CN116653797B - Light-weight transportation container for vehicle - Google Patents

Abstract

The application relates to the field of containers, and provides a light-weight transport container for vehicles, wherein a container body comprises a top wall, and a driving assembly is arranged on the top wall; the driving assembly is connected with a movable belt, a camera and an illuminating lamp are arranged on the movable belt, the camera is connected with the display screen in a wireless communication mode, the illuminating lamp is turned on when the camera moves, and the camera is turned off after stopping moving; the camera is connected with a comparison module; the top wall is also connected with a detection assembly, and the detection assembly is connected with the driving assembly and used for controlling the driving assembly to drive the movable belt to move when the detection cabinet body vibrates abnormally so as to enable the camera to move along a preset track. When the application is used, the camera is driven to move by the driving component, so that shooting can be carried out in the container from different positions and angles, and all cargoes in the container can be accurately observed.

Description

Light-weight transportation container for vehicle

Technical Field

The application relates to the field of containers, in particular to a light-weight transport container for a vehicle.

Background

Containers are used to transport goods from one location to another. Containers can be transported via many different modes, such as sea, rail, air and trailer (e.g. tractor-trailer) transportation. Among them, containers transported by vehicles are common containers in the field of freight transportation, and these containers are required to be lightweight during transportation.

In some known technical schemes, when the vehicle transportation container is used, the condition in the vehicle is detected by adopting a mode of fixedly installing the camera, but the camera is blocked due to too high accumulation of cargoes in the container, so that the specific condition of the cargoes in the container cannot be found, and in addition, the vehicle container can vibrate, shake and the like in the transportation process, if the cargoes spill and topple, the cargoes cannot be found in time, the cargoes are damaged, and the freight cost is increased.

For this purpose, we propose a light-weight transportation container for vehicles.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the application provides a light-weight transport container for a vehicle, which solves the technical problem that the specific condition inside the container can not be accurately and carefully observed in the freight process.

Technical proposal

In order to achieve the above purpose, the application is realized by the following technical scheme:

the light-weight transport container for the vehicle comprises a container body, wherein the container body comprises a top wall, and a driving assembly is arranged on the top wall;

the driving assembly is connected with a movable belt, a camera and an illuminating lamp are arranged on the movable belt, the camera is connected with the display screen in a wireless communication mode, the illuminating lamp is turned on when the camera moves, and the camera is turned off after stopping moving;

the camera is connected with a comparison module;

the top wall is also connected with a detection assembly, and the detection assembly is connected with the driving assembly and is used for controlling the driving assembly to drive the movable belt to move when the detection cabinet body generates abnormal vibration so as to enable the camera to move along a preset track;

the camera is arranged to take pictures of the inside of the cabinet body at a plurality of points on a preset track when moving along the preset track;

the comparison module is used for comparing the difference between the first shot photo and the current shot photo in the transportation process, and if the difference is larger than a preset value, an alarm is sent out through the display screen.

In a further embodiment, the driving assembly comprises a double-shaft motor, the power shafts of the double-shaft motor are all connected with a rotating rod, the other end of the rotating rod is rotationally connected with the cabinet body, a first bevel gear is sleeved on the rotating rod, a shaft rod is rotationally connected to the cabinet body, a second bevel gear matched with the first bevel gear is sleeved on the shaft rod, a plurality of rollers are connected to the cabinet body and are respectively connected with the movable belt in a transmission mode, and the shaft rod is connected with the rollers through the transmission assembly.

In a further embodiment, the transmission assembly comprises a worm and a worm wheel, the worm is connected with the shaft rod, the worm wheel is connected with the roller, the roller is arranged in an I shape, the movable belt is sleeved on the side wall of the I-shaped recess, and the worm is meshed with the worm wheel.

In a further embodiment, the top wall is provided with a plurality of groups of bearings, each group of two or more bearings are connected with the same shaft rod, and the worm wheels and the worm are respectively arranged to enable the rollers to rotate at the same speed along the same direction.

In a further embodiment, the detection assembly comprises a detection box, the detection box is in sealing arrangement, a separation plate is connected in the detection box, and the separation plate divides the detection box into a sensing area and an active area;

the bottom wall of the movable area is connected with a pull rope, and one end of the pull rope is connected with a sphere;

the sensing area is connected with a detection plate through an elastic piece, and is also provided with a pressure sensor, and the detection plate is in contact with the pressure sensor and is used for detecting the pressure born by the detection plate;

the detection plate is connected with a push rod, and the push rod penetrates through the separation plate in a sealing way and extends to one side close to the ball body;

the movable area is also provided with liquid, and the density of the liquid is higher than that of the sphere, so that the sphere generates buoyancy.

In a further embodiment, the lower end of the push rod is rotatably connected with a plurality of shielding covers, the shielding covers are matched with each other to jointly shield the upper side of the sphere, and the distance between two adjacent shielding covers is smaller than the diameter of the sphere.

In a further embodiment, the upper side wall of the shielding cover is rotationally connected with a connecting rod, the other end of the connecting rod is rotationally connected with a movable rod, the upper end of the movable rod penetrates through the partition plate in a sealing mode, and the upper end of the movable rod is rotationally connected with the detection plate.

In a further embodiment, the lowest height of the shield is higher than the height of the center of gravity of the sphere, and the level of the liquid is set between the center of gravity of the sphere and the lowest height of the shield;

the rotation angle of the shielding cover is set to be lower than the top surface height of the sphere all the time in the rotation process of the shielding cover, so that the sphere is always located in a shielding area formed by a plurality of shielding covers.

Advantageous effects

The application provides a light-weight transportation container for a vehicle. Compared with the prior art, the method has the following beneficial effects:

1. the camera is driven to move through the driving assembly, so that the camera can shoot the container from different positions and angles, all cargoes in the container can be accurately observed, in addition, whether the cargoes in the container change or not can be automatically, accurately and rapidly obtained through the comparison module, and when the cargoes change, the camera can give an alarm to a driver, the driver is reminded of rapid processing, and accordingly loss caused by dumping of the cargoes is greatly reduced.

2. Under the premise that the worm wheel and the worm are matched, the plurality of rollers can be driven to rotate, the self-locking effect can be achieved, so that the position of the camera cannot be changed when the camera does not need to move, and the camera can accurately reach a preset acquisition point on a preset moving track when the camera moves.

3. Can rock from top to bottom, the back and forth of vehicle all can detect fast through the detection case to after detecting that the vehicle rocked, the drive camera removes, shoots or video recognition to the circumstances in the packing cupboard, and can send the content of shooing in real time in the display screen, thereby discover fast and rock the circumstances that leads to the goods slope because of the vehicle.

Drawings

In order to more clearly illustrate the embodiments of the application or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of the structure of the interior of the cabinet in side view.

Fig. 2 is a schematic view of the structure of the interior of the cabinet in bottom view.

Fig. 3 is a schematic structural view of the driving assembly.

Fig. 4 is a schematic structural diagram of the detection assembly.

The reference numerals in the figures are:

a 10 cabinet body and a 11 top wall;

the device comprises a 20 driving assembly, a 21 double-shaft motor, a 22 rotating rod, a 23 first bevel gear, a 24 shaft lever, a 25 second bevel gear and a 26 idler wheel;

30 movable belts, 31 cameras and 32 illuminating lamps;

the device comprises a detection assembly 40, a detection box 41, a separation plate 42, a pull rope 43, a ball 44, an elastic piece 45, a pressure sensor 46, a push rod 47, a liquid 48 and a detection plate 49;

50 transmission components, 51 worm, 52 worm wheel and 53 bearings;

60 shielding cover, 61 connecting rod, 62 movable rod.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions in the embodiments of the present application are clearly and completely described, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

The light-weight transportation container for the vehicle solves the problem that the container can not be observed timely and clearly in the transportation process, and when the light-weight transportation container is used, the camera 31 is driven to move through the movable belt 30, so that the condition in the container can be photographed and recorded timely, the light-weight transportation container is convenient to watch timely, and when goods are dumped, the light-weight transportation container is automatically reminded timely, so that adverse effects caused by dumping in the cargo transportation process are greatly reduced.

The technical scheme in the embodiment of the application aims to solve the technical problems, and the overall thought is as follows:

through driving camera 31 to remove, can shoot the inside holistic condition of packing cupboard, through taking the picture at the fixed point, according to the picture comparison to whether it emptys to arrive goods fast, thereby make things convenient for the driver to handle in time. In addition, the container can be detected to shake through the detection assembly 40, and the photographing is automatically performed after the container shakes up and down or back and forth, so that the situation in the container can be checked in time.

In order to better understand the above technical solutions, the following detailed description will refer to the accompanying drawings and specific embodiments.

Referring to fig. 1 to 4, a light-weight transportation container for vehicles comprises a container body 10, wherein the container body 10 comprises a top wall 11, and a driving assembly 20 is arranged on the top wall 11;

the driving assembly 20 is connected with a movable belt 30, a camera 31 and an illuminating lamp 32 are mounted on the movable belt 30, the camera 31 is connected with the display screen in a wireless communication mode, the illuminating lamp 32 is turned on when the camera 31 moves, and the camera 31 is turned off after stopping moving;

the camera 31 is connected with a comparison module;

the top wall 11 is further connected with a detection assembly 40, and the detection assembly 40 is connected with the driving assembly 20, and is used for controlling the driving assembly 20 to drive the movable belt 30 to move so as to enable the camera 31 to move along a preset track when abnormal vibration occurs in the detection cabinet 10;

the camera 31 is configured to take a picture of the inside of the cabinet 10 at a plurality of points on a preset track while moving along the preset track;

the comparison module is used for comparing the difference between the first shot photo and the current shot photo in the transportation process, and if the difference is larger than a preset value, an alarm is sent out through the display screen.

In a further embodiment, the driving assembly 20 includes a dual-shaft motor 21, a power shaft of the dual-shaft motor 21 is connected with a rotating rod 22, the other end of the rotating rod 22 is rotatably connected with the cabinet body 10, a first bevel gear 23 is sleeved on the rotating rod 22, a shaft lever 24 is rotatably connected to the cabinet body 10, a second bevel gear 25 matched with the first bevel gear 23 is sleeved on the shaft lever 24, a plurality of rollers 26 are connected to the cabinet body 10, the plurality of rollers 26 are respectively in transmission connection with the movable belt 30, and the shaft lever 24 is connected with the rollers 26 through a transmission assembly 50.

The double-shaft motor 21 drives the rotating rod 22 to rotate, the rotating rod 22 drives the first bevel gear 23 to rotate, the first bevel gear 23 drives the second bevel gear 25 to rotate, the second bevel gear 25 drives the shaft lever 24 to rotate, and the roller 26 is driven to rotate through the transmission of the transmission assembly 50, so that the movable belt 30 is driven to rotate.

The movable belt 30 may be provided as a hinge or belt, and the roller 26 may be replaced with a hinge wheel, a transfer roller, or the like, accordingly.

The movable belt 30 drives the camera 31 and the illumination lamp 32 to move, so that each position in the container is rapidly monitored.

In a further embodiment, the transmission assembly 50 includes a worm 51 and a worm wheel 52, the worm 51 is connected with the shaft 24, the worm wheel 52 is connected with the roller 26, the roller 26 is configured in an i shape, the movable belt 30 is sleeved on the side wall of the i-shaped recess, and the worm 51 is meshed with the worm wheel 52.

Under the premise that the worm wheel 52 and the worm 51 are matched, the plurality of rollers 26 can be driven to rotate, the self-locking effect can be achieved, and therefore when the camera 31 does not need to move, the position of the camera 31 cannot be changed, and the camera 31 can accurately reach a preset acquisition point on a preset moving track when moving.

Thus, it is possible to judge whether the camera 31 reaches the collection point or not by the number of rotations of the biaxial motor 21 or the like without providing an infrared detector or the like.

In a further embodiment, the top wall 11 is provided with a plurality of sets of bearings 53, each set of two or more bearings 53 is connected to the same shaft 24, and the worm wheel 52 and the worm 51 are respectively configured to rotate the roller 26 in the same direction at the same speed.

The bearing 53 can have a good supporting effect on the shaft lever 24, and the shaft lever 24 is prevented from shaking in the rotation process.

In a further embodiment, the detection assembly 40 includes a detection box 41, the detection box 41 is in a sealed arrangement, a separation plate 42 is connected to the detection box 41, and the separation plate 42 divides the detection box 41 into a sensing area and an active area;

the bottom wall of the movable area is connected with a pull rope 43, and one end of the pull rope 43 is connected with a sphere 44;

the sensing area is connected with a detection plate 49 through an elastic piece 45, the sensing area is also provided with a pressure sensor 46, and the detection plate 49 is contacted with the pressure sensor 46 and is used for detecting the pressure born by the detection plate 49;

the detection plate 49 is connected with a push rod 47, and the push rod 47 penetrates through the separation plate 42 in a sealing way and extends to one side close to the sphere 44;

a liquid 48 is also disposed in the active region, the liquid 48 having a density greater than the spheres 44 so that the spheres 44 create buoyancy.

When the vehicle moves, if the vehicle shakes in the vertical direction, for example, the vehicle passes through a deceleration strip, the vehicle shakes up and down more severely, at this time, the liquid 48 also shakes up and down, the liquid 48 can drive the ball 44 to move up and down, the ball 44 pushes the push rod 47 to move, the push rod 47 generates pressure on the detection plate 49, the detection plate 49 transmits the detection to the pressure sensor 46, so that the pressure sensor 46 detects the pressure change, and when the detection value exceeds a preset value, for example, the preset value is set to 1N, the driving assembly 20 starts to drive the camera 31 to move, and the goods in the container are detected.

In a further embodiment, a plurality of shielding covers 60 are rotatably connected to the lower end of the push rod 47, the shielding covers 60 cooperate to jointly shield the upper side of the sphere 44, and the distance between two adjacent shielding covers 60 is smaller than the diameter of the sphere 44.

The blocking cover 60 can block the ball 44, prevent the ball 44 from moving to other positions, and ensure that the ball 44 can stably exert pressure on the push rod 47.

In a further embodiment, a connecting rod 61 is rotatably connected to the upper side wall of the shielding cover 60, a movable rod 62 is rotatably connected to the other end of the connecting rod 61, the upper end of the movable rod 62 penetrates through the partition plate 42 in a sealing manner, and the upper end of the movable rod 62 is rotatably connected to the detection plate 49.

When the automobile shakes forwards and backwards, such as sudden braking of the automobile, at the moment, the liquid 48 flows in the moving direction under the action of inertia, so that the ball 44 is driven to move, the ball 44 can push the shielding cover 60 to rotate, the shielding cover 60 can drive one end of the connecting rod 61 to rotate, the other end of the connecting rod 61 can push the movable rod 62 to move upwards, the detecting plate 49 is enabled to generate pressure, the pressure sensor 46 detects pressure change, and accordingly the vehicle is judged to shake.

In a further embodiment, the lowermost level of the shield 60 is higher than the height of the center of gravity of the sphere 44, and the level of the liquid 48 is set between the center of gravity of the sphere 44 and the lowermost level of the shield 60;

the rotation angle of the shielding cover 60 is set to be that the bottom of the shielding cover 60 is always lower than the top surface of the sphere 44 in the rotation process of the shielding cover 60, so that the sphere 44 is always located in a shielding area formed by a plurality of shielding covers 60.

By this arrangement, it is ensured that the ball 44 does not easily come out of the cover 60, and that the ball 44 can stably act on the cover 60 and the push rod 47.

In the practical application process, the movable belt 30 can be driven to move through the driving assembly 20, and when the movable belt 30 moves, the camera 31 and the illuminating lamp 32 are driven to move, and the illuminating lamp 32 can play a role in illumination, so that the shooting accuracy of the camera 31 is ensured.

The movable belt 30 can be set to various shapes according to the requirement, the shape of the movable belt 30 is the preset moving track of the camera 31, and a plurality of shooting points can be set according to the length of the moving track, for example, 10 shooting points are set for a 20-ruler container, and 15 shooting points are set for a 40-ruler container. The number of specific set collection points can be set in real time according to the needs and the type of goods.

In the moving process of the camera 31, each time a collection point is reached, the arrival of the collection point can be performed according to positioning, such as infrared positioning, or other positioning modes can be adopted, the camera 31 starts photographing, video can be recorded in the whole moving process of the camera 31, and the recorded content can be transmitted to a display screen in real time, so that specific conditions in a container can be seen through the display screen.

After goods are loaded, the camera 31 collects the pictures for the first time, the collected pictures are used as original pictures for comparison, and in the transportation process, the pictures can be collected at regular time, and the pictures can also be automatically collected after the vehicles shake more severely, so that the specific conditions of the goods in the container can be rapidly and timely checked.

When the shot contents are compared, the comparison of the pictures, such as the comparison of the positions of different objects in the pictures with the original shape, and the like, can be used as the comparison target when the width and the length of the object change greatly, such as the change of the colors of two photos at the same position. When the change value at a certain place exceeds 20% or 30%, the goods are judged to be toppled in the container, and an alarm is sent out through a display screen.

In summary, compared with the prior art, the method has the following beneficial effects:

1. the camera 31 is driven to move by the driving assembly 20, so that shooting can be carried out on the containers from different positions and angles, and therefore accurate observation can be obtained on all cargoes in the containers, in addition, whether the cargoes in the containers change or not can be automatically, accurately and rapidly obtained through the comparison module, and when the cargoes change, a driver can be warned, and the cargoes can be reminded of being rapidly processed, so that loss caused by dumping of the cargoes is greatly reduced.

2. Under the premise that the worm wheel 52 and the worm 51 are matched, the plurality of rollers 26 can be driven to rotate, the self-locking effect can be achieved, and therefore when the camera 31 does not need to move, the position of the camera 31 cannot be changed, and the camera 31 can accurately reach a preset acquisition point on a preset moving track when moving.

3. Can both rock from top to bottom, the back and forth of vehicle and rock all can detect fast through detecting case 41 to after detecting that the vehicle rocked, drive camera 31 removed, shoot or record a video discernment to the circumstances in the packing cupboard, and can send the content of shooing in real time in the display screen, thereby discover fast because of the vehicle rocked the circumstances that leads to the goods slope.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The above embodiments are only for illustrating the technical solution of the present application, and are not limiting; although the application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present application.

Claims (7)

1. The light-weight transport container for the vehicle is characterized by comprising a container body (10), wherein the container body (10) comprises a top wall (11), and a driving assembly (20) is arranged on the top wall (11);

the driving assembly (20) is connected with a movable belt (30), a camera (31) and an illuminating lamp (32) are arranged on the movable belt (30), the camera (31) is connected with the display screen in a wireless communication mode, the illuminating lamp (32) is turned on when the camera (31) moves, and the camera (31) is turned off after stopping moving;

the camera (31) is connected with an alignment module;

the top wall (11) is also connected with a detection assembly (40), the detection assembly (40) is connected with the driving assembly (20) and is used for controlling the driving assembly (20) to drive the movable belt (30) to move when the abnormal vibration of the cabinet body (10) is detected, so that the camera (31) moves along a preset track;

the camera (31) is arranged to take pictures of the inside of the cabinet (10) at a plurality of points on a preset track when moving along the preset track;

the comparison module is used for comparing the difference between the first shot photo and the current shot photo in the transportation process, and if the difference is larger than a preset value, an alarm is sent out through the display screen;

the detection assembly (40) comprises a detection box (41), the detection box (41) is in sealing arrangement, a separation plate (42) is connected in the detection box (41), and the separation plate (42) divides the detection box (41) into a sensing area and an active area;

the bottom wall of the movable area is connected with a pull rope (43), and one end of the pull rope (43) is connected with a sphere (44);

the sensing area is connected with a detection plate (49) through an elastic piece (45), the sensing area is also provided with a pressure sensor (46), and the detection plate (49) is in contact with the pressure sensor (46) and is used for detecting the pressure born by the detection plate (49);

the detection plate (49) is connected with a push rod (47), and the push rod (47) penetrates through the separation plate (42) in a sealing mode and extends to one side close to the ball body (44);

a liquid (48) is also disposed in the active region, the liquid (48) having a density greater than that of the sphere (44) such that the sphere (44) generates buoyancy.

2. The container according to claim 1, wherein the driving assembly (20) comprises a double-shaft motor (21), power shafts of the double-shaft motor (21) are connected with rotating rods (22), the other ends of the rotating rods (22) are rotationally connected with the container body (10), first bevel gears (23) are sleeved on the rotating rods (22), shaft rods (24) are rotationally connected with the container body (10), second bevel gears (25) matched with the first bevel gears (23) are sleeved on the shaft rods (24), a plurality of rollers (26) are connected to the container body (10), the rollers (26) are respectively in transmission connection with the movable belt (30), and the shaft rods (24) are connected with the rollers (26) through transmission assemblies (50).

3. The freight container according to claim 2, wherein the transmission assembly (50) comprises a worm (51) and a worm wheel (52), the worm (51) is connected with the shaft (24), the worm wheel (52) is connected with the roller (26), the roller (26) is configured as an i-shape, the movable belt (30) is sleeved on the side wall of the i-shape recess, and the worm (51) is meshed with the worm wheel (52).

4. A container according to claim 3, wherein the top wall (11) is provided with a plurality of sets of bearings (53), each set of two or more bearings (53) being connected to the same shaft (24), and wherein the worm wheel (52) and worm (51) are arranged to rotate the rollers (26) in the same direction and at the same speed.

5. The container according to claim 1, wherein a plurality of shielding covers (60) are rotatably connected to the lower end of the push rod (47), the shielding covers (60) cooperate with each other to shield the upper side of the sphere (44), and the distance between two adjacent shielding covers (60) is smaller than the diameter of the sphere (44).

6. The container according to claim 5, wherein the upper side wall of the shielding cover (60) is rotatably connected with a connecting rod (61), the other end of the connecting rod (61) is rotatably connected with a movable rod (62), the upper end of the movable rod (62) penetrates through the partition plate (42) in a sealing manner, and the upper end of the movable rod (62) is rotatably connected with the detection plate (49).

7. The container according to claim 6, wherein the lowermost level of the shielding cover (60) is higher than the height of the centre of gravity of the sphere (44), the level of the liquid (48) being arranged between the centre of gravity of the sphere (44) and the lowermost level of the shielding cover (60);

the rotating angle of the shielding cover (60) is set to be that the bottom of the shielding cover (60) is always lower than the top surface of the sphere (44) in the rotating process of the shielding cover (60), so that the sphere (44) is always located in a shielding area formed by a plurality of shielding covers (60).