanism rocks, and the barrier propterty is good.
Specifically, the conductive mechanism comprises a protective shell, a first copper sheet, connectors, outgoing lines, a second copper sheet, a connecting plate, a delay plate and a second spring, the protective shell is fixedly connected with the inside of the barrel body, the protective shell is of a hollow cylindrical structure, the inner side wall of the protective shell is symmetrically and fixedly connected with the first copper sheet, one end of the incoming line is electrically connected with one of the copper sheets, the other end of the incoming line is electrically connected with the electromagnetic valve through the outgoing line, the two second copper sheets slide in the barrel body and are fixedly connected through the connecting plate, the tops of the two second copper sheets are fixedly connected with the connectors which are of a trapezoid structure and open at the tops, the second spring is installed in the connectors, the delay plate is fixedly connected with the tops of the second spring, the cross section of the second copper sheet is of a trapezoid structure, and the second copper sheet is abutted against the bottom of the first copper sheet, when the pushing mechanism electrically connects the first copper sheet and the second copper sheet, the electromagnetic valve is opened, and the shell is cooled by the water discharged from the water discharge pipe.
Specifically, the pushing mechanism comprises a support plate, a connecting column, a push plate, a limiting plate, a mercury chamber and a heat absorption ball, the bottom of the protective shell is fixedly connected with the heat absorption ball in a hemispherical structure, the bottom of the heat absorption ball is abutted against the heat conduction ring, the inner side wall of the protective shell is symmetrically and fixedly connected with the limiting plate, the internal sliding connection of the protective shell is located at the top of the limiting plate, the top circle center of the push plate is fixedly connected with the connecting column, the support plate is slidably connected with the inside of the protective shell and the top of the connecting column for welding, the mercury chamber for containing mercury is formed between the push plate and the bottom of the protective shell, the second copper sheet is fixed at the top of the support plate, the heat conduction ring is contacted with the heat absorption ball, and when the temperature of the shell reaches a certain time, the mercury in the mercury chamber is expanded and ascend, the push plate slides up the abutting plate, so that the second copper sheet positioned at the top of the abutting plate is electrically connected with the first copper sheet on the inner side wall of the protective shell, the first copper sheet is communicated with the outgoing line, the electromagnetic valve is further opened, the water discharge pipe starts to discharge water to cool the shell, the push plate descends to separate the first copper sheet from the second copper sheet after the temperature of the shell is reduced, the electromagnetic valve can be powered off slowly due to the fact that the top of the second spring is connected with the time delay plate, and the situation that the temperature of the shell is initially reduced and the electromagnetic valve is powered off is avoided.
The invention has the beneficial effects that:
(1) according to the chemical dangerous goods transport tank, the power supply mechanism on the side face of the shell is matched with the conductive mechanism through the pushing mechanism to open the electromagnetic valve, when the temperature of the shell reaches a certain value, mercury in the mercury chamber expands and rises to achieve communication between the first copper sheet and the second copper sheet, the electromagnetic valve is further opened, the water discharge pipe is opened, water in the water tank is discharged to the shell to be cooled, and the oil tank explosion caused by overhigh temperature is avoided.
(2) According to the chemical hazardous article transportation tank, the top of the second copper sheet is fixedly connected with the time delay plate through the second spring, mercury shrinks when the temperature of the shell is reduced, the push plate and the abutting plate descend to separate the first copper sheet from the second copper sheet, so that the electromagnetic valve is prevented from being immediately disconnected when the temperature is reduced, when the first copper sheet is separated from the second copper sheet, the time delay plate is also contacted with the first copper sheet under the action of the second spring, and the electromagnetic valve is prevented from being disconnected when the shell is not fully cooled.
Drawings
The invention is further illustrated with reference to the following figures and examples.
FIG. 1 is a schematic structural diagram of a chemical transportation tank for hazardous materials according to a preferred embodiment of the present invention;
FIG. 2 is a schematic connection diagram of the protection mechanism, the conductive mechanism and the pushing mechanism shown in FIG. 1;
FIG. 3 is a schematic view of the conductive mechanism shown in FIG. 2;
fig. 4 is a schematic diagram showing connection between the oil tank and the recovery mechanism shown in fig. 2.
In the figure: 1. the oil storage device comprises an oil storage mechanism 11, an oil tank 12, an oil outlet pipe 13, an oil inlet pipe 2, a water storage mechanism 21, an water inlet pipe 22, an observation window 23, a water tank 3, a water discharge mechanism 31, an electromagnetic valve 32, a water discharge pipe 33, a water baffle 34, a water discharge groove 4, a recovery mechanism 41, a shell 42, a water inlet hole 5, a protection mechanism 51, a first spring 52, a sponge pad 53, a cylinder 6, a heat conduction ring 7, a power supply mechanism 71, a box body 72, a battery 73, an inlet wire 8, a conductive mechanism 81, a protective shell 82, a first copper sheet 83, a connector 84, an outlet wire 85, a second copper sheet 86, a connecting plate 87, a delay plate 88, a second spring 9, a pushing mechanism 91, a supporting plate 92, a connecting column 93, a push plate 94, a limiting plate 95, a mercury chamber 96 and a heat absorption ball.
Detailed Description
In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.
As shown in fig. 1 and 2, the transportation tank for hazardous chemical products in the present invention includes an oil storage mechanism 1, a water storage mechanism 2, a water discharge mechanism 3, a recovery mechanism 4, a protection mechanism 5, a heat conduction ring 6, a power supply mechanism 7, an electric conduction mechanism 8, and a pushing mechanism 9; the hollow surperficial fixedly connected with that is used for storing the petrol of oil storage mechanism 1 of inside is used for the protection oil storage mechanism 1 retrieve mechanism 4, the top of retrieving mechanism 4 is equipped with be used for storing water, for the water storage mechanism 2 of the cooling of oil storage mechanism 1, the surface of retrieving mechanism 4 is equipped with relatively and is located the mechanism 3 that drains of 2 both sides walls of water storage mechanism, the side-mounting of retrieving mechanism 4 has the power supply mechanism 7 that is used for providing electric power, the side fixedly connected with that retrieves mechanism 4 is used for heat conduction be cylinder type structure, open-top heat conduction circle 6, the lateral wall fixedly connected with of retrieving mechanism 4 hollow cylindrical structure, be located the protection machanism 5 at heat conduction circle 6 top, the one end of power supply mechanism 7 run through the inside of protection machanism 5 with 8 electric connection of electric conduction mechanism, one end of the conductive mechanism 8 is electrically connected to the water discharging mechanism 3, and the pushing mechanism 9 for driving the conductive mechanism 8 and sensing the heat of the heat conducting ring 6 is installed at the bottom of the protection mechanism 5.
Specifically, as shown in fig. 1, the recovery mechanism 4 of the chemical hazardous article transportation tank of the present invention includes a housing 41 and water inlets 42, the outer side of the oil storage mechanism 1 is fixedly connected with the housing 41 which is hollow inside and plays a role in protection, the water inlets 42 for collecting rainwater are equidistantly formed on two side walls of the housing 41, and in rainy days, rainwater flows into the interior of the water inlets 42 along the housing 41, so as to cool the oil storage mechanism 1 in high temperature, and prevent the oil storage mechanism from exploding.
Specifically, as shown in fig. 1, the oil storage mechanism 1 of the chemical hazardous article transportation tank of the present invention includes an oil tank 11, an oil outlet pipe 12 and an oil inlet pipe 13, the oil tank 11 for storing oil is fixedly connected to the inside of the housing 41, one end of the oil inlet pipe 13 penetrating through the housing 41 is communicated with the oil tank 11, one end of the oil outlet pipe 12 penetrating through the housing 41 is communicated with the oil tank 11, the oil outlet pipe 12 is located at the bottom of the oil inlet pipe 13, a pipeline for filling oil is communicated with the oil inlet pipe 13 for filling oil when filling oil, and the oil outlet pipe 12 is communicated with the oil tank of the gas station for discharging oil when filling oil to the gas station.
Specifically, as shown in fig. 1, the water storage mechanism 2 of the chemical hazardous article transportation tank of the present invention includes a water inlet pipe 21, an observation window 22 and a water tank 23, the top center of the housing 41 is fixedly connected to the water tank 23 which is hollow and has a fan-shaped cross section for storing water, the observation window 22 for observing the water volume is disposed on the side surface of the water tank 23, the water inlet pipe 21 is communicated with the top of the water tank 23, water is added into the water tank 23 in hot weather, the water volume in the water tank 23 is observed through the observation window 22, so as to facilitate heat dissipation of the housing 41, and thus explosion of the oil tank 11 is avoided.
Specifically, as shown in fig. 1, the water discharge mechanism 3 of the chemical hazardous article transportation tank of the present invention includes an electromagnetic valve 31, a water discharge pipe 32, water baffles 33 and a water discharge tank 34, the water baffles 33 of an arc structure and located on two side walls of the water tank 23 are relatively equidistantly disposed on the side wall of the housing 41, the electromagnetic valves 31 for controlling water flow are equidistantly installed on two side walls of the water tank 23, the side surface of the electromagnetic valve 31 is connected to the water discharge pipe 32, the electromagnetic valve 31 is located between two water baffles 33, the water discharge tank 34 is formed between two adjacent water baffles 33, the electromagnetic valve 31 is powered on to open the water discharge pipe 32 to enable the water inside the water tank 23 to flow to the surface of the housing 41, the water baffles 33 prevent water from flowing out, so as to save water resources, comprehensively dissipate heat from the housing 41, and when the water flows through the water inlet 42, the water can flow to the interior of the housing 41 for storage, the housing can also be heat dissipating.
Specifically, as shown in fig. 1, the power supply mechanism 7 of the chemical hazardous article transportation tank of the present invention includes a box body 71, a battery 72 and an incoming line 73, the box body 71 for placing the battery 72 is installed on a side surface of the housing 41, one end of the incoming line 73 penetrating through the box body 71 is electrically connected to the battery 72, the electromagnetic valve 31 is located at the top of the box body 71, the battery 72 is placed inside the box body 71 to realize power supply, and the incoming line 73 is electrically connected to the battery 72 to realize power on.
Specifically, as shown in fig. 1, the protective mechanism 5 of the chemical hazardous article transportation tank of the present invention includes a first spring 51, a foam rubber cushion 52 and a cylinder 53, the side surface of the housing 41 is fixedly connected with the cylinder 53 which is located at the top of the heat conduction ring 6 and has an internal hollow cylindrical structure, the foam rubber cushion 52 is bonded to the inner side wall of the cylinder 53, the internal top of the cylinder 53 is fixedly connected with a plurality of first springs 51, and the first springs 51 and the foam rubber cushion 52 can prevent the conductive mechanism 8 and the pushing mechanism 9 from shaking, so that the protective performance is good.
Specifically, as shown in fig. 2 and fig. 3, the conductive mechanism 8 of the chemical hazardous article transportation tank of the present invention includes a protective shell 81, first copper sheets 82, a connector 83, an outgoing line 84, second copper sheets 85, a connecting plate 86, a delay plate 87 and a second spring 88, the protective shell 81 with a hollow cylindrical structure is fixedly connected inside the cylinder 53, the first copper sheets 82 are symmetrically and fixedly connected to the inner side wall of the protective shell 81, one end of the incoming line 73 is electrically connected to one of the copper sheets 82, the other first copper sheet 82 is electrically connected to the electromagnetic valve 31 through the outgoing line 84, two second copper sheets 85 slide inside the cylinder 53, the two second copper sheets 85 are fixedly connected through the connecting plate 86, the tops of the two second copper sheets 85 are fixedly connected to the connector 83 with a trapezoidal structure and an opening at the top, the inside installation of connector 83 the second spring 88, the top fixed connection cross-section of second spring 88 is the trapezium structure delay board 87, second copper sheet 85 with delay board 87 with the bottom of first copper sheet 82 is contradicted, works as pushing mechanism 9 will first copper sheet 82 with realize after the second copper sheet 85 electric connection the solenoid valve 31 is opened, realizes that the delivery pipe 32 drains the water will shell 41 dispels the heat.
Specifically, as shown in fig. 2, the pushing mechanism 9 of the chemical hazardous article transportation tank of the present invention includes a supporting plate 91, a connecting column 92, a push plate 93, a limiting plate 94, a mercury chamber 95, and a heat absorbing ball 96, the bottom of the protective shell 81 is fixedly connected to the heat absorbing ball 96 in a hemispherical structure, the bottom of the heat absorbing ball 96 abuts against the heat conducting ring 6, the inner side wall of the protective shell 81 is symmetrically and fixedly connected to the limiting plate 94, the inside of the protective shell 81 is slidably connected to the push plate 93 located at the top of the limiting plate 94, the top circle center of the push plate 93 is fixedly connected to the connecting column 92, the supporting plate 91 is slidably connected to the inside of the protective shell 81 and welded to the top of the connecting column 92, the mercury chamber 95 for containing mercury is formed between the push plate 93 and the bottom of the protective shell 81, the second copper sheet 85 is fixed to the top of the supporting plate 91, the heat conduction ring 6 contacts with the heat absorption ball 96, when the temperature of the housing 41 reaches a certain value, the mercury in the mercury chamber 95 expands and rises, further, the push plate 93 slides up the abutting plate 91, thereby realizing the electrical connection between the second copper sheet 85 at the top of the resisting board 91 and the first copper sheet 82 on the inner side wall of the protective shell 81, then the first copper sheet 85 is connected with the outgoing line 84, further the electromagnetic valve 31 opens the water discharge pipe 32 to start discharging water to cool the shell 41, when the temperature of the shell 41 is reduced, the push plate 93 is lowered to separate the first copper sheet 82 from the second copper sheet 85, because the top of second spring 88 is connected time delay board 87, solenoid valve 31 can slowly cut off the power supply, avoids the preliminary cooling of the temperature of shell 41 solenoid valve 31 just cuts off the power supply.
Firstly, water inlet holes 42 for collecting rainwater are formed in two side walls of a shell 41 at equal intervals, rainwater can flow into the water inlet holes 42 along the shell 41 in rainy days to cool an oil storage mechanism 1 in high-temperature weather, so that the oil storage mechanism is prevented from exploding, a refueling pipeline is communicated with an oil inlet pipe 13 for refueling during refueling, and an oil outlet pipe 12 is communicated with an oil tank of a refueling station for discharging oil during refueling to the refueling station; the method specifically comprises the following steps:
(1) add water to the inside of water tank 23 in hot day, observe the inside water yield of water tank 23 from observation window 22, be convenient for dispel the heat to shell 41 to avoid the oil tank 11 explosion, put the inside of box body 71 with battery 72, realize the power supply, realize the circular telegram with inlet wire 73 electric connection in battery 72.
The inner top of the cylinder 53 is fixedly connected with the first springs 51, the first springs 51 and the sponge cushion 52 can prevent the conductive mechanism 8 and the pushing mechanism 9 from shaking, the protection performance is good, when the temperature of the shell 41 reaches a certain value, mercury in the mercury chamber 95 expands and rises, the pushing plate 93 can further slide the abutting plate 91 upwards, so that the second copper sheet 85 positioned at the top of the abutting plate 91 is electrically connected with the first copper sheet 82 on the inner side wall of the protective shell 81, the first copper sheet 85 is connected with the outgoing line 84, the electromagnetic valve 31 is further realized that the electromagnetic valve 31 opens the water discharge pipe 32 to start discharging water to cool the shell 41, when the temperature of the shell 41 drops, the pushing plate 93 drops to separate the first copper sheet 82 from the second copper sheet 85, and because the top of the second spring 88 is connected with the delay plate 87, the electromagnetic valve 31 can be powered off slowly, and the primary power failure of the electromagnetic valve 31 caused by.
The power supply mechanism 7 on the side of the housing 41 of the present invention opens the electromagnetic valve 31 by the pushing mechanism 9 cooperating with the conductive mechanism 8, when the temperature of the housing 41 reaches a certain value, the mercury in the mercury chamber 95 expands and rises to communicate the first copper sheet 82 with the second copper sheet 85, and then the electromagnetic valve 31 opens the water discharge pipe 32 to discharge the water in the water tank 23 to the housing 41 for cooling, so as to avoid the explosion of the oil tank with over-high temperature, the top of the second copper sheet 85 is fixedly connected with the delay plate 87 through the second spring 88, when the temperature of the shell 41 is reduced, the mercury shrinks, the push plate 93 and the abutting plate 91 descend to separate the first copper sheet 82 from the second copper sheet 85, so that the electromagnetic valve 31 is prevented from being immediately disconnected when the temperature is reduced, when the first copper sheet 82 is separated from the second copper sheet 85, the delay board 87 is also contacted with the first copper sheet 82 under the action of the second spring 88, so as to avoid the power failure of the electromagnetic valve 31 when the housing 41 is not fully cooled.
The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the claims. The scope of the invention is defined by the appended claims and equivalents thereof.