CN109179205B - Method for improving logistics transportation efficiency - Google Patents

Abstract

The invention belongs to the technical field of cargo transportation, and particularly relates to a method for improving logistics transportation efficiency; the method comprises the following steps: sorting the goods, improving the purity of the goods, and removing moisture, impurities and substances irrelevant to the use of the goods; the goods are packaged in a light, simplified and practical way, and the packaged goods are put into a container; placing the container on or other parts, and conveying the container to the door opening of the intelligent logistics container by using a forklift; the intelligent logistics container automatically carries and places containers; closing the intelligent logistics container, and putting the intelligent logistics container on a truck through a crane and transporting the intelligent logistics container to a destination; according to the invention, the goods are sorted, so that the goods purity is improved and the goods transportation efficiency is improved; the cargo transportation efficiency is improved by lightening, simplifying and practically packaging the cargo; through using intelligent logistics container automatic handling and putting the packing box and improve freight efficiency, practice thrift and reduce the freight total time.

Description

Method for improving logistics transportation efficiency

Technical Field

The invention belongs to the technical field of cargo transportation, and particularly relates to a method for improving logistics transportation efficiency.

Background

The common goods transportation is realized by loading goods by a truck, the truck usually adopts a box type, a flat plate or a container and the like to load the goods, and the truck type has a direct connection type or a trailer type; the goods van runs to a proper position of the goods, the goods are loaded on the goods van through manpower or hoisting machinery, then the goods van runs to a destination, and the goods are unloaded through the manpower or the hoisting machinery; usually in order to improve cargo handling's efficiency, generally adopt the container to transport the goods, the container has certain intensity, rigidity and specification and specially supplies the large-scale shipment container that the turnover was used, nevertheless there is a problem in traditional container transportation, traditional container is mostly the integral, only is provided with the switch door of a loading and unloading goods at the rear portion of container, because of the container is bulky, very inconvenient when the loading and unloading goods, waste time and energy when loading and unloading moreover, handling efficiency is lower.

Meanwhile, before the goods are packed, the small parts are packed by using a packing box or a packing box, and then the packing box or the packing box is carried into the container, so that in the process, if the goods are relatively broken and are not arranged, the occupied space is relatively large, the goods can be transported repeatedly by the truck, and the goods transportation efficiency is seriously influenced.

Disclosure of Invention

In order to make up for the defects of the prior art, the invention provides a method for improving the logistics transportation efficiency, and aims to improve the cargo transportation efficiency and save and reduce the total cargo transportation time. According to the invention, the goods are sorted, so that the goods purity is improved and the goods transportation efficiency is improved; the cargo transportation efficiency is improved by lightening, simplifying and practically packaging the cargo; through using intelligent logistics container automatic handling and putting the packing box and improve freight efficiency, practice thrift and reduce the freight total time.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a method for improving logistics transportation efficiency, which comprises the following steps:

the method comprises the following steps: the goods are sorted, the purity of the goods is improved, and substances irrelevant to the use of the goods in the goods are removed, so that the weight of the goods is reduced, the carrying times of the goods are reduced, and the transportation efficiency of the goods can be improved;

step two: after the purity of the goods is improved in the first step; the goods are packaged in a light, simplified and practical manner so as to reduce the time for packaging the goods and the space occupied by the goods packaging, and the packaged goods are put into a container;

step three: after the goods are loaded into the goods box in the second step, the goods box is placed on a sleeper or other liners, and the goods box is conveyed to the door opening of the intelligent logistics container by a forklift, wherein the sleeper and the other liners can facilitate the forklift to fork the goods box, so that the working efficiency of the forklift is improved;

step four: after the three-purpose forklift delivers the container to the door of the intelligent logistics container, the intelligent logistics container automatically carries and places the container; the intelligent logistics container automatically carries and places the container, so that the labor intensity is reduced, and the carrying efficiency of the container is improved;

step five: after the goods are loaded by the intelligent logistics container in the fourth step, closing the intelligent logistics container, and putting the intelligent logistics container on a truck by a crane and transporting the intelligent logistics container to a destination;

the intelligent logistics container in the third step to the fifth step comprises a container body, a motor I, a screw rod, a container, a sliding block, a controller and a sensor; the sliding block is connected with the upper end of the box body in a sliding manner; the first motor is fixed on the outer side of the box body and connected with the lead screw, and the first motor drives the sliding block to linearly slide on the box body through the lead screw; the controller is arranged beside the first motor and used for controlling the first motor to rotate; the sensors are uniformly distributed on the inner wall of the box body and used for detecting the position of the container and transmitting signals to the controller; the interior of the sliding block is hollow, and a second motor, an air extractor, a hollow shaft and a hollow metal hose are arranged in the sliding block; one end of the hollow metal hose is communicated with the end part of the hollow shaft, the other end of the hollow metal hose extends out of the sliding block and is a free end, a sucking disc is arranged at the free end of the hollow metal hose, and the hollow metal hose sucks the container through the sucking disc and lifts the container; the hollow shaft is connected with the second motor, and a layer of sponge cushion is sleeved on the hollow shaft; the spongy cushion is used for protecting the hollow metal hose and reducing the abrasion between the hollow metal hose and the hollow shaft; the second motor is fixed on the sliding block, the second motor winds the hollow metal hose through the hollow shaft to enable a container at the free end of the hollow metal hose to be lifted, and the rotation of the second motor is controlled by the controller; the air extractor is fixed at the side of the second motor and used for extracting gas in the hollow shaft to enable the sucker to more firmly suck the container; wherein the content of the first and second substances,

the air extracting device comprises a negative pressure pump, an air extracting pipe and an air guide sleeve, the negative pressure pump is fixed beside the second motor, and the negative pressure pump is communicated with the air guide sleeve through the air extracting pipe; the air guide sleeve is sleeved on the hollow shaft and is fixed with the inner wall of the sliding block, and the air guide sleeve is communicated with the hollow shaft through a first air vent arranged on the hollow shaft. When the device works, a container is conveyed to the opening of the container, the sensor detects the container, the sensor transmits a signal to the controller, the controller is a microcomputer, the controller controls the first motor to rotate, the first motor drives the sliding block to move to the position above the container through the lead screw, the second motor rotates under the control of the controller, the second motor drives the hollow metal hose to descend through the hollow shaft, so that a sucking disc on the metal hose is attached to the container, meanwhile, the negative pressure pump works, the negative pressure pump extracts gas in the hollow shaft through the exhaust pipe and the air guide sleeve, so that the hollow metal hose and the sucking disc generate negative pressure, the sucking disc sucks the container, the hollow shaft is rotated to roll up the hollow metal hose, the container is lifted up by the hollow metal hose, at the moment, the first motor drives the sliding block to slide through the lead screw to drive the hollow metal hose to move, the cargo is conveyed into the container, and the, and the negative pressure pump stops working, so that the air pressure in the suction disc is normal, the suction disc releases the container, and the intelligent transportation of the goods in the container is completed.

The sucker comprises a circular plate and a connector, the connector is hollow, the upper end of the connector is fixedly connected with the hollow metal hose, and the lower end of the connector is fixedly connected with the circular plate; the circular plate is used for adsorbing a container; the circular plate is a rubber plate, a through hole is formed in the circular plate, and the through hole is communicated with the hollow metal hose through the connector. During operation, the sucker is arranged to be a soft rubber plate, air tightness between the sucker and the container is guaranteed, the sucker can better adsorb the container, safety of carrying goods in the container is improved, and the container is prevented from falling off during carrying.

The upper end of packing box is provided with the plate seat, on the plate seat is detachable to be fixed in the packing box, the up end of plate seat and packing box up end parallel and level, plate seat and sucking disc adaptation, plate seat and sucking disc looks suction. During operation, the sucking disc adsorbs the base, because of the sucking disc and the base looks adaptation on the packing box for the sucking disc can be more firm adsorbs the packing box, has improved the security of carrying the goods in the packing box, prevents that the packing box from dropping and damaging the goods when the transport, has reduced the unnecessary loss.

The tray seat comprises a fixed seat, a rubber tray, a connecting pipe and an air inlet valve, the fixed seat is fixedly installed at the upper end of the container, a cavity is formed in the fixed seat, a second vent hole is formed in the bottom end of the fixed seat, and the second vent hole is communicated with the outside of the container; the rubber disc is in a shape of a protruding disc, the rubber disc is fixed in the cavity of the fixed seat, the protruding face of the rubber disc faces the inner side of the fixed seat, the upper end face of the rubber disc is flush with the upper end face of the fixed seat, and the lower end of the rubber disc is provided with a third air vent; the vent tee is communicated with the air inlet brake through a connecting pipe, and the length of the connecting pipe is more than or equal to the shortest distance between the upper end face of the fixed seat and the upper end face of the air inlet brake; the air inlet gate is positioned at the lower end of the rubber disc, the air inlet valve is fixed with the fixed seat, and the air inlet gate is used for closing or opening the connecting pipe; an air tap is arranged in the inner wall of the hollow metal hose or the inner wall of the hollow shaft, the air tap is a one-way rubber air tap, and the air tap can enable air to flow from the suction cup to the negative pressure pump but not from the negative pressure pump to the suction cup; the air pressure in the sucking disc is controlled through the air inlet valve, so that the negative pressure pump can keep negative pressure in the sucking disc without continuously working, the working time of the negative pressure pump is shortened, and the service life of the negative pressure pump is prolonged. The during operation, whether the connecting pipe communicates is controlled through opening or closing of admission valve for atmospheric pressure in rubber disk and the sucking disc receives admission valve control, opens the admission valve, and atmospheric pressure in rubber disk and the sucking disc will be held flat with atmospheric pressure, and the rubber disk will be released automatically to the sucking disc, and the sucking disc breaks away from with the packing box.

The air inlet valve comprises six rotor units, six first fixing pins, a barrel-shaped seat, a second fixing pin, a curved connecting rod, a rotating ring, a gear ring, a third motor and a first gear, the six rotor units are enclosed together to form a closed circle, the rotor units are hinged to the bottom end of the barrel-shaped seat through the first fixing pins, and the rotating units are tightly attached to the bottom end of the barrel-shaped seat; the rotating unit is hinged with the rotating ring through a curved connecting rod; the barrel-shaped seat is fixedly connected with the fixed seat, a circular slide way is arranged on the barrel-shaped seat and matched with the rotating ring, a gap is formed in the side wall of the barrel-shaped seat, six fixing pins II are arranged at the bottom end of the barrel-shaped seat, a vent hole IV is arranged at the bottom end of the barrel-shaped seat, and the diameter of the vent hole IV is smaller than the radius of a circle surrounded by the rotating sheet units; the rotating ring is sleeved in the circular slide way on the barrel-shaped seat, six arc grooves are formed in the rotating ring and are matched with the two fixing pins, the two fixing pins limit the radian of the rotating ring in rotation, and the rotating ring drives the rotating sheet unit to rotate by driving the curved connecting rod so as to enable the rotating sheet unit to open or close or seal the vent hole IV; the outer side of the gear ring is provided with teeth, the gear ring is sleeved on the outer wall of the barrel-shaped seat, the gear ring is fixedly connected with the rotating ring through a notch in the barrel-shaped seat, and the gear ring is used for driving the rotating ring to rotate; the motor III is located beside the gear ring, the motor III drives the gear ring to rotate through the gear I, and the motor III is controlled by the controller. When the air conditioner works, the controller controls the motor III to rotate, the motor III drives the gear ring to rotate through the gear I, the gear ring drives the rotating ring to slide on the barrel-shaped seat, and the rotating ring drives the rotating sheet unit to rotate through driving the curved connecting rod to enable the rotating sheet unit to open or close or seal the air vent IV; the air inlet valve controls the air pressure in the rubber disc and the sucker through the control air hole IV, so that the sucker can automatically release the container, and the intelligence of the intelligent logistics container is realized.

An extension spring is fixed on one surface of the bulge of the rubber disc; the other end of the extension spring is fixedly connected with the inner wall of the fixed seat, and the extension spring is used for fixing the rubber disc. When the container is in work, the rubber disc is sucked by the sucker, air in the rubber disc is pumped away by the negative pressure pump, negative pressure is generated between the sucker and the rubber disc, so that the rubber disc is attached to the surface of the sucker, the rubber disc is tensioned by the tensioning spring, the negative pressure between the sucker and the rubber disc is larger, the sucker is more firmly sucked by the rubber disc, the container is favorably sucked by the sucker, the strength of the container grabbed by the hollow metal hose is improved, the safety of carrying goods in the container is improved, the goods are prevented from being damaged due to falling of the container during carrying, and unnecessary loss is reduced; the rubber disc is tensioned by the tensioning spring, so that the negative pressure between the suction disc and the rubber disc is larger, the time for the negative pressure pump to pump gas in the suction disc and the rubber disc can be reduced, and the working efficiency of the intelligent logistics container is improved.

An iron block I is arranged at the bottom end of the rubber disc; the lower end face of the sucking disc is provided with an electromagnet, the electromagnet is used for attracting the first iron block, and the on-off state of the electromagnet is controlled by a controller. When the intelligent logistics container is in work, the controller controls the electromagnet to adsorb the first iron block, so that the surface of the rubber disc can be quickly attached to the sucker, and the gas in the rubber disc is partially extruded out when the negative pressure pump is not extracted, so that the extraction time of the negative pressure pump is saved, the rubber disc and the sucker can be quickly attached, the container adsorption speed of the sucker is increased, and the working efficiency of the intelligent logistics container is improved; simultaneously, at the in-process that the sucking disc removed to the packing box, the electro-magnet has the ability of attracting iron plate one for the sucking disc can be more the alignment packing box, and the sucking disc can be more the alignment disk seat, the sucking disc can be more the block with the rubber disc actuation, improved the speed that hollow metal collapsible tube was aligned and snatched the packing box, improved the work efficiency of intelligent logistics container.

The invention has the following beneficial effects:

1. according to the method for improving the logistics transportation efficiency, goods are sorted, and the goods transportation efficiency is improved by improving the goods purity; the cargo transportation efficiency is improved by lightening, simplifying and practically packaging the cargo; through using intelligent logistics container automatic handling and putting the packing box and improve freight efficiency, practice thrift and reduce the freight total time.

2. According to the method for improving the logistics transportation efficiency, the controller is intelligently controlled, the first motor drives the lead screw to enable the sliding block to slide on the box body, the hollow metal hose moves transversely along with the sliding block, and the second motor drives the hollow shaft to rotate to wind the hollow metal hose to enable goods to move in the vertical direction, so that the goods in the container are automatically transported and placed.

3. According to the method for improving the logistics transportation efficiency, the air tap is arranged on the inner wall of the hollow metal hose or the inner wall of the hollow shaft, so that the gas can flow to the negative pressure pump from the suction cup in a one-way mode, the air pressure in the suction cup is raised through the air inlet valve, the negative pressure pump can keep negative pressure in the suction cup without continuous work, the working time of the negative pressure pump is shortened, the service life of the negative pressure pump is prolonged, the service life of an intelligent logistics container is prolonged, and the maintenance frequency of the intelligent logistics container is reduced.

4. According to the method for improving the logistics transportation efficiency, the electromagnet and the first iron block are matched to work, so that the electromagnet has the capacity of attracting the first iron block in the process that the sucker moves towards the container, the sucker can accurately align the container more, the speed of accurately aligning the hollow metal hose and grabbing the container is improved, and the working efficiency of the intelligent logistics container is improved.

Drawings

FIG. 1 is a flow chart of a method of the present invention;

FIG. 2 is a schematic diagram of the intelligent logistics container structure of the present invention;

FIG. 3 is a schematic view of the connection of the air extractor of the present invention to a hollow shaft;

FIG. 4 is an enlarged view taken at A with respect to FIG. 2;

FIG. 5 is a schematic view of the intake valve structure of the present invention;

FIG. 6 is a schematic view of a swivel structure of the present invention;

in the figure: the air suction device comprises a box body 1, a first motor 11, a lead screw 12, a cargo box 13, a controller 14, a sensor 15, a slide block 2, a second motor 21, an air suction device 22, a negative pressure pump 221, an air guide sleeve 222, a hollow shaft 23, an air nozzle 231, a hollow metal hose 24, a suction cup 3, a circular plate 31, a tension spring 32, an electromagnet 33, a disk seat 4, a fixed seat 41, a second vent hole 411, a rubber disk 42, a first iron block 421, a connecting pipe 422, an air inlet brake 5, a rotary sheet unit 51, a barrel seat 52, a fourth vent hole 521, a curved connecting rod 53, a rotary ring 54, an arc groove 541, a gear ring 55 and a first gear.

Detailed Description

A method for improving cargo transportation efficiency according to an embodiment of the present invention will be described below with reference to fig. 1 to 6.

As shown in fig. 1, fig. 2 and fig. 3, the embodiment of the present invention is a method for improving logistics transportation efficiency, which includes the following steps:

the method comprises the following steps: the goods are sorted, the purity of the goods is improved, and substances irrelevant to the use of the goods in the goods are removed, so that the weight of the goods is reduced, the carrying times of the goods are reduced, and the transportation efficiency of the goods can be improved;

step two: after the purity of the goods is improved in the first step; the goods are packaged in a light, simplified and practical manner so as to reduce the time for packaging the goods and the space occupied by the goods packaging, and the packaged goods are put into the container 13;

step three: after the goods are loaded into the goods box 13 in the second step, the goods box 13 is placed on a sleeper or other liners, and the goods box 13 is conveyed to the door of the intelligent logistics container by using a forklift, wherein the sleeper and other liners can facilitate the forklift to fork the goods box 13, so that the working efficiency of the forklift is improved;

step four: after the container 13 is delivered to the door of the intelligent logistics container by the three-purpose forklift in the step, the intelligent logistics container is automatically carried and the container 13 is placed; the intelligent logistics container automatically carries and places the container 13, so that the labor intensity is reduced, and the carrying efficiency of the container 13 is improved;

step five: after the goods are loaded by the intelligent logistics container in the fourth step, closing the intelligent logistics container, and putting the intelligent logistics container on a truck by a crane and transporting the intelligent logistics container to a destination;

the intelligent logistics container in the third step to the fifth step comprises a container body 1, a motor I11, a screw 12, a container 13, a slide block 2, a controller 14 and a sensor 15; the sliding block 2 is connected with the upper end of the box body 1 in a sliding manner; the first motor 11 is fixed on the outer side of the box body 1, the first motor 11 is connected with the lead screw 12, and the first motor 11 drives the sliding block 2 to linearly slide on the box body 1 through the lead screw 12; the controller 14 is arranged beside the motor I11, and the controller 14 is used for controlling the motor I11 to rotate; the sensors 15 are arranged in plurality, the sensors 15 are uniformly distributed on the inner wall of the box body 1, and the sensors 15 are used for detecting the position of the cargo box 13 and transmitting signals to the controller 14; the interior of the sliding block 2 is hollow, and a second motor 21, an air extractor 22, a hollow shaft 23 and a hollow metal hose 24 are arranged in the sliding block 2; one end of the hollow metal hose 24 is communicated with the end part of the hollow shaft 23, the other end of the hollow metal hose 24 extends out of the slide block 2 and is a free end, the free end of the hollow metal hose 24 is provided with a suction cup 3, and the hollow metal hose 24 sucks the cargo box 13 through the suction cup 3 and lifts the cargo box 13; the hollow shaft 23 is connected with the second motor 21, and a layer of sponge mat is sleeved on the hollow shaft 23; the spongy cushion is used for protecting the hollow metal hose 24 and reducing the abrasion between the hollow metal hose 24 and the hollow shaft 23; the second motor 21 is fixed on the sliding block 2, the second motor 21 winds the hollow metal hose 24 through the hollow shaft 23 to enable the container 13 at the free end of the hollow metal hose 24 to be lifted, and the rotation of the second motor 21 is controlled by the controller 14; the air extractor 22 is fixed at the side of the second motor 21, and the air extractor 22 is used for extracting air in the hollow shaft 23 so that the container 13 can be more firmly sucked by the suction cup 3; wherein the content of the first and second substances,

as shown in fig. 2 and 3, the air extracting device 22 includes a negative pressure pump 221, an air extracting pipe and an air guiding sleeve 222, the negative pressure pump 221 is fixed at the side of the second motor 21, and the negative pressure pump 221 is communicated with the air guiding sleeve 222 through the air extracting pipe; the air guide sleeve 222 is sleeved on the hollow shaft 23, the air guide sleeve 222 is fixed with the inner wall of the slider 2, and the air guide sleeve 222 is communicated with the hollow shaft 23 through a first vent hole arranged on the hollow shaft 23. When the device works, the container 13 is conveyed to the opening of the container 1, the sensor 15 detects the container 13, the sensor 15 transmits a signal to the controller 14, the controller 14 is a microcomputer, the controller 14 controls the first motor 11 to rotate, the first motor 11 drives the slider 2 to move to the upper part of the container 1 through the screw 12, under the control of the controller 14, the second motor 21 rotates, the second motor 21 drives the hollow metal hose 24 to descend through the hollow shaft 23, so that the suction cup 3 on the metal hose is attached to the container 13, meanwhile, the negative pressure pump 221 works, the negative pressure pump 221 pumps air in the hollow shaft 23 through the air suction pipe and the air guide sleeve 222, so that the hollow metal hose 24 and the suction cup 3 generate negative pressure, the suction cup 3 sucks the container 13, the second motor 21 rotates so that the hollow shaft 23 rolls up the hollow metal hose 24, the hollow metal hose 24 lifts up the container 13, at this time, the first motor 11 drives the slider 2 to, the hollow metal hose 24 is driven to move, the goods are conveyed into the box body 1, the second motor 21 drives the hollow metal hose 24 to put down the goods through the hollow shaft 23, the negative pressure pump 221 stops working, the air pressure in the suction disc 3 is enabled to be normal, the container 13 is released by the suction disc 3, and intelligent conveying of the goods in the container 13 is completed.

As shown in fig. 4, the suction cup 3 includes a circular plate 31 and a connector, the connector is hollow, the upper end of the connector is fixedly connected with the hollow metal hose 24, and the lower end of the connector is fixedly connected with the circular plate 31; the circular plate 31 is used for adsorbing the container 13; the circular plate 31 is a rubber plate, and a through hole is formed in the circular plate 31 and is communicated with the hollow metal hose 24 through a connector. During operation, set up sucking disc 3 into the softer rubber slab of texture, guaranteed the gas tightness between sucking disc 3 and the packing box 13, can be so that sucking disc 3 better adsorbs packing box 13, improved the security of carrying the interior goods of packing box 13, prevent that packing box 13 from dropping when the transport.

As shown in fig. 2 and 4, a tray seat 4 is disposed at the upper end of the container 13, the tray seat 4 is detachably fixed on the container 13, the upper end surface of the tray seat 4 is flush with the upper end surface of the container 13, the tray seat 4 is adapted to the suction cup 3, and the tray seat 4 is attracted to the suction cup 3. During operation, the sucking disc 3 adsorbs the disc seat 4, and because of the sucking disc 3 and the disc seat 4 looks adaptation on the packing box 13 for the sucking disc 3 can be more firm adsorbs packing box 13, has improved the security of carrying the goods in the packing box 13, prevents that the packing box 13 from dropping and damaging the goods when carrying, has reduced the unnecessary loss.

As shown in fig. 2 and 4, the tray seat 4 includes a fixed seat 41, a rubber disc 42, a connecting pipe 422 and an air inlet valve 5, the fixed seat 41 is installed and fixed at the upper end of the cargo box 13, a cavity is arranged inside the fixed seat 41, a second vent hole 411 is arranged at the bottom end of the fixed seat 41, and the second vent hole 411 is communicated to the outside of the cargo box 13; the rubber disc 42 is in the shape of a protruding disc, the rubber disc 42 is fixed in the cavity of the fixed seat 41, the protruding face of the rubber disc 42 faces the inner side of the fixed seat 41, the upper end face of the rubber disc 42 is flush with the upper end face of the fixed seat 41, and the lower end of the rubber disc 42 is provided with a third vent hole 422; the third air vent 422 is communicated with the air inlet brake 5 through a connecting pipe 422, and the length of the connecting pipe 422 is more than or equal to the shortest distance between the upper end surface of the fixed seat 41 and the upper end surface of the air inlet brake 5; the air inlet valve 5 is positioned at the lower end of the rubber disc 42, the air inlet valve is fixed with the fixed seat 41, and the air inlet valve 5 is used for closing or opening the connecting pipe 422; an air nozzle 231 is arranged in the inner wall of the hollow metal hose 24 or the inner wall of the hollow shaft 23, the air nozzle 231 is a one-way rubber air nozzle 231, and the air nozzle 231 can enable air to flow from the suction cup 3 to the negative pressure pump 221 but not from the negative pressure pump 221 to the suction cup 3; the air pressure in the suction cup 3 is controlled by the air inlet valve, so that the negative pressure pump 221 can keep negative pressure in the suction cup 3 without continuously working, the working time of the negative pressure pump 221 is reduced, and the service life of the negative pressure pump 221 is prolonged. When the packing box is in work, whether the connecting pipe 422 is communicated or not is controlled by opening or closing the air inlet valve, so that the air pressure in the rubber disc 42 and the sucking disc 3 is controlled by the air inlet valve, the air inlet valve is opened, the air pressure in the rubber disc 42 and the sucking disc 3 is kept level with the atmospheric pressure, the sucking disc 3 automatically releases the rubber disc 42, and the sucking disc 3 is separated from the packing box 13.

As shown in fig. 2, 5 and 6, the intake valve includes a rotor unit 51, a first fixing pin, a barrel-shaped seat 52, a second fixing pin, a curved connecting rod 53, a rotating ring 54, a gear ring 55, a third motor and a first gear 46, six rotor units 51 are arranged on the rotor unit 51, the six rotor units 51 are enclosed together to form a closed circle, the rotor unit 51 is hinged to the bottom end of the barrel-shaped seat 52 through the first fixing pin, and the rotating unit is tightly attached to the bottom end of the barrel-shaped seat 52; the rotating unit is hinged with a rotating ring 54 through a curved connecting rod 53; the barrel-shaped seat 52 is fixedly connected with the fixed seat 41, a circular slide way is arranged on the barrel-shaped seat 52 and matched with the rotating ring 54, a gap is formed in the side wall of the barrel-shaped seat 52, six fixing pins II are arranged at the bottom end of the barrel-shaped seat 52, a vent hole four 521 is arranged at the bottom end of the barrel-shaped seat 52, and the diameter of the vent hole four 521 is smaller than the radius of a circle formed by the rotating sheet unit 51 in a surrounding mode; the rotating ring 54 is sleeved in the circular slideway on the barrel-shaped seat 52, six circular arc grooves 541 are respectively arranged on the rotating ring 54, the circular arc grooves 541 are matched with the two fixing pins, the two fixing pins limit the rotating radian of the rotating ring 54, and the rotating ring 54 drives the rotating sheet unit 51 to rotate by driving the curved connecting rod 53 so as to enable the rotating sheet unit 51 to open or close the vent hole four 521; the outer side of the gear ring 55 is provided with teeth, the gear ring 55 is sleeved on the outer wall of the barrel-shaped seat 52, the gear ring 55 is fixedly connected with the rotating ring 54 through a notch on the barrel-shaped seat 52, and the gear ring 55 is used for driving the rotating ring 54 to rotate; the motor III is located beside the gear ring 55, the motor III drives the gear ring 55 to rotate through the gear I46, and the motor III is controlled by the controller 14. During operation, the controller 14 controls the motor III to rotate, the motor III drives the gear ring 55 to rotate through the gear I46, the gear ring 55 drives the rotating ring 54 to slide on the barrel-shaped seat 52, and the rotating ring 54 drives the rotating sheet unit 51 to rotate through driving the curved connecting rod 53 so as to enable the rotating sheet unit 51 to open or close or seal the vent hole IV 521; the air inlet valve controls the air pressure in the rubber disc 42 and the suction disc 3 through controlling the air hole four, so that the suction disc 3 can automatically release the container 13, and the intellectualization of the intelligent logistics container is realized.

As shown in fig. 4, an extension spring 32 is fixed on one convex surface of the rubber disc 42; the other end of the extension spring 32 is fixedly connected with the inner wall of the fixed seat 41, and the extension spring 32 is used for fixing the rubber disc 42. When the device works, the rubber disc 42 is sucked by the sucker 3, air in the rubber disc 42 is pumped away by the negative pressure pump 221, negative pressure is generated between the sucker 3 and the rubber disc 42, so that the rubber disc 42 is attached to the surface of the sucker 3, the rubber disc 42 is tensioned by the tensioning spring, the negative pressure between the sucker 3 and the rubber disc 42 is larger, the rubber disc 42 and the sucker 3 are more firmly sucked, the sucking of the container 13 by the sucker 3 is facilitated, the strength of the hollow metal hose 24 for grabbing the container 13 is improved, the safety of carrying goods in the container 13 is improved, the container 13 is prevented from falling down to damage the goods during carrying, and unnecessary loss is reduced; the rubber disc 42 is tensioned by the tensioning spring, so that the negative pressure between the suction cup 3 and the rubber disc 42 is larger, the time for the negative pressure pump 221 to pump the gas in the suction cup 3 and the rubber disc 42 can be shortened, and the working efficiency of the intelligent logistics container is improved.

As shown in fig. 4, the bottom end of the rubber disc 42 is provided with a first iron block 421; the lower end surface of the sucking disc 3 is provided with an electromagnet 33, the electromagnet 33 is used for attracting the first iron block 421, and the power on and off of the electromagnet 33 is controlled by the controller 14. When the intelligent logistics container is in work, the controller 14 controls the electromagnet 33 to adsorb the first iron block 421, so that the surface of the rubber disc 42 can be quickly attached to the suction disc 3, and the gas in the rubber disc 42 is partially extruded out when the negative pressure pump 221 is not extracted, so that the extraction time of the negative pressure pump 221 is saved, the rubber disc 42 and the suction disc 3 can be attached more quickly, the speed of adsorbing the container 13 by the suction disc 3 is improved, and the working efficiency of the intelligent logistics container is improved; simultaneously, at the in-process that sucking disc 3 removed to packing box 13, electro-magnet 33 has the ability of attracting iron plate one 421 for sucking disc 3 can be more the alignment packing box 13, sucking disc 3 can be more the alignment disk seat 4, sucking disc 3 can be more the absorption with rubber disc 42, improved hollow metal collapsible tube 24 and found the speed of aiming and snatching packing box 13, improved the work efficiency of intelligent logistics container.

The specific use flow is as follows:

in a preferred embodiment of the present invention, the cargo box 13 is transported to the box opening of the box 1, the sensor 15 detects the cargo box 13, the sensor 15 transmits a signal to the controller 14, the controller 14 is a microcomputer, the controller 14 controls the motor 11 to rotate, the motor 11 drives the slider 2 to move to the upper side of the box 1 through the lead screw 12, the motor 21 rotates under the control of the controller 14, the motor 21 drives the hollow metal hose 24 to descend through the hollow shaft 23, so that the suction cup 3 on the metal hose is attached to the cargo box 13, meanwhile, the negative pressure pump 221 operates, the negative pressure pump 221 pumps the gas in the hollow shaft 23 through the suction pipe and the air guide sleeve 222, so that the hollow metal hose 24 and the suction cup 3 generate a negative pressure, the suction cup 3 sucks the cargo box 13, the motor 21 rotates to roll up the hollow metal hose 24 from the hollow shaft 23, the hollow metal hose 24 lifts the cargo box 13, at this time, the motor 11 drives the slider 2 to slide through the, the hollow metal hose 24 is driven to move, the goods are conveyed into the box body 1, the second motor 21 drives the hollow metal hose 24 to put down the goods through the hollow shaft 23, the negative pressure pump 221 stops working, the air pressure in the suction disc 3 automatically returns to normal, the suction disc 3 releases the container 13, and intelligent conveying of the goods in the container 13 is completed.

In another preferred embodiment of the present invention, an air nozzle 231 is disposed in the inner wall of the hollow metal hose 24 or the inner wall of the hollow shaft 23, the air nozzle 231 is a one-way rubber air nozzle 231, and the air nozzle 231 allows air to flow from the suction cup 3 to the negative pressure pump 221 but not from the negative pressure pump 221 to the suction cup 3; the air pressure in the suction cup 3 is controlled through the air inlet valve, so that the negative pressure pump 221 can keep negative pressure in the suction cup 3 without continuously working, the working time of the negative pressure pump 221 is reduced, and the service life of the negative pressure pump 221 is prolonged; the using process is as follows, the container 13 is carried to the opening of the container 1, the sensor 15 detects the container 13, the sensor 15 transmits signals to the controller 14, the controller 14 is a microcomputer, the controller 14 controls the motor one 11 to rotate, the motor one 11 drives the slide block 2 to move to the upper part of the container 1 through the screw 12, under the control of the controller 14, the motor two 21 rotates, the motor two 21 drives the hollow metal hose 24 to descend through the hollow shaft 23, so that the suction cup 3 on the metal hose is attached to the container 13, the controller 14 controls the air inlet valve to be closed, so that the connecting pipe 422 is closed, the lower end of the rubber disc 42 is in a closed state, meanwhile, the negative pressure pump 221 works, the negative pressure pump 221 pumps air in the hollow shaft 23 through the air pumping pipe and the air guide sleeve 222, so that the hollow metal hose 24 and the suction cup 3 generate negative pressure, the suction cup 3 sucks the container 13, the air tightness between the suction cup 3 and the rubber disc 42 is ensured, the rubber disc 42 is sucked by the suction cup 3, the air in the rubber disc 42 is pumped away by the negative pressure pump 221, negative pressure is generated between the suction cup 3 and the rubber disc 42, the rubber disc 42 is attached to the surface of the suction cup 3, the rubber disc 42 is tensioned by the tensioning spring, the negative pressure between the suction cup 3 and the rubber disc 42 is larger, the suction between the rubber disc 42 and the suction cup 3 is firmer, the suction between the rubber disc 42 and the suction cup 3 is more firm, the suction of the container 13 by the suction cup 3 is facilitated, the strength of the hollow metal hose 24 for grabbing the container 13 is improved, the rubber disc 42 is tensioned by the tensioning spring, the negative pressure between the suction cup 3 and the rubber disc 42 is larger, the time for the negative pressure pump 221 to pump the; meanwhile, when the suction disc 3 grabs the container 13, the controller 14 controls the electromagnet 33 to adsorb the first iron block 421, so that the surface of the rubber disc 42 can be quickly attached to the suction disc 3, and the gas in the rubber disc 42 is partially extruded out when the negative pressure pump 221 is not extracted, thereby saving the extraction time of the negative pressure pump 221, enabling the rubber disc 42 and the suction disc 3 to be attached more quickly, improving the speed of the suction disc 3 adsorbing the container 13, and being beneficial to improving the working efficiency of the intelligent logistics container; meanwhile, in the process that the suction disc 3 moves towards the container 13, the electromagnet 33 has the capacity of attracting the iron block I421, so that the suction disc 3 can align the container 13 more, the suction disc 3 can align the disc seat 4 more, and the suction disc 3 can attract the rubber disc 42 more, thereby improving the speed of aligning the hollow metal hose 24 and grabbing the container 13 and improving the working efficiency of the intelligent logistics container; after the suction disc 3 successfully grabs the container 13 and adsorbs the container 13, the controller 14 rotates the second motor 21 to enable the hollow shaft 23 to roll up the hollow metal hose 24, the hollow metal hose 24 lifts the container 13, at the moment, the first motor 11 drives the slide block 2 to slide through the lead screw 12 to drive the hollow metal hose 24 to move, the cargo is conveyed into the container body 1, the second motor 21 drives the hollow metal hose 24 to put the cargo down through the hollow shaft 23, the controller 14 controls the third motor to rotate, the third motor drives the gear ring 55 to rotate through the first gear 46, the gear ring 55 drives the rotating ring 54 to slide on the barrel-shaped seat 52, and the rotating ring 54 drives the rotating sheet unit 51 to rotate through driving the curved connecting rod 53 to enable the rotating sheet unit 51 to open and close to enable the vent holes four 521 to be; the air pressure in the rubber disc 42 and the suction disc 3 is restored to the atmospheric level, so that the suction disc 3 automatically releases the container 13, and the intellectualization of the intelligent logistics container is realized.

While one embodiment of the present invention has been described above, the present invention is not limited to the above embodiment, and various modifications can be made without departing from the scope of the present invention.

(A) In the above embodiment, the air tap is arranged on the inner wall of the hollow metal hose or the inner wall of the hollow shaft, so as to ensure that the air flows from the suction cup to the negative pressure pump in one direction.

Industrial applicability

According to the invention, the goods are sorted, so that the goods purity is improved and the goods transportation efficiency is improved; the cargo transportation efficiency is improved by lightening, simplifying and practically packaging the cargo; the cargo transportation efficiency is improved by automatically carrying and placing the cargo box by using the intelligent logistics container, and the total cargo transportation time is saved and reduced; the method for improving the efficiency of cargo transportation is therefore useful in the field of cargo transportation technology.

Claims (5)

1. A method for improving logistics transportation efficiency is characterized in that: the method comprises the following steps:

the method comprises the following steps: sorting the goods, improving the purity of the goods, and removing substances in the goods which are irrelevant to the use of the goods so as to reduce the weight of the goods and reduce the carrying times of the goods;

step two: after the purity of the goods is improved in the first step; the goods are packaged in a light, simplified and practical manner so as to reduce the time for packaging the goods and the space occupied by the goods packaging, and the packaged goods are put into a container;

step three: after the goods are loaded into the goods box in the second step, the goods box is placed on a sleeper or other liner, and the goods box is conveyed to the door opening of the intelligent logistics container by a forklift;

step four: after the three-purpose forklift delivers the container to the door of the intelligent logistics container, the intelligent logistics container automatically carries and places the container;

step five: after the goods are loaded by the intelligent logistics container in the fourth step, closing the intelligent logistics container, and putting the intelligent logistics container on a truck by a crane and transporting the intelligent logistics container to a destination;

the intelligent logistics container in the third step to the fifth step comprises a container body (1), a motor I (11), a lead screw (12), a container (13), a controller (14), a sensor (15) and a sliding block (2); the sliding block (2) is connected with the upper end of the box body (1) in a sliding manner; the first motor (11) is fixed on the outer side of the box body (1), the first motor (11) is connected with the lead screw (12), and the first motor (11) drives the sliding block (2) to linearly slide on the box body (1) through the lead screw (12); the controller (14) is arranged beside the first motor (11), and the controller (14) is used for controlling the first motor (11) to rotate; the plurality of sensors (15) are arranged, the sensors (15) are uniformly distributed on the inner wall of the box body (1), and the sensors (15) are used for detecting the position of the container (13) and transmitting signals to the controller (14); the interior of the sliding block (2) is hollow, and a second motor (21), an air extractor (22), a hollow shaft (23) and a hollow metal hose (24) are arranged in the sliding block (2); one end of the hollow metal hose (24) is communicated with the end part of the hollow shaft (23), the other end of the hollow metal hose (24) extends out of the slide block (2) and is a free end, a suction disc (3) is arranged at the free end of the hollow metal hose (24), and the hollow metal hose (24) sucks the container (13) through the suction disc (3) and lifts the container (13); the second motor (21) is fixed on the sliding block (2), the second motor (21) winds the hollow metal hose (24) through the hollow shaft (23) to enable the container (13) at the free end of the hollow metal hose (24) to be lifted, and the rotation of the second motor (21) is controlled by the controller (14); the air extractor (22) is fixed at the side of the second motor (21), and the air extractor (22) is used for extracting air in the hollow shaft (23) to enable the suction disc (3) to more firmly suck the container (13); wherein the content of the first and second substances,

the air extraction device (22) comprises a negative pressure pump (221), an air extraction pipe and an air guide sleeve (222), the negative pressure pump (221) is fixed on the side of the second motor (21), and the negative pressure pump (221) is communicated with the air guide sleeve (222) through the air extraction pipe; the air guide sleeve (222) is sleeved on the hollow shaft (23), the air guide sleeve (222) is fixed with the inner wall of the sliding block (2), and the air guide sleeve (222) is communicated with the hollow shaft (23) through a first vent hole arranged on the hollow shaft (23);

the tray seat (4) is arranged at the upper end of the container (13), the tray seat (4) is detachably fixed on the container (13), the upper end face of the tray seat (4) is flush with the upper end face of the container (13), the tray seat (4) is matched with the sucker (3), and the tray seat (4) and the sucker (3) are attracted;

the tray seat (4) comprises a fixed seat (41), a rubber tray (42), a connecting pipe (422) and an air inlet gate (5), the fixed seat (41) is fixedly installed at the upper end of the container (13), a cavity is formed in the fixed seat (41), a second vent hole (411) is formed in the bottom end of the fixed seat (41), and the second vent hole (411) is communicated to the outside of the container (13); the rubber disc (42) is in the shape of a protruding disc, one face of the rubber disc (42) is fixed in the cavity of the fixed seat (41), the protruding face of the rubber disc (42) faces the inner side of the fixed seat (41), the upper end face of the rubber disc (42) is flush with the upper end face of the fixed seat (41), and the lower end of the rubber disc (42) is provided with a third vent hole; the vent tee is communicated with the air inlet brake (5) through a connecting pipe (422), and the length of the connecting pipe (422) is more than or equal to the shortest distance between the upper end surface of the fixed seat (41) and the upper end surface of the air inlet brake (5); the air inlet valve (5) is located at the lower end of the rubber disc (42), the air inlet valve is fixed with the fixing seat (41), and the air inlet valve (5) is used for closing or opening the connecting pipe (422).

2. The method for improving the logistics transportation efficiency of claim 1, wherein the method comprises the following steps: the sucker (3) comprises a circular plate (31) and a connector, the connector is hollow, the upper end of the connector is fixedly connected with the hollow metal hose (24), and the lower end of the connector is fixedly connected with the circular plate (31); the round plate (31) is used for adsorbing a container (13); the circular plate (31) is a rubber plate, a through hole is formed in the circular plate (31), and the through hole is communicated with the hollow metal hose (24) through a connector.

3. The method for improving the logistics transportation efficiency of claim 1, wherein the method comprises the following steps: the air inlet valve comprises six rotor units (51), a first fixing pin, a barrel-shaped seat (52), a second fixing pin, a curved connecting rod (53), a rotating ring (54), a gear ring (55), a third motor and a first gear (56), the rotor units (51) are arranged in a surrounding mode to form a closed circle, the rotor units (51) are hinged to the bottom end of the barrel-shaped seat (52) through the first fixing pin, and the rotating units are tightly attached to the bottom end of the barrel-shaped seat (52); the rotating unit is hinged with a rotating ring (54) through a curved connecting rod (53); the barrel-shaped seat (52) is fixedly connected with the fixed seat (41), a circular slide way is arranged on the barrel-shaped seat (52), the circular slide way is matched with the rotating ring (54), a gap is arranged on the side wall of the barrel-shaped seat (52), six fixing pins II are arranged at the bottom end of the barrel-shaped seat (52), a vent hole IV (521) is arranged at the bottom end of the barrel-shaped seat (52), and the diameter of the vent hole IV (521) is smaller than the radius of a circle enclosed by the rotating sheet unit (51); the rotating ring (54) is sleeved in a circular slideway on the barrel-shaped seat (52), six arc grooves (541) are arranged on the rotating ring (54), the arc grooves (541) are matched with the two fixing pins, the two fixing pins limit the rotating radian of the rotating ring (54), and the rotating ring (54) drives the rotating sheet unit (51) to rotate by driving the curved connecting rod (53) to enable the rotating sheet unit (51) to open or close the vent hole four (521); the outer side of the gear ring (55) is provided with teeth, the gear ring (55) is sleeved on the outer wall of the barrel-shaped seat (52), the gear ring (55) is fixedly connected with the rotating ring (54) through a notch on the barrel-shaped seat (52), and the gear ring (55) is used for driving the rotating ring (54) to rotate; the motor III is located beside the gear ring (55), the gear ring (55) is driven to rotate by the motor III through the gear I (56), and the motor III is controlled by the controller (14).

4. The method for improving the logistics transportation efficiency of claim 1, wherein the method comprises the following steps: an extension spring (32) is fixed on one convex surface of the rubber disc (42); the other end of the extension spring (32) is fixedly connected with the inner wall of the fixed seat (41), and the extension spring (32) is used for fixing the rubber disc (42).

5. The method for improving the logistics transportation efficiency of claim 1, wherein the method comprises the following steps: the bottom end of the rubber disc (42) is provided with a first iron block (421); the lower end face of the sucking disc (3) is provided with an electromagnet (33), the electromagnet (33) is used for sucking a first iron block (421), and the electromagnet (33) is switched on and off under the control of the controller (14).

Images