CN111820181A - Vehicle-mounted aquatic product transportation and carrying equipment - Google Patents

Abstract

The invention discloses vehicle-mounted aquatic product transportation and carrying equipment which comprises a shell, wherein a shell cavity with a front opening and a rear opening is arranged in the shell, the shell cavity is internally provided with two extending sliding grooves, the two extending sliding grooves are bilaterally symmetrical, a sliding rail sliding block can push a water tank out of a carriage in cooperation with a connecting rod, then the water tank descends at a constant speed through the speed limit of a motor, after the water tank is loaded, the water tank is lifted through the cooperation of the motor and a pull rope, then the water tank is retracted into the carriage, the upper end of the water tank is sealed and inserted with an oxygen pipe, so that oxygen is added into the water tank, a cooler is arranged at the lower side of the water tank, the water tank can be cooled, the water tank is kept at an optimum temperature, and a damping device is used for buffering in the transportation process.

Description

Vehicle-mounted aquatic product transportation and carrying equipment

Technical Field

The invention relates to the field of vehicle-mounted electronic equipment, in particular to vehicle-mounted aquatic product transportation and carrying equipment.

Background

On-vehicle electron is used for increasing functional electronic system of car and product on the car, and traditional small-scale aquatic products transportation is mostly minibus or truckle, will be equipped with the water tank loading of aquatic products, transports, but because oxygen in weather temperature and the water tank can reduce fast along with time to cause aquatic products dead, and the water tank of filling water is heavier, and manpower transport is more wasted time and energy.

Disclosure of Invention

The invention aims to provide vehicle-mounted aquatic product transportation and carrying equipment, which overcomes the problems that aquatic products die due to the fact that weather temperature and oxygen in a water tank are rapidly reduced along with time, the water tank filled with water is heavy, time and labor are wasted in manual carrying, and the like.

The invention is realized by the following technical scheme.

The invention relates to vehicle-mounted aquatic product transportation and carrying equipment which comprises a shell, wherein a shell cavity with a front opening and a rear opening is arranged in the shell, a warehouse-out loading device is arranged in the shell cavity and comprises two extending sliding grooves which are bilaterally symmetrical, the two extending sliding grooves are respectively arranged in the left side wall and the right side wall of the shell cavity, extending sliding blocks are arranged in the extending sliding grooves in a sliding manner, one end, close to the shell cavity, of each extending sliding block is fixedly provided with an extending connecting rod, the upper end of the left extending connecting rod is fixedly provided with a lifting motor, the right end of the lifting motor is rotatably provided with a lifting motor shaft, the lifting motor shaft is fixedly provided with a lifting brake wheel, the lifting brake wheel is provided with a clamping groove, the opening of the clamping groove is upward, the clamping groove penetrates through the left end surface and, the lifting winding wheel is fixedly arranged on a shaft of the lifting motor, a traction rope is wound on the lifting winding wheel, a lifting plate is fixedly arranged at the lower end of the extending connecting rod, a front lifting chute and a rear lifting chute are arranged in the lifting plate, the two lifting chutes are symmetrical front and back, lifting slide blocks are arranged in the lifting chutes in a sliding manner, a water production box is arranged between the two left lifting slide blocks and the right lifting slide blocks, the water production box is fixedly connected with the lifting slide blocks through the lifting connecting rods, and a water production box cavity with an upward opening is arranged in the water production box; the upper side of the warehouse-out loading device is provided with a top cover oxygen supply device, the top cover oxygen supply device comprises two cover plate electromagnets, the two cover plate electromagnets are bilaterally symmetrical, the two cover plate electromagnets are fixedly arranged on the inner wall of the upper side of the shell cavity, two cover plate through holes are arranged on the lower side of the cover plate electromagnets, the two cover plate through holes are bilaterally symmetrical, the two cover plate through holes penetrate through the upper end surface and the lower end surface, the upper side is provided with two winding shafts, the two winding shafts are bilaterally symmetrical, the winding shafts are rotatably arranged on the inner wall of the rear side of the shell cavity, winding wheels are fixedly arranged on the winding shafts, oxygen pipes are wound on the winding wheels, the lower ends of the oxygen pipes penetrate through the cover plate through holes, and; the lower side of the warehouse-out loading device is provided with a shock absorption and temperature reduction device, the shock absorption and temperature reduction device comprises a shock absorption cavity, the shock absorption cavity is arranged in the lower side wall of the shell cavity, the opening of the shock absorption cavity faces upwards, a lower pressing plate is arranged in the shock absorption cavity in a sliding manner, a refrigeration plate is embedded in the lower pressing plate, a shock absorption sliding chute is arranged on the lower side of the lower pressing plate, the shock absorption sliding chute is arranged in a sliding manner, a shock absorption connecting block is fixedly arranged at the front end of the shock absorption connecting block, a shock absorption rotating shaft is fixedly arranged at the front end of the shock absorption connecting block, an auxiliary rotating rod is rotatably arranged on the shock absorption rotating shaft, an auxiliary rod upper end wheel shaft is rotatably arranged at the right end of the auxiliary rotating rod, an auxiliary rod upper end wheel shaft is fixedly arranged on the auxiliary rod upper end, the main rotating rod is rotatably arranged on the damping rotating shaft, the right end of the main rotating rod is rotatably provided with a main rod lower end wheel shaft, a main rod lower end rotating wheel is fixedly arranged on the main rod lower end wheel shaft, a main rod upper end wheel shaft is rotatably arranged at the left end of the main rotating rod, a main rod upper end rotating wheel is fixedly arranged on the main rod upper end wheel shaft, the main rotating rod is connected with the auxiliary rotating rod through two damping springs, and the two damping springs are bilaterally symmetrical; preferably, the lifter plate downside is equipped with the spacing groove, the spacing groove opening up, the lifter plate slides and sets up the spacing inslot, it drives to stretch out the connecting rod the lifter plate motion, the lifter plate quilt the spacing groove restriction, the front and back direction that the lifter plate can be stable slides.

Preferably, the fixed gag lever post base that is equipped with in elevator motor upper end, it is equipped with the gag lever post pivot to rotate on the gag lever post base, the fixed gag lever post that is equipped with in the gag lever post pivot, the gag lever post downside is equipped with spacing electro-magnet, spacing electro-magnet is fixed to be set up the elevator motor upper end, spacing electro-magnet with connect through gag lever post reset spring between the gag lever post, spacing electro-magnet circular telegram can attract the gag lever post, when the gag lever post downstream arrives the downside most, the gag lever post card is gone into in the draw-in groove, thereby the restriction the lift braked wheel rotates, thereby the restriction the elevator motor shaft with the lift coiling wheel rotates.

Preferably, the lower end of the traction rope is fixedly connected with the lifting connecting rod on the left rear side, when the lifting motor drives the lifting motor shaft to rotate in the forward direction, the lifting motor shaft drives the lifting winding wheel to rotate in the forward direction, the lifting winding wheel winds the traction rope, the traction rope upwards pulls the lifting connecting rod, and the lifting connecting rod drives the aquatic product box to move upwards.

Preferably, after the aquatic product box is conveyed to the upper side of the lower pressing plate, the lifting motor drives the lifting motor shaft to rotate reversely, the traction rope on the lifting motor shaft is slowly lengthened, and the aquatic product box drives the lifting connecting rod to slowly descend due to gravitational potential energy until the aquatic product box falls on the lower pressing plate.

Preferably, a stretching motor is arranged in the stretching sliding groove on the left side, the stretching motor is fixedly arranged on the inner wall of the rear side of the stretching sliding groove, a stretching actuating shaft is rotatably arranged at the front end of the stretching motor and penetrates through the stretching sliding block on the left side, and the stretching actuating shaft and the stretching sliding block on the left side are in meshing transmission through threads.

The invention has the beneficial effects that: the water tank is pushed out of the carriage by the aid of the sliding rail sliding blocks working in cooperation with the connecting rods, then the water tank descends at a constant speed due to speed limitation of the motor, after goods are loaded, the water tank is lifted by the aid of the motor and the inhaul cable working in cooperation, the water tank is retracted into the carriage, the upper end of the water tank is covered and the oxygen pipe is inserted, so that oxygen is added into the water tank, the water tank is cooled by the aid of the cooler arranged on the lower side of the water tank, the water tank is maintained at an optimum temperature, and the water tank is buffered by the aid of the damping device during transportation, so that aquatic products are prevented.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic view in the direction A-A of FIG. 1 according to an embodiment of the present invention;

FIG. 3 is an enlarged schematic view of the embodiment of the present invention at B in FIG. 1;

FIG. 4 is an enlarged schematic view at C of FIG. 1 according to an embodiment of the present invention;

FIG. 5 is a schematic view of the embodiment of the present invention in the direction D-D in FIG. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The vehicle-mounted aquatic product transportation and carrying equipment disclosed by the accompanying drawings 1-5 comprises a shell 10, wherein a shell cavity 11 with a front opening and a rear opening is arranged in the shell 10, a warehouse-out loading device 71 is arranged in the shell cavity 11, the warehouse-out loading device 71 comprises two extending sliding grooves 12, the two extending sliding grooves 12 are bilaterally symmetrical, the two extending sliding grooves 12 are respectively arranged in the left side wall and the right side wall of the shell cavity 11, extending sliding blocks 13 are arranged in the extending sliding grooves 12 in a sliding manner, the extending sliding blocks 13 are close to one ends of the shell cavity 11 and fixedly provided with extending connecting rods 15, a lifting motor 32 is fixedly arranged at the upper ends of the extending connecting rods 15 at the left side, a lifting motor shaft 33 is rotatably arranged at the right end of the lifting motor 32, a lifting brake wheel 35 is fixedly arranged on the lifting motor shaft 33, a, the clamping groove 36 penetrates through the left end face and the right end face of the lifting brake wheel 35, a lifting winding wheel 34 is arranged on the right side of the lifting brake wheel 35, the lifting winding wheel 34 is fixedly arranged on the lifting motor shaft 33, a traction rope 37 is wound on the lifting winding wheel 34, a lifting plate 16 is fixedly arranged at the lower end of the extending connecting rod 15, a front lifting sliding groove 17 and a rear lifting sliding groove 17 are formed in the lifting plate 16, the two lifting sliding grooves 17 are symmetrical front and back, a lifting sliding block 18 is arranged in the lifting sliding groove 17 in a sliding mode, a water production tank 43 is arranged between the two left lifting sliding blocks 18 and the right lifting sliding blocks 18, the water production tank 43 is fixedly connected with the lifting sliding block 18 through a lifting connecting rod 19, and a water production tank cavity 44 with; the top cover oxygen supply device 72 is arranged on the upper side of the delivery and loading device 71, the top cover oxygen supply device 72 comprises two cover plate electromagnets 21, the two cover plate electromagnets 21 are bilaterally symmetrical, the two cover plate electromagnets 21 are fixedly arranged on the inner wall of the upper side of the shell cavity 11, the lower side of the cover plate electromagnet 21 is provided with a cover plate 63, two cover plate through holes 28 are arranged in the cover plate 63, the two cover plate through holes 28 are symmetrical left and right, the two cover plate through holes 28 penetrate through the upper end surface and the lower end surface of the cover plate 63, two winding shafts 25 are arranged on the upper side of the drum 63, the two winding shafts 25 are symmetrical left and right, the winding shafts 25 are rotatably arranged on the inner wall of the rear side of the housing cavity 11, a winding wheel 24 is fixedly arranged on the winding shaft 25, an oxygen pipe 23 is wound on the winding wheel 24, the lower end of the oxygen pipe 23 penetrates through the cover plate through hole 28, and an oxygen head 29 is fixedly arranged at the lower end of the oxygen pipe 23; the lower side of the warehouse-out loading device 71 is provided with a damping and temperature-reducing device 73, the damping and temperature-reducing device 73 comprises a damping cavity 45, the damping cavity 45 is arranged in the lower side wall of the shell cavity 11, the opening of the damping cavity 45 faces upwards, a lower pressure plate 46 is slidably arranged in the damping cavity 45, a refrigerating plate 47 is embedded in the lower pressure plate 46, a damping chute 48 is arranged on the lower side of the lower pressure plate 46, a damping 62 is slidably arranged in the damping chute 48, a damping connecting block 49 is fixedly arranged at the front end of the damping 62, a damping rotating shaft 50 is fixedly arranged at the front end of the damping connecting block 49, an auxiliary rotating rod 56 is rotatably arranged on the damping rotating shaft 50, an auxiliary rod upper end wheel shaft 59 is rotatably arranged at the right end of the auxiliary rotating rod 56, an auxiliary rod upper end rotating wheel 60 is fixedly arranged on the auxiliary rod upper end wheel shaft 59, an auxiliary rod lower end wheel shaft 57 is, a main rotating rod 51 is arranged on the front side of the auxiliary rotating rod 56, the main rotating rod 51 is rotatably arranged on the damping rotating shaft 50, a main rod lower end wheel shaft 52 is rotatably arranged at the right end of the main rotating rod 51, a main rod lower end rotating wheel 53 is fixedly arranged on the main rod lower end wheel shaft 52, a main rod upper end wheel shaft 54 is rotatably arranged at the left end of the main rotating rod 51, a main rod upper end rotating wheel 55 is fixedly arranged on the main rod upper end wheel shaft 54, the main rotating rod 51 is connected with the auxiliary rotating rod 56 through two damping springs 61, and the two damping springs 61 are bilaterally symmetrical; beneficially, the lower side of the lifting plate 16 is provided with a limiting groove 20, the limiting groove 20 is opened upwards, the lifting plate 16 is slidably disposed in the limiting groove 20, the protruding connecting rod 15 drives the lifting plate 16 to move, the lifting plate 16 is limited by the limiting groove 20, and the lifting plate 16 can stably slide in the front-back direction.

Beneficially, the fixed gag lever post base 38 that is equipped with in elevator motor 32 upper end, it is equipped with gag lever post pivot 39 to rotate on the gag lever post base 38, the fixed gag lever post 40 that is equipped with on the gag lever post pivot 39, gag lever post 40 downside is equipped with spacing electro-magnet 41, spacing electro-magnet 41 is fixed to be set up elevator motor 32 upper end, spacing electro-magnet 41 with connect through gag lever post reset spring 42 between the gag lever post 40, spacing electro-magnet 41 circular telegram can attract gag lever post 40, when gag lever post 40 downstream was to the downside, gag lever post 40 card is gone into in draw-in groove 36, thereby the restriction elevator braked wheel 35 rotates, thereby the restriction elevator motor shaft 33 with the elevator is convoluteed wheel 34 and is rotated.

Advantageously, the lower end of the pulling rope 37 is fixedly connected to the left rear lifting connecting rod 19, when the lifting motor 32 drives the lifting motor shaft 33 to rotate in the forward direction, the lifting motor shaft 33 drives the lifting winding wheel 34 to rotate in the forward direction, the lifting winding wheel 34 winds the pulling rope 37, the pulling rope 37 pulls the lifting connecting rod 19 upward, and the lifting connecting rod 19 drives the aquatic tank 43 to move upward.

Advantageously, after the water production tank 43 is conveyed to the upper side of the lower pressing plate 46, the lifting motor 32 drives the lifting motor shaft 33 to rotate reversely, the traction rope 37 on the lifting motor shaft 33 is slowly lengthened, and the water production tank 43 drives the lifting connecting rod 19 to slowly descend due to gravitational potential energy until the water production tank 43 falls on the lower pressing plate 46.

Advantageously, a stretching motor 30 is arranged in the stretching chute 12 on the left side, the stretching motor 30 is fixedly arranged on the inner wall of the rear side of the stretching chute 12, a stretching actuating shaft 14 is rotatably arranged at the front end of the stretching motor 30, the stretching actuating shaft 14 penetrates through the stretching sliding block 13 on the left side, and the stretching actuating shaft 14 and the stretching sliding block 13 on the left side are in threaded engagement transmission.

In the initial state, the cover plate electromagnet 21 is electrified, the cover plate spring 22 is in a compressed state, the limiting rotating shaft 27 does not work, the refrigeration plate 47 does not work, the extension motor 30 does not work, the limiting electromagnet 41 is not electrified, the lifting motor 32 does not work, the limiting rod reset spring 42 is in a normal state, and the damping spring 61 is in a normal state.

When water and production are required to be filled in the water and production tank 43, the extending motor 30 starts to work, the extending motor 30 drives the extending actuating shaft 14 to rotate in the forward direction, the extending actuating shaft 14 and the left extending sliding block 13 are in meshing transmission through threads, the left extending sliding block 13 slides forwards, the extending sliding block 13 drives the extending connecting rod 15 to move forwards, the extending connecting rod 15 drives the lifting plate 16 to move forwards, the lifting plate 16 slides forwards in the limiting groove 20, the lifting plate 16 drives the lifting connecting rod 19 to move forwards, and the lifting connecting rod 19 drives the aquatic product tank 43 to move forwards until the water and production tank 43 is completely positioned on the front side of the shell cavity 11; at the moment, the lifting motor 32 starts to work, the lifting motor 32 drives the lifting motor shaft 33 to rotate reversely, the lifting motor shaft 33 drives the lifting winding wheel 34 to rotate reversely, the traction rope 37 on the lifting winding wheel 34 is lengthened, the aquatic product box 43 has gravitational potential energy, the aquatic product box 43 drives the lifting connecting rod 19 to slide downwards, the lifting connecting rod 19 slowly slides downwards at a constant speed due to the traction of the traction rope 37, so that the aquatic product box 43 slowly moves downwards at a constant speed until the aquatic product box 43 falls to the ground, then the aquatic product box cavity 44 is filled with aquatic product, after the aquatic product box is filled with aquatic product, the lifting motor 32 starts to work, the lifting motor 32 drives the lifting motor shaft 33 to rotate forwards, the lifting winding wheel 34 drives the lifting winding wheel 34 to rotate forwards, the lifting winding wheel 34 winds the traction rope 37, the traction rope 37 shortens, the traction rope 37 pulls the lifting connecting rod 19 to slide upwards, and the lifting connecting rod 19 drives the, until the aquatic product box 43 moves to the uppermost side, the limiting electromagnet 41 generates attraction force at the moment, the limiting electromagnet 41 attracts the limiting rod 40, the limiting rod 40 rotates clockwise around the limiting rod rotating shaft 39 until the limiting rod 40 is clamped in the clamping groove 36, the clamping groove 36 cannot rotate circumferentially at the moment, so that the lifting winding wheel 34 cannot rotate circumferentially, the extension motor 30 drives the extension actuating shaft 14 to rotate reversely, the extension actuating shaft 14 drives the left extension sliding block 13 to move backwards, the extension sliding block 13 drives the extension connecting rod 15 to move backwards until the aquatic product box returns to the original position, and the aquatic product box 43 returns to the shell cavity 11; when the aquatic product box 43 is positioned on the upper side of the lower pressing plate 46, the power of the limiting electromagnet 41 is cut off to lose the attraction force, the aquatic product box 43 naturally falls in a short distance, the aquatic product box 43 falls on the lower pressing plate 46, and then the cover plate electromagnet 21 is cut off to lose the attraction force. Because the cover plate spring 22 has elastic potential energy, the cover plate spring 22 pushes the cover plate springs 63 and 63 downwards until the cover plate springs 63 are tightly attached to the upper end of the water production tank 43, meanwhile, the limiting rotating shaft 27 starts to work, the limiting rotating shaft 27 drives the limiting wheel 26 to rotate, the limiting wheel 26 drives the oxygen pipe 23 to move downwards through friction transmission, the oxygen pipe 23 moves downwards through the cover plate through hole 28, the oxygen pipe 23 drives the oxygen head 29 to move downwards until the oxygen head 29 is positioned in the water production tank cavity 44 and is close to the inner wall of the lower side of the water production tank cavity 44, then the oxygen pipe 23 conducts oxygen, and the oxygen is dispersed into water through the oxygen head 29; in order to avoid the situation that aquatic products die due to bumping in the transportation process, a damping buffer facility is arranged on the lower side of the lower pressing plate 46, when the aquatic product tank 43 has downward pressure, the aquatic product tank 43 pushes the lower pressing plate 46 downwards, the lower pressing plate 46 slides downwards, the lower pressing plate 46 pushes the main rod upper end rotating wheel 55 and the auxiliary rod upper end rotating wheel 60 downwards, the main rod upper end rotating wheel 55 and the auxiliary rod upper end rotating wheel 60 move away from each other, the main rod upper end rotating wheel 55 drives the main rod upper end wheel shaft 54 to move downwards, the auxiliary rod upper end rotating wheel 60 drives the auxiliary rod upper end wheel shaft 59 to move downwards, the damping spring 61 is compressed, the main rotating rod 51 and the auxiliary rotating rod 56 drive the damping rotating shaft 50 to move downwards, the damping rotating shaft 50 drives the damping connecting block 49 to slide downwards, when the downward pressure on the lower pressing plate 46 is lost, the damping spring 61 has, the damping spring 61 pushes the right side of the damping spring 61 to move upwards until the damping spring returns to the original position, and in the whole process, the stress generated by bumping is converted into the elastic potential energy on the damping spring 61, so that the impact force caused by bumping is buffered, and the injury of aquatic products is reduced.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides an on-vehicle aquatic products transportation haulage equipment, includes the shell, its characterized in that: the device comprises a shell, a front shell cavity and a rear shell cavity which are opened, a warehouse-out loading device is arranged in the shell cavity, the warehouse-out loading device comprises two extending sliding chutes which are bilaterally symmetrical, the two extending sliding chutes are respectively arranged in the left side wall and the right side wall of the shell cavity, extending sliding blocks are arranged in the extending sliding chutes in a sliding manner, the extending sliding blocks are fixedly arranged near one end of the shell cavity, an extending connecting rod is fixedly arranged at the upper end of the left extending connecting rod, a lifting motor shaft is arranged at the right end of the lifting motor in a rotating manner, a lifting brake wheel is fixedly arranged on the lifting motor shaft, a clamping groove is arranged on the lifting brake wheel, the opening of the clamping groove is upward, the clamping groove penetrates through the, a traction rope is wound on the lifting winding wheel, a lifting plate is fixedly arranged at the lower end of the extending connecting rod, a front lifting chute and a rear lifting chute are arranged in the lifting plate, the two lifting chutes are symmetrical front and back, lifting sliders are arranged in the lifting chutes in a sliding manner, a water production box is arranged between the two left lifting sliders and the right lifting slider, the water production box is fixedly connected with the lifting sliders through the lifting connecting rod, and a water production box cavity with an upward opening is arranged in the water production box; the upper side of the warehouse-out loading device is provided with a top cover oxygen supply device, the top cover oxygen supply device comprises two cover plate electromagnets, the two cover plate electromagnets are bilaterally symmetrical, the two cover plate electromagnets are fixedly arranged on the inner wall of the upper side of the shell cavity, two cover plate through holes are arranged on the lower side of the cover plate electromagnets, the two cover plate through holes are bilaterally symmetrical, the two cover plate through holes penetrate through the upper end surface and the lower end surface, the upper side is provided with two winding shafts, the two winding shafts are bilaterally symmetrical, the winding shafts are rotatably arranged on the inner wall of the rear side of the shell cavity, winding wheels are fixedly arranged on the winding shafts, oxygen pipes are wound on the winding wheels, the lower ends of the oxygen pipes penetrate through the cover plate through holes, and; the lower side of the warehouse-out loading device is provided with a shock absorption and temperature reduction device, the shock absorption and temperature reduction device comprises a shock absorption cavity, the shock absorption cavity is arranged in the lower side wall of the shell cavity, the opening of the shock absorption cavity faces upwards, a lower pressing plate is arranged in the shock absorption cavity in a sliding manner, a refrigeration plate is embedded in the lower pressing plate, a shock absorption sliding chute is arranged on the lower side of the lower pressing plate, the shock absorption sliding chute is arranged in a sliding manner, a shock absorption connecting block is fixedly arranged at the front end of the shock absorption connecting block, a shock absorption rotating shaft is fixedly arranged at the front end of the shock absorption connecting block, an auxiliary rotating rod is rotatably arranged on the shock absorption rotating shaft, an auxiliary rod upper end wheel shaft is rotatably arranged at the right end of the auxiliary rotating rod, an auxiliary rod upper end wheel shaft is fixedly arranged on the auxiliary rod upper end, the main dwang rotates to set up in the shock attenuation pivot, main dwang right-hand member rotates and is equipped with mobile jib lower extreme shaft, mobile jib lower extreme shaft is epaxial to be fixed and is equipped with mobile jib lower extreme runner, the main dwang left end rotates and is equipped with mobile jib upper end shaft, mobile jib upper end shaft is epaxial to be fixed and is equipped with mobile jib upper end runner, the main dwang with connect, two through two damping spring between the vice dwang damping spring bilateral symmetry.

2. The vehicle-mounted aquatic product transportation and handling device of claim 1, wherein: the lifter plate downside is equipped with the spacing groove, the spacing groove opening up, the lifter plate slides and sets up the spacing inslot, it drives to stretch out the connecting rod the lifter plate motion, the lifter plate by the spacing groove restriction, the fore-and-aft direction that the lifter plate can be stable slides.

3. The vehicle-mounted aquatic product transportation and handling device of claim 1, wherein: the lifting motor is characterized in that a limiting rod base is fixedly arranged at the upper end of the lifting motor, a limiting rod rotating shaft is arranged on the limiting rod base in a rotating mode, a limiting rod is fixedly arranged on the limiting rod rotating shaft, a limiting electromagnet is arranged on the lower side of the limiting rod and fixedly arranged on the upper end of the lifting motor, the limiting electromagnet is connected with the limiting rod through a limiting rod reset spring, the limiting electromagnet is electrified to attract the limiting rod, the limiting rod moves downwards to the lowest side, the limiting rod is clamped into the clamping groove, and therefore the lifting brake wheel rotates and limits the lifting motor shaft and the lifting winding wheel to rotate.

4. The vehicle-mounted aquatic product transportation and handling device of claim 3, wherein: the lower end of the traction rope is fixedly connected with the lifting connecting rod on the left rear side, when the lifting motor drives the lifting motor shaft to rotate in the forward direction, the lifting motor shaft drives the lifting winding wheel to rotate in the forward direction, the lifting winding wheel winds the traction rope, the traction rope upwards pulls the lifting connecting rod, and the lifting connecting rod drives the aquatic product box to move upwards.

5. The vehicle-mounted aquatic product transportation and handling device of claim 4, wherein: after the aquatic product box is conveyed to the upper side of the lower pressing plate, the lifting motor drives the lifting motor shaft to rotate reversely, the traction rope on the lifting motor shaft is slowly lengthened, and the aquatic product box drives the lifting connecting rod to slowly descend until the aquatic product box falls on the lower pressing plate due to gravitational potential energy.

6. The vehicle-mounted aquatic product transportation and handling device of claim 1, wherein: the left side is equipped with in the spout that stretches out and stretches out the motor, stretch out the motor fixed set up stretch out on the spout rear side inner wall, it is equipped with to stretch out the motor front end and stretches out the actuating shaft, stretch out the actuating shaft and run through the left side stretch out the slider, stretch out actuating shaft and left side stretch out through the thread engagement transmission between the slider.

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