阅读说明：本技术 Agv物流车与仓储系统 (AGV commodity circulation car and warehouse system ) 是由 李远莉 曾蜀军 曾光辉 于 2021-02-03 设计创作，主要内容包括：本发明公开了一种AGV物流车与仓储系统,本发明的AGV物流车包括行走机构和货物托盘,所述行走机构包括底盘、设置在底盘下部的车轮、驱动车轮转向的转向机构和驱动车轮转动的第一电机,所述货物托盘上设置有传送带、主动轮、从动轮和驱动主动轮转动的驱动装置。本发明的仓储系统,包括货架,所述货架包括至少两根平行设置的立柱,所述货架从上至下并列设置有多个水平设置的货物存放平台,每根立柱内沿自身轴向上设置有螺纹通孔。本发明的仓储系统可与AGV物流车配合使用将货物运送到较高的货架上,且无需在货架上安装多个电动葫芦或电机等起重设备,使得仓储系统的设施成本较低。(The invention discloses an AGV logistics vehicle and a storage system, wherein the AGV logistics vehicle comprises a travelling mechanism and a goods tray, the travelling mechanism comprises a chassis, wheels arranged at the lower part of the chassis, a steering mechanism for driving the wheels to steer and a first motor for driving the wheels to rotate, and a conveying belt, a driving wheel, a driven wheel and a driving device for driving the driving wheel to rotate are arranged on the goods tray. The warehousing system comprises a goods shelf, wherein the goods shelf comprises at least two parallel stand columns, a plurality of horizontally arranged goods storage platforms are arranged on the goods shelf in parallel from top to bottom, and a threaded through hole is formed in each stand column in the axial direction of the stand column. The storage system can be matched with an AGV logistics vehicle for use to convey goods to a higher goods shelf, and a plurality of hoisting devices such as electric hoists or motors do not need to be arranged on the goods shelf, so that the facility cost of the storage system is lower.)

1. An AGV logistics vehicle comprises a travelling mechanism (1) and a cargo tray (2), wherein the travelling mechanism (1) comprises a chassis (11), wheels (12) arranged on the lower portion of the chassis (11), a steering mechanism for driving the wheels to steer and a first motor for driving the wheels to rotate, a conveying belt, a driving wheel, a driven wheel and a driving wheel rotating driving device are arranged on the cargo tray (2), the conveying belt is sleeved on the driving wheel and the driven wheel, and a carrier roller is arranged on the cargo tray (2) and positioned on the back side of the conveying belt; the method is characterized in that: the side symmetry of running gear (1) is provided with two hoist mechanism, hoist mechanism includes support arm and second motor, and the tip of every support arm is provided with the through-hole of the vertical setting of axial, be provided with the pivot in the through-hole, the top of pivot is coaxial to be provided with a screw rod, the bottom of pivot is provided with a cassette that prevents that the pivot from deviating from the through-hole, the bottom of cassette is provided with universal drive shaft, universal drive shaft's the other end and the power take off hub connection of second motor, through second motor and universal drive shaft can drive pivot and screw rod and rotate simultaneously.

2. The AGV logistics vehicle of claim 1, wherein: and a distance of 2-10cm is reserved between the clamping seat and the bottom of the through hole so that the rotating shaft can move upwards for a certain distance along the through hole.

3. The AGV logistics vehicle of claim 2, wherein: the utility model discloses a goods tray, including the support arm, the one end tip that lies in on goods tray (2) with one side with the support arm is provided with the conveying frame, the one end and goods tray (2) of conveying frame are articulated, and the other end of conveying frame is the free end, be provided with many transfer rollers on the conveying frame side by side, still include the electromagnetism telescoping cylinder, the one end and chassis (11) of electromagnetism telescoping cylinder are articulated, the other end and the conveying frame of electromagnetism telescoping cylinder are articulated.

4. The AGV logistics vehicle of claim 3, wherein: the chassis (11) is provided with a controller, radars and cameras are further arranged on the periphery of the chassis, and the controller is connected with the radars, the first motor, the second motor, the steering mechanism, the driving device and the cameras respectively.

5. The AGV logistics vehicle of claim 4, wherein: and an axial thrust bearing is further sleeved on the rotating shaft between the clamping seat and the through hole.

6. A storage system for use with an AGV logistics vehicle of any one of claims 1-5 wherein: the goods shelf comprises a goods shelf (4), wherein the goods shelf (4) comprises at least two upright posts (41) which are arranged in parallel, the goods shelf is provided with a plurality of horizontally arranged goods storage platforms (42) from top to bottom in parallel, each upright post is internally provided with a threaded through hole along the axial direction of the upright post, each upright post is also provided with a long and narrow opening which extends along the axial direction of the upright post, the opening is communicated with the threaded through hole, and the width of the opening is smaller than the diameter of the threaded through hole; the threaded through hole can be in threaded fit with the screw; the width of the opening at the bottom end of the upright post is larger than the diameter of the outer circle of the screw rod, so that the front end of the support arm and the screw rod can be inserted into the threaded through hole of the upright post.

7. The warehousing system of claim 6, wherein: the two sides of the opening at the bottom end of the upright post are respectively provided with a guide plate, and the distance between the two guide plates is gradually increased in the direction away from the opening.

8. The warehousing system of claim 7, wherein: still include the host computer, goods shelves (4) are located the position department between two stands of bottom and are provided with the display screen, display screen and controller respectively with the host computer between the radio signal connection.

Technical Field

The invention relates to the technical field of logistics equipment, in particular to an AGV logistics vehicle and a storage system suitable for an ultrahigh goods shelf.

Background

The AGV (automated Guided vehicles) is also called an unmanned transport vehicle, an automatic navigation vehicle and a laser navigation vehicle, and is characterized in that the AGV is unmanned, and an automatic guide system is arranged on the AGV, so that the system can be ensured to automatically travel along a preset route without manual navigation, and goods or materials are automatically conveyed to a destination from a starting point.

An automated warehouse system is a system that can automatically store and retrieve materials without direct human handling. Since the storage mode of the warehouse is developed from planar storage to high-level three-dimensional storage, the shelf becomes the main body of the three-dimensional warehouse. Various automatic and mechanized warehouses composed of shelves of various forms meeting different functional requirements have become important links in warehousing systems and whole logistics systems or production process flows. In the past, the goods cannot be transported to a higher goods shelf by simply adopting the existing unmanned transport vehicle, so the goods shelf in the existing automatic warehouse system is generally not too high, and the warehousing capacity of the warehouse is reduced.

Disclosure of Invention

In view of this, the present invention provides an AGV logistics vehicle, which can solve the problem of limited cargo transportation height in the existing automatic warehouse system.

The invention solves the technical problems by the following technical means:

the AGV logistics vehicle comprises a travelling mechanism and a goods tray, wherein the travelling mechanism comprises a chassis, wheels arranged at the lower part of the chassis, a steering mechanism for driving the wheels to steer and a first motor for driving the wheels to rotate; the side symmetry of running gear is provided with two hoist mechanism, hoist mechanism includes support arm and second motor, and the tip of every support arm is provided with the through-hole of the vertical setting of axial, be provided with the pivot in the through-hole, the top of pivot is coaxial to be provided with a screw rod, the bottom of pivot is provided with a cassette that prevents that the pivot from deviating from the through-hole, the bottom of cassette is provided with universal drive shaft, universal drive shaft's the other end and the power take off hub connection of second motor, through second motor and universal drive shaft can drive pivot and screw rod and rotate simultaneously.

Further, a distance of 2-10cm is reserved between the clamping seat and the bottom of the through hole, so that the rotating shaft can move upwards for a certain distance along the through hole.

Further, the one end tip that lies in on the goods tray with one side with the support arm is provided with the conveying frame, the one end and the goods tray of conveying frame are articulated, and the other end of conveying frame is the free end, be provided with many transfer rollers on the conveying frame side by side, still include the electromagnetism telescoping cylinder, the one end and the chassis of electromagnetism telescoping cylinder are articulated, the other end and the conveying frame of electromagnetism telescoping cylinder are articulated.

Further, a controller is arranged on the chassis, radars and cameras are further arranged on the periphery of the chassis, and the controller is connected with the radars, the first motor, the second motor, the steering mechanism, the driving device and the cameras respectively.

Further, an axial thrust bearing is further sleeved on the rotating shaft between the clamping seat and the through hole.

The invention also provides a storage system, which can be used with the AGV logistics vehicle to transport goods to a higher goods shelf without installing a plurality of hoisting equipment such as electric hoists or motors on the goods shelf, so that the facility cost of the storage system is lower.

The invention solves the technical problems by the following technical means:

the storage system comprises a goods shelf, wherein the goods shelf comprises at least two parallel stand columns, the goods shelf is provided with a plurality of horizontally arranged goods storage platforms from top to bottom in parallel, a threaded through hole is formed in each stand column along the axial direction of the stand column, each stand column is also provided with a long and narrow opening extending upwards along the axial direction of the stand column, the opening is communicated with the threaded through hole, and the width of the opening is smaller than the diameter of the threaded through hole; the threaded through hole can be in threaded fit with the screw; the width of the opening at the bottom end of the upright post is larger than the diameter of the outer circle of the screw rod, so that the front end of the support arm and the screw rod can be inserted into the threaded through hole of the upright post.

Furthermore, two sides of the opening at the bottom end of the upright post are respectively provided with a guide plate, and the distance between the two guide plates is gradually increased in the direction away from the opening.

Further, still include the host computer, the goods shelves are located the position department between two stands of bottom and are provided with the display screen, display screen and controller respectively with the host computer between the radio signal connection.

The invention has the beneficial effects that:

1) the AGV logistics vehicle comprises a travelling mechanism and a goods tray, wherein the travelling mechanism comprises a chassis, wheels arranged at the lower part of the chassis, a steering mechanism for driving the wheels to steer and a first motor for driving the wheels to rotate, and a conveying belt, a driving wheel, a driven wheel and a driving device for driving the driving wheel to rotate are arranged on the goods tray. The lifting mechanism is arranged on the AGV logistics vehicle, and the AGV logistics vehicle can be lifted to any height of the goods shelf along the goods shelf upright post through the lifting mechanism, so that the lifting mechanism is not required to be arranged on each goods shelf, and the technical problem that the height of the goods shelf is limited in the existing storage system adopting the AGV logistics vehicle is effectively solved.

2) The warehousing system comprises a goods shelf, wherein the goods shelf comprises at least two parallel stand columns, a plurality of horizontally arranged goods storage platforms are arranged on the goods shelf in parallel from top to bottom, and a threaded through hole is formed in each stand column in the axial direction of the stand column. The storage system can be matched with an AGV logistics vehicle for use, goods can be conveyed to a higher goods shelf, and a plurality of hoisting devices such as electric hoists or motors do not need to be arranged on the goods shelf, so that the facility cost of the storage system is lower.

Drawings

The invention is further described below with reference to the figures and examples.

FIG. 1 is a schematic perspective view of an AGV logistics vehicle and a warehousing system according to the present invention;

FIG. 2 is a schematic perspective view of the AGV logistics vehicle of the present invention combined with a warehousing system, showing the AGV logistics vehicle moving to the middle of the shelf;

FIG. 3 is a schematic diagram of an AGV logistics vehicle, wherein the transport rack is omitted;

FIG. 4 is a schematic diagram of an AGV logistics vehicle with the transport rack raised.

Detailed Description

The invention will be described in detail below with reference to the following drawings:

embodiment 1 AGV commodity circulation car

As shown in fig. 1-4: the AGV logistics vehicle comprises a travelling mechanism 1 and a goods tray 2, wherein the travelling mechanism 1 comprises a chassis 11, wheels 12 arranged at the lower part of the chassis 11, a steering mechanism for driving the wheels to steer and a first motor for driving the wheels to rotate, and the wheel steering mechanism is a mature technology at present, so that the AGV logistics vehicle disclosed by the invention can be used by adopting the existing steering mechanism, a conveying belt 21, a driving wheel, a driven wheel and a driving device 22 for driving the driving wheel to rotate are arranged on the goods tray 2, the conveying belt is sleeved on the driving wheel and the driven wheel, the width of the conveying belt is substantially the same as that of the goods tray, and a carrier roller 23 is arranged on the goods tray 2 and positioned at the back of the conveying belt; the side symmetry of running gear 1 is provided with two hoist mechanism, hoist mechanism includes support arm 31 and second motor 32, the side symmetry of running gear 1 is provided with two support arms 31, and the tip of every support arm is provided with the through-hole 33 of the vertical setting of axial, be provided with pivot 34 in the through-hole, the top of pivot is coaxial to be provided with a screw rod 35, the bottom of pivot is provided with a cassette 36 that prevents that the pivot from deviating from the through-hole, the bottom of cassette is provided with universal drive shaft 37, universal drive shaft's the other end and second motor 32's power take off shaft are connected, through second motor and universal drive shaft can drive pivot and screw rod and rotate simultaneously. Specifically, a distance of 2-10cm is reserved between the clamping seat and the bottom of the through hole, so that the rotating shaft can move upwards for a certain distance along the through hole. The device is characterized in that a controller is arranged on the chassis 11, radars and cameras are further arranged on the periphery of the chassis, the controller is respectively connected with the radars, the first motor, the second motor, the steering mechanism, the driving device and the cameras, the radars are used for detecting obstacles, and the cameras are used for identifying goods and identifying marks on the goods shelf, so that the goods can be transported to the designated goods shelf.

Example 2 warehousing System

As shown in fig. 1-4: the storage system comprises a goods shelf 4, wherein the goods shelf 4 comprises at least two upright posts 41 which are arranged in parallel, the distance between every two adjacent upright posts is equal to the distance between two screws on an AGV logistics vehicle, the goods shelf is provided with a plurality of horizontally arranged goods storage platforms 42 in parallel from top to bottom, a threaded through hole 43 is arranged in each upright post along the axial direction of the upright post, each upright post is also provided with a long and narrow opening 44 which extends upwards along the axial direction of the upright post, the opening is communicated with the threaded through hole, and the width of the opening is smaller than the diameter of the threaded through hole; the threaded through hole can be in threaded fit with the screw; the width of the opening at the bottom end of the upright post is larger than the diameter of the outer circle of the screw rod, so that the front end of the support arm and the screw rod can be inserted into the threaded through hole of the upright post. Specifically, two sides of the opening at the bottom end of the upright post are respectively provided with a guide plate 45, and the distance between the two guide plates is gradually increased in the direction away from the opening. Still include the host computer, goods shelves 4 are located the position department between two stands of bottom and are provided with the display screen, wireless signal is connected between display screen and the host computer, wireless signal is connected between controller and the host computer.

The principle of the cooperation work of the AGV logistics vehicle and the storage system comprises the following steps:

firstly, an AGV logistics vehicle transports goods to the vicinity of a specified goods shelf, the opening position of a goods shelf upright post is identified through a camera on the AGV logistics vehicle, and a controller is used for controlling a travelling mechanism, so that two supporting arms arranged on the side surface of the travelling mechanism can be simultaneously inserted into openings at the bottom ends of two upright posts; the second motor is started, the rotating shaft and the screw rod are driven to rotate synchronously through the second motor, under the matching of the screw rod and the opening internal thread, the rotating shaft and the screw rod are firstly moved upwards for a distance to enable the top of the screw rod to be screwed into the position where the opening wide opening is smaller than the outer diameter of the screw rod, at the moment, the clamping seat is contacted with the bottom of the through hole, under the continuous driving of the second motor, the screw rod drives the supporting arm and the AGV logistics vehicle body to move upwards along the stand synchronously until the designated height position of the goods shelf is reached, then the driving device is started, and the goods are conveyed to the goods storage platform of the goods shelf through. The AGV logistics vehicle disclosed by the invention has the advantages that through the cooperation of the unique travelling mechanism and the storage system, the height limit of a goods shelf is broken through, and the utilization rate of the storage space is greatly increased.

As a further improvement of the above technical solution, a conveying frame 46 is arranged at one end of the goods tray 2 on the same side as the supporting arm, one end of the conveying frame is hinged with the goods tray 2, the other end of the conveying frame is a free end, a plurality of conveying rollers 48 are arranged on the conveying frame in parallel, preferably, a chain wheel is arranged at the end of each conveying roller, and the chain wheel is connected with the driven wheel through a conveying chain, so that the driven wheel can drive the conveying rollers to rotate simultaneously when rotating; the device further comprises an electromagnetic telescopic cylinder 47, one end of the electromagnetic telescopic cylinder is hinged with the chassis 11, and the other end of the electromagnetic telescopic cylinder is hinged with the conveying frame. When conveying goods to the goods storage platform through the conveyer belt, if leave the certain distance between conveyer belt tip and the goods storage platform edge, can drive the conveying frame and upwards lift up, thereby play the effect of linking up distance between conveyer belt tip and the goods storage platform edge, the preferred method is, promote the height that is higher than goods storage platform surface with the height of conveyer belt earlier, then lift up the conveying frame again, the conveying that moves down at last is waited for with the automobile body, make the outside end overlap joint of conveying frame on goods storage platform, the benefit of doing so can make the goods transport the middle part of goods storage platform, thereby avoid falling the emergence of problem from goods storage platform because of the goods slope.

As a further improvement of the above technical solution, an axial thrust bearing 38 is further sleeved on the rotating shaft between the clamping seat and the through hole.

Finally, the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, and all of them should be covered in the claims of the present invention.