阅读说明：本技术 一种立体巡航的运送设备 (Three-dimensional transport equipment that cruises ) 是由 肖红琳 于 2021-01-05 设计创作，主要内容包括：本发明公开了一种立体巡航的运送设备,机架的前侧竖直面设置有两个导轨以及两个齿条,运送设备本体上左右两侧分别转动连接有运送设备轮,运送设备本体上还固定有变速驱动装置,变速驱动装置与传动齿轮传动连接,机架上设置有沿竖直方向延伸的供电线,运送设备本体上设置有取电装置,取电装置的端部滑动连接在供电线上,运送设备本体上还设置有纵向限位组件；当纵向限位组件卡接在导轨上时,每个齿条分别与传动齿轮啮合传动,运送设备本体可沿导轨的竖直方向往复移动；当纵向限位组件脱离与导轨接触时,每个齿条分别与传动齿轮脱离,运送设备轮抵接在楼面的活动栈板上,且运送设备本体可沿楼面上的活动栈板水平往复移动。实现了三维路径上物料运送的一步到位。(The invention discloses a three-dimensional cruising conveying device, wherein two guide rails and two racks are arranged on the vertical surface of the front side of a rack, the left side and the right side of a conveying device body are respectively and rotatably connected with conveying device wheels, a variable speed driving device is also fixed on the conveying device body and is in transmission connection with a transmission gear, a power supply line extending along the vertical direction is arranged on the rack, a power taking device is arranged on the conveying device body, the end part of the power taking device is connected to the power supply line in a sliding manner, and a longitudinal limiting assembly is also arranged on the conveying device body; when the longitudinal limiting assembly is clamped on the guide rail, each rack is meshed with the transmission gear for transmission, and the conveying equipment body can reciprocate along the vertical direction of the guide rail; when the longitudinal limiting component is separated from being in contact with the guide rail, each rack is separated from the transmission gear, the conveying equipment wheel abuts against the movable pallet on the floor, and the conveying equipment body can horizontally reciprocate along the movable pallet on the floor. The one-step material conveying on the three-dimensional path is realized.)

1. The utility model provides a three-dimensional equipment that transports who cruises, its characterized in that includes transports equipment body, transports equipment wheel (8), frame (1), power supply line (2), guide rail (3), rack (4), drive gear, variable speed drive (5), gets electric installation (6) and vertical spacing subassembly, the vertical face in front side of frame (1) is provided with two guide rail (3) and two rack (4), transport the equipment body on the left and right sides respectively rotate be connected with transport equipment wheel (8), transport still be fixed with on the equipment body variable speed drive (5), variable speed drive (5) with drive gear transmission is connected, be provided with on frame (1) along vertical direction extension power supply line (2), transport and be provided with on the equipment body get electric installation (6), the end part of the electricity taking device (6) is connected to the power supply line (2) in a sliding mode, and the conveying equipment body is further provided with the longitudinal limiting assembly; when the longitudinal limiting assembly is clamped on the guide rail (3), each rack (4) is respectively in meshed transmission with the transmission gear, and the conveying equipment body can reciprocate along the vertical direction of the guide rail (3); when vertical spacing subassembly break away from with when guide rail (3) contact, every rack (4) respectively with drive gear breaks away from, transport equipment wheel (8) butt on movable pallet (12) of floor (13), just transport equipment body can follow movable pallet (12) horizontal reciprocating motion on floor (13).

2. The conveying equipment for the stereoscopic cruising according to claim 1, wherein the longitudinal limiting assembly comprises a fixed roller (9), a fixed arm, a movable roller (10) and a movable rotating arm (11), the fixed arm is fixed on the position of the conveying equipment body, which is positioned on the inner side of the conveying equipment wheel (8), the free end of the fixed arm is rotatably connected with the fixed roller (9), one end of the movable rotating arm (11) is hinged with the root of the fixed arm, and the other end of the movable rotating arm (11) is rotatably connected with the movable roller (10); when the movable rotating arm (11) rotates to be parallel to the fixed arm, the fixed roller (9) and the movable roller (10) are respectively connected to two sides of the guide rail (3) in a rolling mode, the fixed roller (9) and the movable roller (10) clamp the guide rail (3) together, and at the moment, the conveying equipment body can reciprocate along the vertical direction of the guide rail (3); when the movable rotating arm (11) rotates to the position where the fixed arm is vertical, the movable roller (10) is separated from the contact with the guide rail (3), at the moment, the conveying equipment body can horizontally reciprocate along the movable pallet (12) on the floor (13), and the horizontal movement of the conveying equipment body adopts a remote control and intelligent control mode.

3. The transportation equipment that three-dimensional cruising of claim 1, characterized in that still includes the protective tube, the protective tube cover is established the periphery side of power supply line (2), the protective tube is seted up vertical breach that sets up, it passes to get electric installation (6) breach sliding connection is in on power supply line (2).

4. The transportation equipment for the three-dimensional cruising according to claim 2, wherein the guide rail (3) is cylindrical, and the outer side walls of the fixed roller (9) and the movable roller (10) are provided with concave arc-shaped grooves.

5. A transport equipment as claimed in claim 4, characterized in that said fixed rollers (9) and said movable rollers (10) are identical in shape.

6. The transport apparatus for cruising at all angles as claimed in claim 1, further comprising a gear train (7), wherein said variable speed drive means (5) is drivingly connected to said drive gear through said gear train (7).

7. Transport equipment for stereoscopic cruising according to claim 1, characterized in that a plurality of said transport equipment bodies run simultaneously on said guide rail (3).

8. The transport equipment for stereoscopic cruising according to claim 1, further comprising a storage battery, wherein the storage battery is disposed in the transport equipment body and is electrically connected to the variable speed driving device (5).

9. The transportation equipment for the stereo cruising according to claim 1, further comprising a controller, a wireless transmission module and a remote controller, wherein the controller is arranged in the transportation equipment body, the controller is electrically connected with the variable speed driving device (5), and the remote controller is in wireless connection with the controller through the wireless transmission module.

10. The transport equipment for the three-dimensional cruising according to claim 9, characterized in that the floor (13) or the ground near the guide rail (3) is provided with an infrared tracing line and a section of limit track is laid, and after the transport equipment moves from a storage yard to the vicinity of the guide rail (3), the control is automatically switched to the control of an infrared tracing system, and the motion track of the transport equipment is controlled together with the limit track.

Technical Field

The invention relates to the technical field of engineering transportation, in particular to a three-dimensional cruising transportation device.

Background

In the field of engineering technology, it is often necessary to transport material from one point to another to accomplish material transfer. Conventional solutions typically follow a linear or planar trajectory. For example, a train can carry materials to linearly advance on a track, an automobile can carry the materials to move on a plane, an elevator can linearly move up and down along a guide rail, the movements are limited on a given line or a given plane, and continuous movement of the plane and a vertical three-dimensional space cannot be realized. The tower crane realizes three-dimensional space transportation of materials, but the materials cannot be transported in place in one step due to the fact that the materials need to be circulated for the inner space covered by a roof and the like. At present, no equipment well realizes three-dimensional continuous conveying of the inner space with the covering.

In production and life, material transportation is very common. Material transport in building construction is particularly frequent. At present, the vertical conveying technology in the field of building construction mainly comprises a tower crane, a construction elevator, a concrete pump truck, a cableway type material elevator and the like. Wherein, the tower crane mainly used shaped steel beam column, reinforcing bar, profiled sheet, reinforcing bar building carrier plate and construction tool with equip etc. transport.

Compared with the prior art, the most similar realization scheme is a tower crane in terms of function. But the structures are completely different. Compared with the prior art, the prior scheme which is the most similar to the invention is an elevator and a forklift, but the forklift can only operate in a plane and cannot carry vertically, and the elevator can carry vertically but cannot carry in a horizontal plane.

The tower crane has the main advantages of large lifting weight, strong bearing capacity, capability of lifting large-size components, capability of carrying out plane transportation in addition to vertical transportation, capability of flexibly completing lifting, advancing and retreating and rotating actions and realization of point-to-point material transportation. The construction elevator is mainly used for conveying small-size materials such as constructors, building blocks, bolts, tools, trolleys and the like. Its main advantage is that the technology is mature and operates stably, both can transport the material and can transport personnel. Concrete pumps are generally used only for transporting concrete. Its advantages are high power to convey fluid material, high efficiency, mature technology and simple operation. The cableway type material hoister is mainly used for vertically conveying glass curtain walls. Its advantages are low cost and high efficiency.

Because the tower crane is high, the lifting rope is long, and the aerial swing amplitude is large. Therefore, the tower crane is greatly influenced by weather and cannot operate under severe weather conditions such as strong wind, rain, snow and the like. Because of the bearing capacity limitation of the tower crane and the hanging load limitation of the lifting hook, one tower crane can only undertake one transportation task at the same time. Because the tower crane relies on the lifting rope to hoist the material, the upper portion region that material loading and uninstallation and the region that the lifting rope passes through can not have shielding thing and barrier, consequently can't directly reach the material to the upper portion has the place of sheltering from, like other floors except the top floor, the tower crane all need adopt the platform of unloading supplementary could transport the material target floor. The tower crane has long lifting arm and high tower, so the damage caused by the overturn accident is very serious, and the serious accident is often caused. Meanwhile, the conveying coverage range of the tower crane is limited within the length range of the suspension arm, the conveying capacity of materials exceeding the coverage range is zero, and the limitation is very obvious.

Because the cage of elevator can't break away from with the track, consequently can only accomplish the vertical operation of transporting in the track coverage, can't assist and accomplish the material and transport the work with the plane after going out the elevator before entering the elevator, the construction elevator can only accomplish the pure vertical task of transporting promptly, plane transport capacity is zero.

Disclosure of Invention

Therefore, the invention provides the three-dimensional cruising conveying equipment, which solves the problem of continuous conveying of materials on a plane path and a vertical path and realizes one-step in-place conveying of the materials on a three-dimensional path. Take the example of the transportation of material from the ground to the floor after the curtain wall is closed. Traditionally, materials are manually or mechanically transported from a yard to an elevator, then the materials are transported to a target floor level by the elevator, and then the materials are manually or mechanically transported to a designated location on the floor. The mode of the invention is that the material is directly transported to the designated place of the floor from the storage yard by adopting the transporting equipment, the plane section trolley independently runs, and the vertical section climbs by the guide rail.

In order to achieve the above purpose, the invention provides the following technical scheme:

according to a first aspect of the invention, the three-dimensional cruising conveying equipment comprises a conveying equipment body, conveying equipment wheels, a frame, a power supply line, a guide rail, a rack, a transmission gear, a variable speed driving device, a power taking device and a longitudinal limiting assembly, the vertical surface of the front side of the frame is provided with two guide rails and two racks, the left side and the right side of the conveying equipment body are respectively and rotatably connected with the conveying equipment wheels, the conveying equipment body is also fixed with the variable speed driving device which is in transmission connection with the transmission gear, the power supply line extending along the vertical direction is arranged on the frame, the power taking device is arranged on the conveying equipment body, the end part of the electricity taking device is connected to the power supply line in a sliding mode, and the conveying equipment body is further provided with the longitudinal limiting assembly; when the longitudinal limiting assembly is clamped on the guide rail, each rack is respectively in meshed transmission with the transmission gear, and the conveying equipment body can reciprocate along the vertical direction of the guide rail; when the longitudinal limiting component is separated from the guide rail and is in contact with the guide rail, each rack is separated from the transmission gear, the conveying equipment wheel is abutted to the movable pallet on the floor, and the conveying equipment body can horizontally reciprocate along the movable pallet on the floor.

Furthermore, the longitudinal limiting assembly comprises a fixed roller, a fixed arm, a movable roller and a movable rotating arm, the fixed arm is fixed on the conveying equipment body at the position on the inner side of the conveying equipment wheel, the free end of the fixed arm is rotatably connected with the fixed roller, one end of the movable rotating arm is hinged with the root of the fixed arm, and the other end of the movable rotating arm is rotatably connected with the movable roller; when the movable rotating arm rotates to be parallel to the fixed arm, the fixed roller and the movable roller are respectively connected to two sides of the guide rail in a rolling mode and clamp the guide rail together, and at the moment, the conveying equipment body can reciprocate along the vertical direction of the guide rail; when the movable rotating arm rotates to be vertical to the fixed arm, the movable roller is separated from the contact with the guide rail, at the moment, the conveying equipment body can horizontally reciprocate along the movable pallet on the floor, and the horizontal movement of the conveying equipment body adopts a remote control and intelligent control mode.

Further, still include the protective tube, the protective tube cover is established the periphery side of power supply line, vertical breach that sets up is seted up to the protective tube, it passes to get the electric installation the breach sliding connection be in on the power supply line.

Further, the guide rail is cylindrical, and the outer side walls of the fixed idler wheels and the movable idler wheels are provided with inwards concave arc-shaped grooves.

Further, the fixed roller and the movable roller are identical in shape.

Further, the gear box is further included, and the variable speed driving device is in transmission connection with the transmission gear through the gear box.

Further, a plurality of the conveying apparatus bodies are simultaneously operated on the guide rail.

Further, still include the battery, this internal battery that is provided with of transport equipment, the battery with variable speed drive device electricity is connected.

The conveying equipment comprises a conveying equipment body, and is characterized by further comprising a controller, a wireless transmission module and a remote controller, wherein the controller is arranged in the conveying equipment body, the controller is electrically connected with the variable speed driving device, and the remote controller is in wireless connection with the controller through the wireless transmission module.

Furthermore, an infrared tracing line is arranged on the floor or the ground near the guide rail, a section of limiting rail is laid, the conveying equipment moves from a storage yard to the position near the guide rail and then is automatically switched to be controlled by an infrared tracing system, and the infrared tracing system and the limiting rail control the movement track of the conveying equipment.

The invention has the following advantages: according to the three-dimensional cruising conveying equipment, one-step material conveying in a three-dimensional space is realized through continuous operation of vertical conveying and planar conveying; the integral covering of the floor and the ground can be realized; the wheels are driven to rotate by the trolley power system and the transmission system, so that plane transportation is realized. Vertical conveying is realized through the meshing of the rack on the guide rail and the gear on the trolley; reliable butt joint and continuous operation of plane conveying and vertical conveying are realized through a rotating device, roller attaching and automatic control technology; the guide rails are communicated with any floors capable of going through, so that the technical effect of continuous conveying of all floors without dead angles is achieved. Because the trolley can be attached to the guide rail to run and can also be detached from the guide rail to run independently, and the trolley has flexible channel coordination capacity, a plurality of trolleys can be attached to one guide rail at the same time, namely, one set of equipment can simultaneously undertake a plurality of conveying tasks, and the material conveying efficiency is obviously improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structures, ratios, sizes, and the like shown in the present specification are only used for matching with the contents disclosed in the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions that the present invention can be implemented, so that the present invention has no technical significance, and any structural modifications, changes in the ratio relationship, or adjustments of the sizes, without affecting the effects and the achievable by the present invention, should still fall within the range that the technical contents disclosed in the present invention can cover.

Fig. 1 is a top view of a transport apparatus for stereo cruising according to some embodiments of the present invention.

Fig. 2 is a top view of a stereo cruise transport apparatus according to some embodiments of the present invention.

Fig. 3 is a front view of a stereo cruise transport apparatus according to some embodiments of the present invention.

Fig. 4 is a side view of a stereo cruise transport apparatus according to some embodiments of the present invention.

In the figure: 1. the device comprises a rack, 2, a power supply line, 3, a guide rail, 4, a rack, 5, a variable speed driving device, 6, a power taking device, 7, a gear set, 8, a conveying device wheel, 9, a fixed roller, 10, a movable roller, 11, a movable rotating arm, 12, a movable pallet, 13 and a floor.

Detailed Description

The present invention is described in terms of particular embodiments, other advantages and features of the invention will become apparent to those skilled in the art from the following disclosure, and it is to be understood that the described embodiments are merely exemplary of the invention and that it is not intended to limit the invention to the particular embodiments disclosed. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 4, in an embodiment of a first aspect of the present invention, a transportation device for three-dimensional cruising includes a transportation device body, transportation device wheels 8, a frame 1, power supply lines 2, guide rails 3, racks 4, a transmission gear, a variable speed driving device 5, a power taking device 6 and a longitudinal limiting assembly, wherein two guide rails 3 and two racks 4 are arranged on a front vertical surface of the frame 1, the transportation device wheels 8 are rotatably connected to left and right sides of the transportation device body respectively, the variable speed driving device 5 is further fixed on the transportation device body, the variable speed driving device 5 is in transmission connection with the transmission gear, the power supply lines 2 extending in a vertical direction are arranged on the frame 1, the power taking device 6 is arranged on the transportation device body, an end of the power taking device 6 is slidably connected to the power supply lines 2, and the transportation device body is; when the longitudinal limiting assembly is clamped on the guide rail 3, each rack 4 is respectively in meshing transmission with the transmission gear, and the conveying equipment body can reciprocate along the vertical direction of the guide rail 3; when the longitudinal spacing assembly is separated from contact with the guide rail 3, each rack 4 is separated from the transmission gear, the conveying equipment wheel 8 abuts against the movable pallet 12 on the floor 13, and the conveying equipment body can horizontally reciprocate along the movable pallet 12 on the floor 13.

In the above embodiment, it should be noted that the ascending path of the transport equipment is as shown in fig. 4, in which the transport equipment starts to travel from the yard to the guide rail 3 through the plane, then travels upward while being attached to the guide rail 3, and after reaching a predetermined height, the transport equipment departs from the guide rail 3 and turns to the floor 13 at the height to travel. The reverse is true for the downstream path. One track can be used for a plurality of conveying equipment to run simultaneously, and can provide material for a plurality of floors simultaneously and transport.

The technical effects achieved by the above embodiment are as follows: according to the three-dimensional cruising conveying equipment, one-step material conveying in a three-dimensional space is realized through continuous operation of vertical conveying and planar conveying; the integral covering of the floor and the ground can be realized; the wheels are driven to rotate by the trolley power system and the transmission system, so that plane transportation is realized. Vertical conveying is realized through the meshing of the rack on the guide rail and the gear on the trolley; reliable butt joint and continuous operation of plane conveying and vertical conveying are realized through a rotating device, roller attaching and automatic control technology; the guide rails are communicated with any floors capable of going through, so that the technical effect of continuous conveying of all floors without dead angles is achieved. Because the trolley can be attached to the guide rail to run and can also be detached from the guide rail to run independently, and the trolley has flexible channel coordination capacity, a plurality of trolleys can be attached to one guide rail at the same time, namely, one set of equipment can simultaneously undertake a plurality of conveying tasks, and the material conveying efficiency is obviously improved.

Preferably, as shown in fig. 1 to 4, in some embodiments, the longitudinal limiting assembly includes a fixed roller 9, a fixed arm, a movable roller 10 and a movable rotating arm 11, the fixed arm is fixed on the conveying apparatus body at a position inside the conveying apparatus wheel 8, the free end of the fixed arm is rotatably connected with the fixed roller 9, one end of the movable rotating arm 11 is hinged with the root of the fixed arm, and the other end of the movable rotating arm 11 is rotatably connected with the movable roller 10; when the movable rotating arm 11 rotates to be parallel to the fixed arm, the fixed roller 9 and the movable roller 10 are respectively connected to two sides of the guide rail 3 in a rolling manner, and the fixed roller 9 and the movable roller 10 clamp the guide rail 3 together, at the moment, the conveying equipment body can reciprocate along the vertical direction of the guide rail 3; when the movable rotating arm 11 rotates to be vertical to the fixed arm, the movable roller 10 is separated from the contact with the guide rail 3, at the moment, the conveying equipment body can horizontally reciprocate along the movable pallet 12 on the floor 13, and the horizontal movement of the conveying equipment body adopts a remote control and intelligent control mode.

In the above preferred embodiment, it should be noted that the conveying equipment is attached by embracing the guide rail 3 on the rack 1 by the movable roller 10 and the fixed roller 9, the movable roller 10 is controlled intelligently, the movable roller 10 is fixed on the movable rotating arm 11, the movable rotating arm 11 can rotate relatively with the vehicle body, during the rotation, the distance between the guide rail 3 and the gear shaft of the conveying equipment is maintained, so as to ensure good fit between the conveying equipment body and the guide rail 3 during the process of rotating the conveying equipment from the planar state to the vertical state; after the conveying equipment reaches a target floor, the movable pallet 12 on the floor 13 is put down, the conveying equipment leads to the floor 13 through the movable pallet 12, and when four wheels of the conveying equipment contact the floor 13 or the movable pallet 12, the movable roller 10 is loosened, so that the conveying equipment is separated from the guide rail 3 to independently run on the floor 13, and materials are conveyed to a specified position of the floor 13; when the transport equipment completely leaves the movable pallet 12, the movable pallet 12 is automatically retracted, so that the subsequent transport equipment can pass through the transport equipment conveniently.

The beneficial effects of the preferred embodiment are as follows: through vertical spacing subassembly, the effectual vertical removal that has realized conveying equipment along guide rail 3 has still realized conveying equipment and has disengaged guide rail 3 at required position and realize horizontal motion.

Preferably, as shown in fig. 1 to 4, in some embodiments, the power supply device further includes a protection tube, the protection tube is sleeved on the outer peripheral side of the power supply line 2, the protection tube is provided with a longitudinally-arranged notch, and the power taking device 6 passes through the notch and is slidably connected to the power supply line 2.

In the above preferred embodiment, it should be noted that when the transport apparatus is vertically operated on the guide rail 3, the power supply of the variable speed drive 5 is supplied from the power supply line 2 attached to the rack 1 through the power supply device 6.

The beneficial effects of the preferred embodiment are as follows: through setting up the protective tube, realized the protection to power supply line 2, avoided power supply line 2's damage.

Preferably, as shown in fig. 1 to 4, in some embodiments, the guide rail 3 is cylindrical, and the outer sidewalls of the fixed roller 9 and the movable roller 10 are both provided with concave arc-shaped grooves.

In the above preferred embodiment, it should be noted that the cross section of the arc-shaped groove is a circular arc.

The beneficial effects of the preferred embodiment are as follows: through setting up the arc wall, increased the area of contact of fixed idler wheel 9 and movable roller 10 with guide rail 3, increased the stationarity that the conveying equipment removed.

Preferably, as shown in fig. 1 to 4, in some embodiments, the fixed roller 9 and the movable roller 10 have the same shape.

The beneficial effects of the preferred embodiment are as follows: the fixed roller 9 and the movable roller 10 are completely the same in shape, so that the universality of the fixed roller and the movable roller is improved, and the maintenance and the replacement are convenient.

Preferably, as shown in fig. 1 to 4, in some embodiments, the gear train 7 is further included, and the variable speed driving device 5 is in transmission connection with the transmission gear through the gear train 7.

The beneficial effects of the preferred embodiment are as follows: the gear set 7 on the conveying equipment is meshed with the rack 4 on the rack 1, and the variable speed driving device 5 on the conveying equipment drives the transmission gear to rotate, so that the whole vehicle is driven to move upwards.

Preferably, as shown in fig. 1 to 4, in some embodiments, a plurality of the conveyor bodies run on the guide rail 3 at the same time.

The beneficial effects of the preferred embodiment are as follows: through setting up the mode of a plurality of conveying equipment bodies on guide rail 3, showing and improving conveying efficiency.

Preferably, as shown in fig. 1 to 4, in some embodiments, the conveying equipment further comprises a storage battery, and the storage battery is arranged in the conveying equipment body and is electrically connected with the variable speed driving device 5.

In the above preferred embodiment, the transportation device is powered by an independent power source such as a battery when the floor 13 or the ground is running, and the transportation device avoids obstacles in the route by using an artificial intelligence technology when the transportation device is transported on a plane.

The beneficial effects of the preferred embodiment are as follows: through setting up the battery, strengthened the mobility of transporting equipment, improved the duration that transports equipment and remove.

Preferably, as shown in fig. 1 to 4, in some embodiments, the conveying apparatus further includes a controller, a wireless transmission module, and a remote controller, the controller is disposed in the conveying apparatus body, the controller is electrically connected to the variable speed driving device 5, and the remote controller is wirelessly connected to the controller through the wireless transmission module.

In the above preferred embodiment, it should be noted that the planar motion of the transportation device is controlled by a remote controller and is assisted by artificial intelligence technology.

The beneficial effects of the preferred embodiment are as follows: by arranging the remote controller, remote control is realized.

Preferably, as shown in fig. 1 to 4, in some embodiments, the floor 13 or the ground near the guide rail 3 is provided with an infrared tracking line and a section of limit rail is laid, and after the transport equipment moves from the storage yard to near the guide rail 3, the control is automatically switched to the control of an infrared tracking system, and the motion track of the transport equipment is controlled together with the limit rail, so as to ensure accurate alignment between the transport equipment and the guide rail 3.

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.

In the present specification, the terms "upper", "lower", "left", "right", "middle", and the like are used for clarity of description, and are not intended to limit the scope of the present invention, and changes or modifications in the relative relationship may be made without substantial changes in the technical content.