CN113844510A - Low-temperature sealing transportation device for transferring iodine wastewater - Google Patents

Abstract

The invention discloses a low-temperature sealed transportation device for transferring iodine wastewater, which relates to the technical field of transportation and comprises a transportation vehicle head, a transportation vehicle plate and a transportation box; the iodine wastewater transfer transportation device is characterized in that the transportation vehicle plate is provided with a transportation box, the transportation vehicle plate is driven by the transportation vehicle head to move, the bottom of the transportation vehicle head and the bottom of the transportation vehicle plate are respectively provided with a moving wheel, the transportation box is provided with a water inlet and a water outlet, and the transportation box is internally provided with an anti-shaking assembly.

Description

Low-temperature sealing transportation device for transferring iodine wastewater

Technical Field

The invention relates to the technical field of conveying and transportation, in particular to a low-temperature sealed transportation device for transferring iodine wastewater.

Background

Iodine is a purple black glossy flaky crystal, is extremely important for the life of animals and plants, and can promote biological oxidation, regulate protein synthesis and decomposition, promote sugar and fat metabolism, enhance enzyme activity, promote growth and development and the like;

the iodine wastewater contains a large amount of iodine, so the technology for recovering and extracting iodine from the iodine wastewater has important significance for social development, and because the elemental iodine has strong corrosivity and irritation, the skin, respiratory system and vision of people are greatly damaged by contacting iodine for a long time, so that how to safely transfer the iodine wastewater to a specified position for extracting the iodine is particularly important;

the existing iodine wastewater transferring and transporting device has the following problems in use:

1. in the process of transporting the iodine wastewater, as the iodine wastewater is in a liquid state, the iodine wastewater shakes in the transporting device due to the speed change of the transporting device, so that leakage is easy to occur, and even transportation accidents occur;

2. because the transport device transports the liquid iodine wastewater, the transport device has large inertia force in the transfer process, and the inertia force can cause the transport device to continuously move forwards and stop in time at the moment of reducing the speed of the transport device, so that safety accidents are easy to occur;

therefore, there is a need for a low-temperature sealed transportation device for transferring iodine wastewater to solve the above-mentioned technical problems.

Disclosure of Invention

The invention aims to provide a low-temperature sealed transportation device for transferring iodine wastewater, which aims to solve the problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme: a low-temperature sealed transportation device for transferring iodine wastewater comprises a transportation vehicle head, a transportation vehicle plate and a transportation box;

the transport vehicle comprises a transport vehicle plate and is characterized in that a transport box is arranged on the transport vehicle plate, a hollow layer is arranged in the side wall of the transport box, a cooling unit is arranged in the hollow layer, the transport vehicle plate moves through the driving of a transport vehicle head, moving wheels are arranged at the bottom of the transport vehicle head and the bottom of the transport vehicle plate, a water inlet and a water outlet are formed in the transport box, an anti-shaking assembly is arranged in the transport box and is used for reducing the shaking of iodine wastewater in the transport box, and the transport device is more stable to the transfer of the iodine wastewater.

As a preferred technical scheme, the anti-shaking assembly comprises a sliding rod, an anti-shaking plate, a sliding hole, a water seepage hole, a blocking mechanism and a buoyancy balloon;

the anti-sloshing plate is internally provided with a plurality of sliding rods, the anti-sloshing plate is provided with a plurality of sliding holes, the anti-sloshing plate slides up and down on the sliding rods through the sliding holes, the diameter of each sliding hole is larger than that of each sliding rod, the purpose is to ensure that the anti-sloshing plate is smoother when sliding on the sliding rods and avoid the phenomenon of blocking, an anti-collision rubber ring is attached to the inner side of each sliding hole, the purpose is to reduce the impact force between the sliding holes and the sliding rods and prolong the service life, the lower surface of the anti-sloshing plate is provided with a plurality of blocking mechanisms, the blocking mechanisms are used for blocking the sloshing iodine wastewater and reducing the sloshing amplitude of the iodine wastewater in the transport box, the anti-sloshing plate is provided with a plurality of water seepage holes in a penetrating manner, the purpose of reducing the impact force between the iodine wastewater and the anti-sloshing plate is designed to ensure that the anti-sloshing plate is attached to the surface of the iodine wastewater more tightly, further reduce the degree of rocking of iodine waste water in the transport case, prevent shaking the board upper surface and be provided with a plurality of buoyancy sacculus.

As a preferred technical scheme, the blocking mechanism comprises a cross-shaped blocking frame, a blocking plate, a hanging rod, a swinging groove and a limiting block;

the cross-shaped blocking frame is fixed on the lower surface of the anti-shaking plate through the hanging rod, the cross-shaped blocking frame is arranged in a cross shape, so that the iodine wastewater which shakes can be blocked from all directions, the blocking effect of the blocking mechanism on the iodine wastewater is increased, the shaking of the iodine wastewater in the transport case is reduced, the blocking plate is arranged at the bottom end of the cross-shaped blocking frame, on one hand, the blocking plate is used for blocking the shaken iodine wastewater, on the other hand, after the iodine wastewater is blocked by the cross-shaped blocking frame, the iodine wastewater can have a downward acting force on the blocking plate, at the moment, the anti-shaking plate can be tightly attached to the surface of the iodine wastewater, the anti-shaking effect on the iodine wastewater is further enhanced, the hanging rod is inserted into the anti-shaking plate, a shaking groove is formed in the anti-shaking plate, a limiting block is arranged at the top end of the hanging rod, and the limiting block is positioned in the shaking groove, under the effect of swing groove and stopper, the cross blocks the swing that the frame can carry out certain degree under the striking effect of iodine waste water for can improve the degree of blockking when rocking the iodine waste water.

As a preferred technical scheme, a buffer support assembly is arranged between the transport vehicle plate and the transport box and is used for reducing the shaking of the transport box;

the buffer support component comprises a rubber base plate, a clamping groove, a connecting hole and a support rubber rod;

the rubber tie plate upper surface has been seted up the block groove, the rubber tie plate lower surface is provided with the block board, and the block board embedding block inslot portion of two adjacent rubber tie plates, buffering supporting component piles up by the stack of a plurality of rubber pad board and forms, run through on the rubber tie plate and seted up a plurality of connecting hole, the inside interlude of connecting hole has the support rubber pole, support rubber pole bottom and transport vechicle board fixed connection, support rubber pole top and transport case fixed connection.

As a preferred technical scheme, the transportation vehicle head comprises a telescopic plate, a rotating head and a traction handle;

one end of the expansion plate is hinged with a rotating head, the other end of the expansion plate is connected with the transport vehicle plate, when the transport device is pulled to move, a gap exists between the expansion plate and the transport vehicle plate, and a traction handle is arranged on the rotating head.

As a preferred technical scheme, one end of the telescopic plate, which is close to the transport vehicle plate, is provided with a telescopic rod, one end of the telescopic rod is provided with a limiting rod, and the diameter of the limiting rod is larger than that of the telescopic rod;

the transport vehicle plate comprises a telescopic hole and a limiting hole;

the telescopic hole is corresponding to the telescopic rod, the telescopic rod slides in the telescopic hole, one end of the telescopic hole is provided with a limit hole, the diameter of the limit hole is larger than that of the telescopic hole, the diameter of the telescopic hole is equal to that of the telescopic rod, the diameter of the limit hole is equal to that of the limit rod, and when the transportation device moves, the clearance distance between the telescopic plate and the transportation vehicle plate is equal to the length of the telescopic rod.

Through above-mentioned technical scheme, when pulling conveyer removed, at first can pull out the telescopic link from the telescopic hole, when the gag lever post reachd telescopic hole position department, can't continue to pull out the telescopic link from the telescopic hole is inside, and at this moment, the telescopic link can stimulate the transport vechicle board and remove.

As preferred technical scheme, clearance department between expansion plate and the transport vechicle board is provided with brake actuating mechanism, transport vechicle board bottom is provided with brake assembly, brake assembly is used for under brake actuating mechanism's effect, and timely brakes the conveyer, reduces because the danger that the inertial force of conveyer brought, be connected through the gas transmission hose between brake actuating mechanism and the brake assembly, the gas transmission hose is used for transmitting the power of brake.

As a preferred technical scheme, the brake driving mechanism comprises a fixed sleeve, a first corrugated pipe and an extrusion sleeve rod;

the utility model discloses a brake assembly, including the expansion plate, fixed sleeve pipe internally mounted has first bellows, the one end that the expansion plate is close to the expansion plate of transport vechicle is provided with the extrusion loop bar, and extrusion loop bar one end is located fixed sleeve pipe, the extrusion loop bar is used for extrudeing first bellows, when the speed of conveyer reduces or stops suddenly, because the quality of transport locomotive is less, can reduce speed or stop in the twinkling of an eye, but because the loading has iodine waste water in the transport vechicle, the quality is great, under the effect of inertial force, the transport vechicle board can continue to move forward, can make the extrusion loop bar cause the extrusion to the first bellows in the fixed sleeve pipe, the gas of extruding in the first bellows can be as brake assembly's power source, simultaneously, first bellows have certain elasticity, can also play certain cushioning effect to the stopping of transport vechicle board, helping to stop the truck bed.

According to the preferable technical scheme, the brake assembly comprises a brake sleeve, a second corrugated pipe, a brake sleeve rod and a brake plate;

transport vechicle board bottom is provided with brake sleeve, the inside second bellows that is provided with of brake sleeve, the inside slip of brake sleeve is provided with the brake loop bar, be connected through the gas transmission hose between first bellows and the second bellows, the second bellows is used for receiving the gas of first bellows through the gas transmission hose to take place the inflation, drive brake loop bar stretches out from brake sleeve inside, brake loop bar one end articulates there is the brake block, the laminating of brake block bottom has the rubber slab, on the one hand, has increased and ground between the frictional force, on the other hand, reduces the wearing and tearing that cause ground.

As preferred technical scheme, both ends of the brake plate are in the shape of an upturned arc, and the purpose is to avoid the situation that projections on the ground clamp the brake plate to cause influence on normal contact between the lower surface of the brake plate and the ground.

Compared with the prior art, the invention has the beneficial effects that:

1. the anti-shaking device is provided with the anti-shaking assembly, the anti-shaking plate can be always positioned on the surface of the iodine wastewater in the transport box by utilizing the buoyancy balloon, the sliding rod and the sliding hole, the shaking degree of the iodine wastewater in the transport box can be weakened under the action of the blocking mechanism, the iodine wastewater is more stable in the process of transfer transportation, the difficulty of transfer transportation of the iodine wastewater is reduced, and the probability of accidents in the process of transporting the iodine wastewater is reduced.

2. The stopping mechanism arranged in the invention can stop the iodine wastewater which shakes in all directions under the action of the cross stopping frame, and the cross stopping frame can rotate along with the shaking of the iodine wastewater under the action of the swinging groove and the limiting block, so that the stopping effect of the iodine wastewater is further improved.

3. The buffer support assembly is arranged, so that when the transport case shakes due to the inertia effect, a reverse acting force can be provided for the transport case under the condition of deformation under the action of the rubber base plate and the support rubber rod, and the risk of shaking of the transport case is reduced.

4. The invention is provided with a brake driving mechanism and a brake component, when a transport device is stopped suddenly, a transport vehicle plate and a transport box can continue to move forwards due to inertia force, at the moment, the transport vehicle plate can extrude a first corrugated pipe in a fixed sleeve through an extrusion sleeve rod, at the moment, gas in the first corrugated pipe is conveyed into a second corrugated pipe through a gas conveying hose, at the moment, the second corrugated pipe expands to drive the brake sleeve rod to extend out of the brake sleeve, so that the brake plate is contacted with the ground, the effect of braking the transport vehicle plate is achieved, and the gas in the first corrugated pipe can play a certain buffering role on the transport vehicle plate, the braking effect on the transport vehicle plate and the transport box is further achieved, the transport box can be stopped as soon as possible, and the harm caused by the inertia force is reduced.

Drawings

FIG. 1 is a schematic structural view of a low-temperature sealed transportation device for transferring iodine wastewater according to the present invention;

FIG. 2 is a schematic view showing the inside structure of a transport box of a low-temperature sealed transport apparatus for transferring iodine wastewater according to the present invention;

FIG. 3 is a schematic structural diagram of an anti-sloshing assembly in a low-temperature sealed transport device for transferring iodine wastewater according to the present invention;

FIG. 4 is a schematic structural diagram of a blocking mechanism in a low-temperature sealed transportation device for transferring iodine wastewater according to the present invention;

FIG. 5 is a schematic structural diagram of a swing groove and a limiting block in the low-temperature sealed transportation device for transferring iodine wastewater of the present invention;

FIG. 6 is a schematic structural view of a buffering support assembly in a low-temperature sealed transportation device for transferring iodine wastewater according to the present invention;

FIG. 7 is a schematic view of a superposed structure of rubber pads in a low-temperature sealed transportation device for transferring iodine wastewater according to the present invention;

FIG. 8 is a schematic structural diagram of a rubber pad in a low-temperature sealed transportation device for transferring iodine wastewater according to the present invention;

FIG. 9 is a schematic structural view of a transport vehicle head in the low-temperature sealed transport device for transferring iodine wastewater of the present invention;

FIG. 10 is a schematic structural view of a transportation cart plate in the low-temperature sealed transportation device for transferring iodine wastewater of the present invention;

FIG. 11 is a sectional view of a carriage plate in a low-temperature sealed conveyance device for iodine wastewater transfer according to the present invention;

FIG. 12 is a schematic view of the combined structure of a brake driving mechanism and a brake assembly in the low-temperature sealed transporting device for transferring iodine wastewater of the present invention;

FIG. 13 is a schematic view of the inner structure of the fixing sleeve and the brake sleeve of the low-temperature sealed transportation device for transferring iodine wastewater.

Reference numbers in the figures: 1. transporting the vehicle head; 101. a retractable plate; 102. rotating the head; 103. pulling the handle; 104. a telescopic rod; 105. a limiting rod;

2. a transporter plate; 201. a telescopic hole; 202. a limiting hole;

3. a moving wheel; 4. a transport case; 5. a water inlet; 6. a water outlet;

7. an anti-sloshing assembly; 701. a slide bar; 702. an anti-sloshing plate; 703. a slide hole; 704. a water seepage hole; 705. a blocking mechanism; 7051. a cross-shaped blocking frame; 7052. a blocking plate; 7053. a suspension rod; 7054. a swing groove; 7055. a limiting block; 706. a buoyant balloon;

8. a buffer support assembly; 801. a rubber pad; 802. a clamping plate; 803. a clamping groove; 804. connecting holes; 805. supporting the rubber rod;

9. a brake driving mechanism; 901. fixing the sleeve; 902. a first bellows; 903. extruding the loop bar;

10. a brake assembly; 1001. a brake sleeve; 1002. a second bellows; 1003. a brake lever; 1004. a brake plate;

11. an air hose.

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.

Example (b): as shown in fig. 1 to 13, the invention provides the following technical scheme that the low-temperature sealing transportation device for transferring the iodine wastewater comprises a transportation vehicle head 1, a transportation vehicle plate 2 and a transportation box 4;

be provided with transport case 4 on transport vechicle board 2, be provided with the hollow layer in the lateral wall of transport case 4, for can play fine thermal-insulated effect, the inside cooling unit that is provided with of hollow layer, the cooling unit is the semiconductor refrigeration piece, also can be other refrigeration plant, the purpose is in order to provide low temperature environment, transport vechicle board 2 removes through transport locomotive 1's drive, transport locomotive 1 and transport vechicle board 2 bottom all are provided with removes wheel 3, be provided with water inlet 5 and outlet 6 on the transport case 4, transport case 4 is inside to be provided with and to prevent shaking subassembly 7, prevent shaking subassembly 7 and be used for reducing rocking of iodine waste water in transport case 4, make the more stable of transfer of conveyer to iodine waste water.

The anti-sloshing assembly 7 comprises a sliding rod 701, an anti-sloshing plate 702, a sliding hole 703, a water seepage hole 704, a blocking mechanism 705 and a buoyancy balloon 706;

the inner part of the transport case 4 is provided with a plurality of sliding rods 701, the sliding rods 701 are arranged at the top corners inside the transport case 4, the anti-sloshing plate 702 is provided with a plurality of sliding holes 703, the anti-sloshing plate 702 slides up and down on the sliding rods 701 through the sliding holes 703, the diameter of the sliding holes 703 is larger than that of the sliding rods 701, the purpose is to ensure that the anti-sloshing plate 702 slides on the sliding rods 701 more smoothly and avoid the phenomenon of blocking, the inner side of the sliding holes 703 is attached with anti-collision rubber rings, the purpose is to reduce the impact force between the sliding holes 703 and the sliding rods 701 and prolong the service life, the lower surface of the anti-sloshing plate 702 is provided with a plurality of blocking mechanisms 705, the blocking mechanisms 705 are used for blocking the sloshing iodine wastewater and reducing the sloshing amplitude of the iodine wastewater inside the transport case 4, the blocking mechanisms 705 comprise a cross blocking frame 7051 and blocking plates 7052, a hanging rod 7053, a swinging groove 7054 and a limit block 7055;

the cross-shaped blocking frame 7051 is fixed on the lower surface of the anti-shaking plate 702 through the hanging rod 7053, the cross-shaped blocking frame 7051 is designed to be cross-shaped so as to block the shaking iodine wastewater from all directions, the blocking effect of the blocking mechanism 705 on the iodine wastewater is increased, the shaking of the iodine wastewater in the transport case 4 is reduced, the blocking plate 7052 is arranged at the bottom end of the cross-shaped blocking frame 7051, the blocking plate 7052 is used for blocking the shaking iodine wastewater on one hand, and on the other hand, when the iodine wastewater is blocked by the cross-shaped blocking frame 7051, the iodine wastewater has a downward acting force on the blocking plate 7052, at the moment, the anti-shaking plate 702 can be more tightly attached to the surface of the iodine wastewater, the anti-shaking effect on the iodine wastewater is further enhanced, the hanging rod 7053 is inserted into the anti-shaking plate 702, the swinging groove 7054 is formed in the anti-shaking plate 702, the swinging groove 7054 is fan-shaped, the top end of the hanging rod 7053 is provided with a limiting block 7055, stopper 7055 is located inside the groove 7054 that swings, under the effect of swing groove 7054 and stopper 7055, cross stop frame 7051 can carry out the swing of certain degree under the striking effect of iodine waste water, make and to improve the degree of stopping when rocking iodine waste water, a plurality of infiltration hole 704 has been seted up in running through on the anti-sway board 702, the purpose of infiltration hole 704 design is in order to reduce the impact between iodine waste water and the anti-sway board 702, and simultaneously, make the surface laminating of anti-sway board 702 and iodine waste water inseparabler, further reduce the degree of rocking of iodine waste water in transport case 4, the anti-sway board 702 upper surface is provided with a plurality of buoyancy sacculus 706, buoyancy sacculus 706 is used for providing buoyancy for anti-sway board 702, make anti-sway board 702 can float on iodine waste water surface, play the effect of anti-sway.

A buffer support component 8 is arranged between the transport vehicle plate 2 and the transport box 4, and the buffer support component 8 is used for reducing the shaking of the transport box 4;

the buffer support component 8 comprises a rubber cushion plate 801, a clamping plate 802, a clamping groove 803, a connecting hole 804 and a support rubber rod 805;

the clamping groove 803 has been seted up to rubber backing plate 801 upper surface, and rubber backing plate 801 lower surface is provided with clamping plate 802, and inside the clamping plate 802 embedding clamping groove 803 of two adjacent rubber backing plates 801, buffering supporting component 8 stacked by a plurality of rubber backing plate 801 and formed, runs through on the rubber backing plate 801 and has seted up a plurality of connecting hole 804, and the inside interlude of connecting hole 804 has supported rubber pole 805, supports rubber pole 805 bottom and transport vechicle board 2 fixed connection, supports rubber pole 805 top and transport case 4 fixed connection.

When the speed of the transportation device is suddenly reduced or the transportation device stops going forward suddenly, if the transportation box 4 is fixedly connected with the transportation vehicle plate 2, the transportation box 4 can continuously move forwards under the action of inertia, and further iodine wastewater in the transportation box can shake to a greater extent.

The transport vehicle head 1 comprises a telescopic plate 101, a rotating head 102 and a pulling handle 103;

one end of the telescopic plate 101 is hinged with a rotating head 102, the other end of the telescopic plate is connected with the transport vehicle plate 2, when the transport device is pulled to move, a gap exists between the telescopic plate 101 and the transport vehicle plate 2, and a pulling handle 103 is arranged on the rotating head 102 and used for driving the whole transport device to move.

One end of the telescopic plate 101, which is close to the transport vehicle plate 2, is provided with a telescopic rod 104, one end of the telescopic rod 104 is provided with a limiting rod 105, and the diameter of the limiting rod 105 is larger than that of the telescopic rod 104;

the transport vehicle plate 2 comprises a telescopic hole 201 and a limiting hole 202;

the position of telescopic hole 201 is corresponding with telescopic link 104, telescopic link 104 slides in telescopic hole 201 is inside, the one end of telescopic hole 201 is provided with spacing hole 202, the diameter in spacing hole 202 is greater than the diameter in telescopic hole 201, the diameter in telescopic hole 201 equals the diameter of telescopic link 104, the diameter in spacing hole 202 equals the diameter of gag lever post 105, make telescopic link 104 can not stretch out from telescopic hole 201 completely, can utilize spacing hole 202 and gag lever post 105 to play the limiting displacement of certain degree, and simultaneously, gag lever post 105 and spacing hole 202 can also play the supporting role to transport vechicle board 2, when the conveyer removed, the clearance distance between telescopic board 101 and transport vechicle board 2 equals the length of telescopic link 104.

Clearance department between expansion plate 101 and the transport vechicle board 2 is provided with brake actuating mechanism 9, brake actuating mechanism 9 is used for utilizing the inertia force of transport case 4 self to provide the power source for the brake of conveyer, transport vechicle board 2 bottom is provided with brake subassembly 10, brake subassembly 10 is used for under brake actuating mechanism 9's effect, timely brakes the conveyer, reduce the danger that brings because conveyer's inertia force, be connected through gas hose 11 between brake actuating mechanism 9 and the brake subassembly 10, gas hose 11 is used for transmitting the power of brake.

The brake driving mechanism 9 comprises a fixed sleeve 901, a first corrugated pipe 902 and an extrusion sleeve rod 903;

the end of the expansion plate 101 close to the transport vehicle plate 2 is provided with a fixed sleeve 901, the fixed sleeve 901 is internally provided with a first corrugated pipe 902, the end of the transport vehicle plate 2 close to the expansion plate 101 is provided with an extrusion sleeve rod 903, one end of the extrusion sleeve rod 903 is positioned inside the fixed sleeve 901, the extrusion sleeve rod 903 is used for extruding the first corrugated pipe 902, when the speed of the transport device is reduced or suddenly stopped, the speed can be instantly reduced or stopped because the mass of the transport vehicle head 1 is small, but the mass is large because the transport box 4 is loaded with iodine wastewater, the transport vehicle plate 2 can continuously move forward under the action of inertia force, the extrusion sleeve rod 903 can extrude the first corrugated pipe 902 in the fixed sleeve 901, the gas extruded in the first corrugated pipe 902 can be used as a power source of the brake assembly 10, meanwhile, the first corrugated pipe 902 has certain elasticity and can play a certain buffering role in stopping the transport vehicle plate 2, the stop of the transporter plate 2 is facilitated, and one end of the first corrugated pipe 902 is fixedly connected with the fixed sleeve 901, and the other end is fixedly connected with the extrusion sleeve rod 903.

The brake assembly 10 includes a brake sleeve 1001, a second bellows 1002, a brake sleeve rod 1003 and a brake plate 1004;

the bottom of the transport vehicle plate 2 is provided with a brake sleeve 1001, the brake sleeve 1001 is arranged obliquely towards the advancing direction of the transport device, in order to improve the braking effect, a second corrugated pipe 1002 is arranged inside the brake sleeve 1001, a brake sleeve rod 1003 is arranged inside the brake sleeve 1001 in a sliding manner, the first corrugated pipe 902 is connected with the second corrugated pipe 1002 through an air hose 11, the second corrugated pipe 1002 is used for receiving air of the first corrugated pipe 902 through the air hose 11 and expanding to drive the brake sleeve rod 1003 to extend out from the inside of the brake sleeve, one end of the brake sleeve rod 1003 is hinged with a brake plate 1004, the brake plate 1004 is used for contacting with the ground to provide friction for braking of the transport vehicle plate 2, the bottom of the brake plate 1004 is attached with a rubber plate, on one hand, the friction between the brake plate 1004 and the ground is increased, on the other hand, abrasion caused to the ground is reduced, one end of the second corrugated pipe 1002 is fixedly connected with the brake sleeve 1001, the other end is fixedly connected with the brake sleeve rod 1003.

The two ends of brake pad 1004 are arc-shaped, so as to avoid the situation that the normal contact between the lower surface of brake pad 1004 and the ground is affected due to the fact that brake pad 1004 is jammed by a projection on the ground.

The working principle of the invention is as follows: when the transporting device is used for transferring and transporting iodine wastewater, firstly, the iodine wastewater is injected into the transporting box 4 through the water inlet 5, the water level in the transporting box 4 is continuously raised along with the continuous injection of the iodine wastewater, the anti-shaking plate 702 is slowly raised along with the water level under the action of the buoyancy balloon 706 under the limiting action of the sliding rod 701 and the sliding hole 703 and floats on the surface of the iodine wastewater, and after the iodine wastewater is completely injected into the transporting box 4, the power supply of the semiconductor refrigerating sheet is switched on, and the whole transporting box 4 is cooled;

then, the pulling handle 103 is utilized to drive the whole transportation device to move, when the pulling handle 103 is pulled, the expansion plate 101 moves firstly under the action of the expansion link 104 and the expansion hole 201, at the moment, the extrusion loop rod 903 is also pulled out from the inside of the fixed sleeve 901, the first corrugated pipe 902 is stretched, the gas in the second corrugated pipe 1002 is conveyed to the inside of the first corrugated pipe 902 through the gas conveying hose 11, the brake loop rod 1003 is contracted to enter the brake sleeve 1001, at the moment, the limiting rod 105 is also driven to move to the position of the expansion hole 201, and the transportation vehicle plate 2 and the transportation box 4 above the transportation vehicle plate can be driven to move through the transportation vehicle head 1;

when the iodine wastewater shakes in the transport box 4, the shaking iodine wastewater is blocked by the cross-shaped blocking frame 7051 under the action of the blocking mechanism 705, so that the shaking of the iodine wastewater can be greatly reduced, and the iodine wastewater impacting on the cross-shaped blocking frame 7051 can downwards extrude the blocking plate 7052, so that the whole anti-shaking plate 702 is more attached to the surface of the iodine wastewater, and the anti-shaking treatment of the iodine wastewater is further improved;

when the transport vehicle arrives at a specified destination, the transport vehicle head 1 is stopped at first, at the moment, the whole transport vehicle plate 2 continues to move forwards due to the inertia effect because of iodine wastewater in the transport box 4, at the moment, the rubber base plates 801 superposed together incline, the supporting rubber rods 805 also incline, the rubber base plates 801 and the supporting rubber rods 805 which incline forwards have the elastic effect and can provide a backward acting force for the whole transport box 4, at the moment, the shaking of the transport box 4 can be reduced through the consumption of the acting force, and further the shaking of the iodine wastewater in the transport box 4 is reduced;

however, the transporting vehicle plate 2 still continues to move forward, at this time, the transporting vehicle plate 2 moving forward due to inertia drives the pressing sleeve rod 903 to press the first corrugated pipe 902 in the fixing sleeve 901, the gas in the pressed first corrugated pipe 902 is conveyed into the second corrugated pipe 1002 through the gas conveying hose 11, the second corrugated pipe 1002 expands and extends, at this time, the extended second corrugated pipe 1002 ejects the brake sleeve rod 1003 from the brake sleeve 1001, the ejected brake sleeve rod 1003 drives the brake plate 1004 to contact with the ground, at this time, the brake plate 1004 contacting with the ground provides friction, which plays a role of braking to drive the transporting vehicle plate 2 to stop more quickly, and at the same time, the pressed first corrugated pipe 902 can also play a certain role of buffering to accelerate the stopping of the transporting vehicle plate 2;

when the transporting device arrives at a designated place, the iodine wastewater is transported to a designated recovery and purification device through the water outlet 6, and then the iodine in the iodine wastewater can be extracted.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (9)

1. The utility model provides a low temperature seals conveyer of iodine waste water transfer usefulness which characterized in that: the low-temperature sealed transportation device comprises a transportation vehicle head (1), a transportation vehicle plate (2) and a transportation box (4);

a transport box (4) is arranged on the transport vehicle plate (2), a hollow layer is arranged in the side wall of the transport box (4), a cooling unit is arranged in the hollow layer, the transport vehicle plate (2) is driven by a transport vehicle head (1) to move, moving wheels (3) are arranged at the bottoms of the transport vehicle head (1) and the transport vehicle plate (2), a water inlet (5) and a water outlet (6) are arranged on the transport box (4), and an anti-shaking assembly (7) is arranged in the transport box (4);

the anti-shaking assembly (7) comprises a sliding rod (701), an anti-shaking plate (702), a sliding hole (703), a water seepage hole (704), a blocking mechanism (705) and a buoyancy balloon (706);

the inside a plurality of slide bars (701) that is provided with of transport case (4), a plurality of sliding hole (703) has been seted up on anti-sway board (702), anti-sway board (702) slides from top to bottom on slide bar (701) through sliding hole (703), the diameter of sliding hole (703) is greater than the diameter of slide bar (701), anti-sway board (702) lower surface is provided with a plurality of and blocks mechanism (705), run through on anti-sway board (702) and seted up a plurality of infiltration hole (704), anti-sway board (702) upper surface is provided with a plurality of buoyancy sacculus (706).

2. The cryogenic sealed transport device for iodine wastewater transfer according to claim 1, characterized in that: the blocking mechanism (705) comprises a cross-shaped blocking frame (7051), a blocking plate (7052), a hanging rod (7053), a swinging groove (7054) and a limiting block (7055);

the cross-shaped barrier frame (7051) is fixed on the lower surface of the anti-shaking plate (702) through the suspension rod (7053), the barrier plate (7052) is arranged at the bottom end of the cross-shaped barrier frame (7051), the suspension rod (7053) is inserted into the anti-shaking plate (702), the shaking groove (7054) is formed in the anti-shaking plate (702), the limiting block (7055) is arranged at the top end of the suspension rod (7053), and the limiting block (7055) is located in the shaking groove (7054).

3. The cryogenic sealed transport device for iodine wastewater transfer according to claim 1, characterized in that: a buffer supporting component (8) is arranged between the transport vehicle plate (2) and the transport box (4), and the buffer supporting component (8) is used for reducing the shaking of the transport box (4);

the buffer support assembly (8) comprises a rubber base plate (801), a clamping plate (802), a clamping groove (803), a connecting hole (804) and a support rubber rod (805);

the utility model discloses a rubber cushion, including rubber backing plate (801), buffering supporting component (8), buffering supporting component, rubber backing plate (801) upper surface has seted up block groove (803), rubber backing plate (801) lower surface is provided with block board (802), and inside block board (802) embedding block groove (803) of two adjacent rubber backing plates (801), buffering supporting component (8) are piled up by a plurality of rubber backing plate (801) stack and are formed, run through on rubber backing plate (801) and seted up a plurality of connecting hole (804), connecting hole (804) inside interlude has supported rubber pole (805), support rubber pole (805) bottom and transport vechicle board (2) fixed connection, support rubber pole (805) top and transport case (4) fixed connection.

4. The cryogenic sealed transport device for iodine wastewater transfer according to claim 1, characterized in that: the transport vehicle head (1) comprises a telescopic plate (101), a rotating head (102) and a traction handle (103);

one end of the telescopic plate (101) is hinged with a rotating head (102), the other end of the telescopic plate is connected with the transport vehicle plate (2), when the transport device is pulled to move, a gap exists between the telescopic plate (101) and the transport vehicle plate (2), and a pulling handle (103) is arranged on the rotating head (102).

5. The cryogenic sealed transport device for iodine wastewater transfer according to claim 4, wherein: one end, close to the transport vehicle plate (2), of the telescopic plate (101) is provided with a telescopic rod (104), one end of the telescopic rod (104) is provided with a limiting rod (105), and the diameter of the limiting rod (105) is larger than that of the telescopic rod (104);

the transport vehicle plate (2) comprises a telescopic hole (201) and a limiting hole (202);

the telescopic hole (201) corresponds to the position of the telescopic rod (104), the telescopic rod (104) slides in the telescopic hole (201), one end of the telescopic hole (201) is provided with a limit hole (202), the diameter of the limit hole (202) is larger than that of the telescopic hole (201), the diameter of the telescopic hole (201) is equal to that of the telescopic rod (104), the diameter of the limit hole (202) is equal to that of the limit rod (105), and when the transportation device moves, the clearance distance between the telescopic plate (101) and the transportation vehicle plate (2) is equal to the length of the telescopic rod (105).

6. The cryogenic sealed transport device for iodine wastewater transfer according to claim 5, wherein: clearance department between expansion plate (101) and transport vechicle board (2) is provided with brake actuating mechanism (9), transport vechicle board (2) bottom is provided with brake subassembly (10), be connected through gas transmission hose (11) between brake actuating mechanism (9) and the brake subassembly (10).

7. The cryogenic sealed transport device for iodine wastewater transfer according to claim 6, wherein: the brake driving mechanism (9) comprises a fixed sleeve (901), a first corrugated pipe (902) and an extrusion sleeve rod (903);

the fixed sleeve (901) is arranged at one end, close to the transport vehicle plate (2), of the telescopic plate (101), a first corrugated pipe (902) is arranged inside the fixed sleeve (901), an extrusion sleeve rod (903) is arranged at one end, close to the telescopic plate (101), of the transport vehicle plate (2), and one end of the extrusion sleeve rod (903) is located inside the fixed sleeve (901).

8. The cryogenic sealed transport device for iodine wastewater transfer according to claim 7, wherein: the brake assembly (10) comprises a brake sleeve (1001), a second corrugated pipe (1002), a brake sleeve rod (1003) and a brake plate (1004);

transport vechicle board (2) bottom is provided with brake sleeve pipe (1001), brake sleeve pipe (1001) inside is provided with second bellows (1002), the inside slip of brake sleeve pipe (1001) is provided with brake loop bar (1003), be connected through gas transmission hose (11) between first bellows (902) and the second bellows (1002), brake loop bar (1003) one end articulates there is brake block (1004), the laminating of brake block (1004) bottom has the rubber slab.

9. The cryogenic sealed transport device for iodine wastewater transfer according to claim 8, wherein: and two ends of the brake plate (1004) are in an upturned arc shape.

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