WO2020057577A1 - High-speed luggage conveying and sorting system for airport - Google Patents

Abstract

A high-speed luggage conveying and sorting system for an airport. Said system comprises a track portion, a dynamic sorting apparatus (2) and a high-speed luggage conveying tray (1), the high-speed luggage conveying tray (1) conveys luggage on the track portion, and the dynamic sorting apparatus (2) performs high-speed sorting on the luggage. The track portion comprises a straight track (3), a turning conveyor (4), at least one fast diverting conveying device (5) and at least one fast merging conveying device (6). The track portion is provided with a roller device which can be quickly assembled and disassembled. The high-speed luggage conveying and sorting system for an airport is able to achieve high-speed luggage conveying and sorting at the airport, and is able to ensure the safety and stability of luggage during conveying and tipping while keeping high-speed luggage conveying.

Description

Airport baggage high-speed transportation and sorting system Technical field

This application belongs to the field of civil aviation logistics application, and specifically relates to an airport baggage high-speed transportation and sorting system.

Background technique

Since the mid-1990s, the country's economic construction has developed rapidly, and the civil aviation transportation logistics industry has played an increasingly important role with its convenient, fast, and efficient characteristics. However, with the rapid growth of passenger and cargo throughput of our civil aviation airport, traditional luggage The sorting equipment has been unable to meet the needs of the rapid growth of luggage and luggage at the airport, often causing flight delays or cancellations, which not only increases operating costs, but also seriously affects the normal travel of passengers.

Existing patent applications in the field are as follows: Patent application number is CN201610401791.8, the application date is June 7, 2016, and the invention patent is entitled "Airport Baggage Conveyor and Method", and its technical solution is as follows: The present invention discloses An airport luggage conveying device and method. The airport luggage conveying device mainly includes: a ring plate, a flatbed truck, a plate unloading device, and a plate loading device. The airport luggage conveying method mainly includes placing luggage on a plate on the flatbed, and the luggage follows the flatbed. Moving on the ring plate, the plate unloading device and the plate adding device are used to complete the loading and unloading of the plate on the flatbed truck to achieve the purpose of transporting luggage. As another example, the application number is CN201310122762.4, the application date is April 10, 2013, and the invention patent is entitled "Electric Tipping Device of High-speed Automatic Sorting Machine for Tumbler Baggage", which provides a high-speed automatic baggage The electric tilting device of the high-speed automatic baggage sorting machine for sorting discs includes a tilting servo mechanism, a gear transmission mechanism, a guide mechanism, a tilting base and a tilting reset detection and limit protection mechanism; the tilting servo mechanism is installed on the On the tilting base, the tilting servo mechanism is connected to the gear transmission mechanism, a guide mechanism is connected to both ends of the gear transmission mechanism, and a tilting reset detection mechanism is also installed on the tilting base.

The circular track adopted in the above CN201610401791.8 patent realizes the transportation of luggage, but only the shape of the circular track is adjusted and improved. The internal structure of the track and the layout of the supporting wheels are not optimized, so that the track part is being transported at high speed. As a result, the problem of unstable baggage delivery is prone to occur. When the conveying plate in the CN201310122762.4 patent is in the state of tilting, it is controlled by the drive of the motor and the meshing between the gears. The conveying plate will not be stable enough, especially when the weight of the luggage placed on the conveying plate is heavy It is difficult to control the inclination angle of the conveying plate, and the problem of baggage spilling occurs when the luggage is tilted and conveyed.

In summary, in the existing airport transportation and sorting system, the speed of baggage transportation and sorting can no longer meet the increasing actual demand, but because the airport transportation and sorting system is not a single component, it is caused by A complete system consisting of multiple components and structures, so when a single component or structure is partially improved, it is not easy to make the entire system faster, more efficient, safer and more stable.

Summary of the Invention

In order to solve the problems in the prior art when the conveying and sorting system is used to convey baggage, its transmission speed cannot guarantee the stability of baggage conveyance under high-speed conveyance, and the problem of easy tipping during the baggage sorting process is now proposed. Airport baggage high-speed conveying and sorting system. The conveying part of the system can achieve a transmission speed of up to 10m / s, and can improve the stability of the sorting equipment in the system when it is tipped over.

The above purpose of the present application is achieved by the following technical solutions:

The airport high-speed baggage conveying and sorting system includes a track portion, a dynamic sorting device, and a high-speed baggage conveying tray. The high-speed baggage conveying tray conveys baggage on the track portion. The dynamic sorting device performs high-speed baggage sorting. The track part includes a straight track, a turning conveyor, at least one segment of a rapid diversion conveying device, and at least one segment of a rapid confluence conveying device; the track portion is provided with a supporting wheel device capable of achieving quick disassembly and assembly. Each track can be combined and stitched according to actual needs.

The dynamic sorting device includes an upper-level tilting mechanism and a tilting support base hinged to the bottom of the upper-level tilting mechanism. The upper-level tilting mechanism includes a conveying plate and a pulley assembly disposed below the conveying plate. A guide groove is provided in the width direction. The belt of the pulley assembly is at least partially placed in the guide groove, and the working surface of the belt located in the guide groove is higher than the working surface of the conveying plate. A tilt driving electric cylinder is provided below the tilt driving link, the tilt driving electric cylinder is fixedly connected to the tilt support base, and the other end of the tilt driving link is connected to the tilt driving electric cylinder The drive slider is hinged.

The guide groove includes a first guide groove and a second guide groove, and the first guide groove and the second guide groove are symmetrically disposed along a central axis of the conveying plate in the width direction. The tilting support base includes a tilting support shaft provided at an upper end and a triangular fixed seat provided at a side end. Both ends of the tilting support shaft are hinged to the tilting support base along the length direction of the tilting support base. A flange is fixed at the end of the tilting support shaft, and a support plate is provided below the conveying plate. The support plate is connected along the lengthwise side of the conveying plate. The middle portion of the support plate is fixed to the flange. Connection; the other end of the triangle fixing seat is fixedly connected with the tilt driving electric cylinder.

An upper end of the tilting driving link is hinged with a hinge assembly, and the other end of the hinged assembly is hinged with one end of the conveying plate; the hinged assembly includes a link connector hinged with the tilting drive link, and a link connector The other end of the ball joint is fixedly connected, and the ball joint main shaft is connected to the upper end of the ball joint. Both ends of the ball joint main shaft are provided with ball joint shaft holders, and the ball joint shaft holders are hinged to one end of the conveying plate. The tilting drive electric cylinder includes a casing and a driving motor disposed below the casing. A screw rod and a linear guide are arranged in the casing, and the screw rod is sleeved on the driving slider through a thread. One end of the screw rod It is connected to the output shaft of the drive motor. The two ends of the linear guide are fixed to the inner wall of the casing. The slide rail in the linear guide is fixedly connected to the drive slider. The casing is provided with a track groove along the length direction. The other end of the tilting drive link is fixedly connected to the drive slider through a track groove.

The system for quickly unloading luggage of a dynamic sorting device includes a luggage database, an RFID code reading module, a monitoring module, a management module, a communication module, an entrance control module, a multi-servo motor coordinated control module, a transport control module, and a fault processing module.

The high-speed luggage transfer tray includes separate upper and lower trays. The upper and lower trays are snap-connected to each other. The upper and lower trays are thin-walled hollow structures. The front and rear ends of the upper trays are provided with Baffle; the upper surface of the upper tray is provided with a concave concave surface to prevent luggage from being thrown out, and multiple sets of guide wheel structures are provided on both sides of the upper and lower trays, All are provided with ribs.

The upper surface of the upper tray is provided with a plurality of strip-shaped protrusions for enhancing the frictional force of the luggage. The lower surface of the upper tray is provided with a plurality of staggered ribs, and the upper surface of the lower tray is provided with a plurality of staggered ribs. Stacking notches are provided on the upper edges of the middle portions of the front and rear ends of the upper tray. The concave arc surface includes a plurality of arc surface segments, and the multiple arc surface segments are arranged adjacent to each other to form a complete concave arc surface. The front and rear ends of the upper and lower trays are provided with inclination angles, and the sides of the upper and lower trays are provided with inclination angles at both ends. The bottoms of the front and rear ends of the lower tray are provided with slots for facilitating the handling of the tray. When the pallet is transported on the conveyor track, two sides of the equipment track are provided with inner buckle sheet metal components that cooperate with the notch structure to realize the inner buckle cooperation of the pallet and the track, and ensure that the tray does not fly out of the track.

Stacking protrusions are provided in the middle of the front and rear ends of the lower tray, and the stacking slot matches the size of the stacking protrusion. The edges of the upper tray and the lower tray are provided with drainage holes communicating with each other and used for drainage. An RFID chip mounting hole is provided at the bottom of the lower tray, and an RFID chip is mounted in the RFID chip mounting hole. The friction coefficient between the luggage surface and the upper surface of the pallet is 0.25 to 0.83; the lower surface of the pallet and the upper surface of the conveyor belt are 0.5 to 0.8.

There are two solutions for the quick dismounting rollers of this application:

Solution 1 of the quick-dismounting idler device includes a idler, a bearing, and a idler shaft assembly. The idler is installed on the idler shaft assembly through a bearing. The idler shaft assembly includes an idler shaft expansion sleeve, which is used to snap into the idler shaft expansion sleeve and generate The expansion expansion plug is inclined from the middle to the end of the axle expansion sleeve, and the diameter of the middle portion of the axle expansion sleeve is smaller than the diameter of the end portion, and the bearing and the middle portion of the axle expansion sleeve are in an interference fit.

The axle expansion sleeve is made of PVC material. The two ends of the axle expansion sleeve are evenly provided with a plurality of slots along the length of the axle expansion sleeve. The length of the groove is adapted to the length of the expansion plug. The multiple grooves divide the two ends of the axle expansion sleeve into multiple sections. The first wedge surface; the expansion plug is made of PVC material, and the two ends of the expansion plug are provided with a plurality of grooves evenly along the length direction of the expansion plug, and the plurality of grooves divide the two ends of the expansion plug into a plurality of second wedge surfaces; One end of the tension plug is a disk opening. The tension plug is also provided with a protrusion near the disk opening. The shaft expansion sleeve is provided with grooves adapted to the protrusion near the two ends of the shaft expansion sleeve. The bearing is provided with In two groups, the central diameter of the shaft expansion sleeve is larger than the inner diameter of the bearing, and the length of the middle is matched with the distance between the two sets of bearings. One end face of the bearing is caught in the idler, and the other end face of the bearing is flush with the end face of the idler.

Solution 2 of the quick dismounting idler device: includes an outer bracket, a idler, a bearing and an axle, the idler is sleeved with a bearing, the bearing is sleeved with an expansion sleeve, and inner walls of both ends of the expansion sleeve are formed There are wedge surfaces, two of the axles are installed at one end of the expansion sleeve at one end, and the other end is connected to the outer bracket. The axle is formed with an inclined surface corresponding to the wedge surface, and one of the axles has an inner cavity. A spring is fixed, the spring is provided with a first stop claw, the inner cavity of the other axle is provided with a second stop claw, and the outer bracket is provided with an opening corresponding to the supporting wheel.

The expansion sleeve has a slit. A flexible boss is provided at an end of the wheel shaft, and the flexible boss corresponds to an outer bracket. The stop claw is a special-shaped spring. The supporting wheel and the axle are made of plastic material. A plurality of grooves are provided on the side wall of the supporting wheel, and the grooves are evenly distributed on the side wall.

The rapid diversion conveying device includes a conveying main line and a conveying branch line. The conveying branch line is arranged in parallel on the conveying main line and at a certain angle with the conveying main line. The conveying main line includes a main frame and the conveying branch line includes a subsidiary machine. Below the intersection of the main frame, the main frame and the sub-frame, there is a jacking steering mechanism for guiding articles from the main conveying line to the conveying branch line. The jacking steering mechanism includes a lifting frame, a driving device for controlling the vertical movement of the lifting frame and An in-wheel motor that controls the turning of items. An electric straight roller and a non-powered roller are provided at the transition between the auxiliary frame and the main frame.

A plurality of links are mounted on the top of the lifting frame, and a plurality of hub motors are fixed on each link. The in-wheel motor is axially parallel to the connecting rod, and the in-wheel motors on different connecting rods form a plurality of parabola corresponding to the article transmission path. A baffle is installed on the main frame and the sub-frame, and the baffle is respectively fixed on two sides of the main frame and the sub-frame through a guide rail bracket, and a guide bar is also installed on the baffle. After the jacking steering mechanism is raised, the hub motor is on the same horizontal plane as the electric straight drum and the non-powered drum. The driving device is a servo electric cylinder.

The rapid confluence conveying device includes a conveying main line and a conveying branch line, the conveying branch line is disposed on one side of the conveying main line and the conveying branch line forms an angle with the conveying main line, and the output end of the conveying branch line is connected to the conveying main line; The main conveying line includes a main frame, and the conveying branch line includes a sub frame. The main frame and the sub frame are each equipped with an electric drum. The sub frame is also located at the junction of the sub frame and the main frame to guide the cargo. Steer to the taper drum of the main frame.

The tapered electric drum is disposed obliquely along a side facing the main frame. A non-powered taper roller is also installed at the connecting portion between the auxiliary frame and the main frame. Unpowered rollers are also installed on the main and sub frames. The main frame and the sub-frame are also installed with bezels, and guide bars are installed on the bezels.

The straight track includes a track A, a track B, a tray, and an upper carrier. The track A and the track B are connected by a cross beam. The upper carrier includes a carrier A and a carrier B. The track A is arranged on the track A. A plurality of supporting wheels A, a plurality of supporting wheels B are arranged on the track B, the supporting wheels A and B are arranged in a cross, a tray is placed on the upper supporting wheels, and the length of the tray is L, and the supporting wheels The wheel pitch is X. Baggage is placed in the pallet, the weight of the pallet is GT, the weight of the luggage is GB, the range value of L is 1200-1350mm, the range value of X is 285-350mm, and the range of GB The value is 2 to 50 kg, and the range of the GT is 30 to 45 kg.

The two ends of the beam are connected to the track A and the track B by bolts, respectively. A plurality of lower idlers are provided below the upper idler, a conveyor belt is wound around the upper idler and the lower idler, and two ends of the conveyor belt are covered with a pulley, and a rotating shaft is fixed on the pulley, and A motor is connected to the rotating shaft. The motor is an asynchronous motor.

The turning conveyor includes a frame, and the inside of the frame is provided with a plurality of sets of inner wheels. The inner wheels are connected with an outer wheel and an adjacent wheel through a connecting shaft. The adjacent wheels are connected by a flexible triangle belt. The power source on the frame is driven to rotate, the wheel diameter of the outer wheel is larger than the wheel diameter of the inner wheel, and the top of the outer wheel and the inner wheel are at the same height.

The outside wheel diameter is 10% larger than the inside wheel diameter. A tensioning wheel is also provided between two sets of adjacent wheels on the frame, and the tensioning wheel is fixed on the frame through bearings. The power source is a drive motor. A reducer is connected to the output end of the drive motor. The reducer is connected to the inner wheel through a timing belt. The drive motor and the reducer are fixed on the frame. Both the inner and outer wheels are rubber wheels. The upper surface of the frame is provided with a cover plate, and the cover plate is slotted at the inner wheel and the outer wheel so that the inner wheel and the outer wheel are partially exposed and rotated. The frame is also provided with nylon strip baffles on both sides of the cover plate.

Compared with the prior art, this application has the following beneficial effects:

1. This application can realize the high-speed transportation and sorting of baggage at the airport, re-arrange the entire system, and adjust the structure of the conveying components and tipping components in the system, so the entire system can transport luggage at a speed of up to 10m / s. And the stability of the baggage sorting part in the system during tipping is improved. The entire system can ensure the safety and stability of baggage transportation and tipping under the premise that the baggage is maintained at high speed.

2. The luggage is placed on the conveyor plate, and the belt is driven by the pulley assembly placed below the conveyor plate. Since the belt is placed in the guide groove and the belt is slightly higher than the level of the conveyor plate, the luggage can be realized on the conveyor plate At the same time, one end of the conveying plate is hinged with a tilting driving link. The tilting driving link can control the tilting angle of the conveying plate under the driving control of the tilting driving electric cylinder. Powered by a motor and a ball screw, it achieves a stable state of motion when the tilting driving link moves, and at the same time supports the state when the entire conveying plate is tilted, thereby realizing that the conveying plate with luggage is tilted. Stable and reliable.

3. The high-speed baggage transfer tray of this application can be transported at high speeds at turns and up / down slopes, and to avoid damage to the baggage, separation of the baggage from the high-speed baggage tray, or the separation of baggage from the standard airline baggage tray; In the case of a power failure of the high-speed luggage conveying and sorting system, the high-speed luggage conveying tray can be self-starting and obtain power-driven movement on the track / conveyor of the high-speed luggage conveying and sorting system without the assistance of personnel. . And the tray has side guide wheels, which can correct the deviation during the conveying process, and reduce the friction and impact noise between the tray and the side guard; the bottom is more wear-resistant and can adapt to long-term running at high speed; the tray will not be on the sorting equipment. There is a risk of overturning or even getting off track.

4. The strip-shaped protrusions of the present application can enhance the friction of the upper surface of the tray, and the plurality of reinforcing ribs provided in the upper tray and the lower tray can make the overall strength of the upper tray and the lower tray. The multiple curved surfaces form an inclination structure to prevent luggage from flying out of the tray. The inclination and chamfer are set around the pallet. This is because the tracks are connected in sections. There is a gap between the segments or the height difference between the segments. The inclination or chamfer can avoid the connected pallets. The mutual influence makes the conveying of the pallet more smooth. The side guide wheels ensure that there is no jamming during the operation, and the matching structure with the side cover of the track is increased, especially in the high-speed conveying section, so that the pallet cannot fly out of the conveying track even if the pallet is stuck in time. Stacking notches and stacking protrusions make it easier to take and place trays during stacking. The setting of the transport slot is convenient for transporting the pallet by transport equipment or manually.

5. The advantage of the quick disassembly and assembly of the idler device in the present application is that by providing a removable idler shaft assembly, the axle expansion sleeve is tightened in the process of being inserted into a bearing, the end of the axle expansion sleeve is tightened, and then the middle of the axle expansion sleeve is tightened. It has a small interference with the bearing in terms of size. The side of the bearing's inner ring near the edge of the supporting roller is in contact with the inclined surface of the axle expansion sleeve, which enhances the closeness between the axle expansion sleeve and the bearing. The expansion of the axle expansion sleeve produces expansion, on the one hand, it strengthens the tightness between the expansion plug and the axle expansion sleeve, and on the other hand, the tightening plug further improves the tightness between the axle expansion sleeve and the bearing, thus ensuring the supporting wheel. Better stability during operation.

6. The second advantage of the quick disassembly and assembly of the supporting roller device in this application is that the first and second stoppers are pulled inwardly by the spring, so that the two wheels at both ends of the expansion sleeve exert axial pressure inward. The oblique surface applies two forces to the wedge surface of the expansion sleeve, one is the horizontal pressure of the expansion sleeve inward, and the other is the pressure of the expansion sleeve vertically outward. The inclined surface of the wheel shaft will be tightened and open the expansion sleeve. The axial direction of the wheel clamps the expansion sleeve horizontally inward, and on the other hand, tightens the expansion sleeve vertically outwards, so as to fix the expansion sleeve and the axle, which plays a role of fastening, ensuring that the supporting wheel can be firmly maintained in the design position, and runs quietly and smoothly. When released, the second stopper is released from the spring, and the inward pressure disappears, causing the axle and the expansion sleeve to slacken. Quickly remove the axle to ensure easy assembly and disassembly, and replace parts. Quick replacement, convenient maintenance, shortening the repair time. When hundreds or thousands of supporting rollers on the conveyor line need to be replaced, the loading and unloading is fast and simple, ensuring that the conveying equipment resumes operation as soon as possible, and at the same time, the distance between the supporting rollers and the timing belt can be changed. Make a photo For pure rolling, the supporting roller group can reduce the friction of the system, thereby reducing the energy consumption of the system, protecting key components from abrasion, and prolonging the service life of the equipment.

7. The rapid diversion conveying device in the present application includes a conveying main line and a conveying branch line. The conveying branch line is arranged in parallel on the conveying main line and forms a certain angle with the conveying main line. The conveying main line includes a main frame and the conveying branch line. Including the sub-frame, the junction of the main frame and the sub-frame is provided with a jacking steering mechanism for guiding articles from the main conveying line to the conveying branch line. Through the above structure, the jacking steering mechanism under the main frame can guide the goods transported on the main conveying line to the high-speed and efficient transfer to the transport branch line, so as to achieve the purpose of distributing articles. It has the advantages of simple structure, stable transportation, and high diversion efficiency. The jacking steering mechanism below the main frame is provided with a hub motor, and the auxiliary frame is provided with an electric straight roller. The two cooperate with each other, which is different from the uncontrollable steering powerless guide roller in the prior art, which can provide materials for high-speed transportation. Greater steering force, thus increasing the probability of successful material turning, thereby improving the efficiency of material transportation, strong practicability, and meeting the needs of practical work.

8. In the present application, the fast-merge conveying device is driven by electric drums on the main frame and the sub-frame to drive the goods at high speed. The goods and pallets running at high speed on the transport branch line are guided to the main transmission line by the tapered electric roller installed on the sub-frame, thereby reaching The purpose of converging the conveying branch line and the conveying main line. The utility model has the characteristics of simple structure and fast merging speed, and solves the problems of complicated structure and low merging efficiency of the existing merging and conveying equipment. It is easy to achieve the effect of fast turning of the goods, so as to guide the goods to the main frame more quickly. Can assist the taper roller to guide the goods. It can assist the electric drum to convey goods. Baffles and guides can prevent the cargo from falling, and can also guide the direction of the cargo.

9. The length of the pallet is L, and the distance between the pallets is X. The straight track of this application is installed with high-precision cooperation. The luggage is placed in the pallet at will, so that all the pallets at the bottom of the pallet are balanced and operated. It is stable, the parts are consumed slowly, the life of the equipment is increased, and the production cost is reduced. Due to the stable operation, the noise is small. At the same time, the supporting points of the supporting wheels under the tray are cross-supported by the cross-setting of the supporting wheels A and B. Good stability, no tilt due to uneven force, staggered support point layout, can reduce the number of supporting rollers to ensure that the overall support is not reduced. On the one hand, reducing the number of supporting rollers, reducing costs and construction volume, and more importantly, Make the pallet run more smoothly, increase the equipment life, and improve the reliability of luggage transportation. Through the direct cooperation of the weight of the luggage, the length of the pallet, and the distance between the pallets, for a corresponding weight of luggage, there are a sufficient number of pallets to support the bottom of the pallet, which increases the smoothness of equipment operation, reduces the loss of parts, and reduces costs. Bolted for easy disassembly and transportation. The rollers are powered by the motor to make the equipment run smoothly.

10. The turning conveyor of the present application is provided with a plurality of sets of inner wheels, outer wheels, and adjacent wheels penetratingly connected by a connecting shaft, which ensures that the rotation of the inner wheels and the outer wheels is consistent; in addition, the outer wheel diameter is greater than Inner wheel diameter. During the process of placing the tray on the outer wheel and the inner wheel, the inner wheel and outer wheel run coaxially. The inner wheel rotates one turn to make the inner distance of the tray smaller than the outer wheel to make one turn. The distance traveled on the outside, so that the turning of the tray is better achieved, and the occurrence of deviations due to the uncoordinated running of the inside and outside of the tray is avoided. The overall structure of the application is better, and the tray can run at high speed and smoothly, which greatly improves the operation efficiency of the tray conveyance.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic diagram of the overall structure of the present application.

FIG. 2 is a schematic diagram of the overall structure of a sorting device of the present application.

FIG. 3 is a schematic structural diagram of a tilt support base of the present application.

FIG. 4 is a schematic structural diagram of a tilting driving link of the present application.

FIG. 5 is a schematic diagram of the internal structure of the tilt drive electric cylinder of the present application.

FIG. 6 is a timing chart of the entire operation of the tilting mechanism of the present application.

FIG. 7 is a schematic structural diagram of a high-speed luggage transfer tray of the present application.

FIG. 8 is a left side view of the luggage high-speed transportation tray of the present application.

FIG. 9 is a top view of the luggage high-speed transportation tray of the present application.

FIG. 10 is a bottom view of the luggage high-speed transport tray of the present application.

FIG. 11 is a front view of the high-speed luggage transfer tray of the present application.

FIG. 12 is an exploded view of a high-speed luggage transfer tray of the present application.

FIG. 13 is a schematic structural diagram of a bar-shaped protrusion provided on the upper tray of the high-speed luggage transfer tray of the present application.

FIG. 14 is a schematic diagram of the overall structure and assembly of the quick dismounting roller device scheme of the present application.

FIG. 15 is a schematic structural diagram of a middle-wheel axle expansion sleeve of the first quick-disassembly and assembly method of the supporting roller device of the present application.

FIG. 16 is a schematic structural diagram of a tightening plug in the first solution of a quick-disassembly and loading roller device of the present application.

FIG. 17 is a schematic structural diagram of the second solution of the quick disassembly and assembly of the idler device.

FIG. 18 is a schematic structural diagram of components in the second solution of the quick dismounting roller device of the present application.

FIG. 19 is a schematic cross-sectional structure diagram of the second solution of the quick dismounting roller device of the present application.

FIG. 20 is a schematic perspective view of the second embodiment of the second embodiment of the quick dismounting roller device.

FIG. 21 is a top view of the structure of the rapid diversion conveying device of the present application.

FIG. 22 is a side view of the rapid diversion conveying device of the present application.

FIG. 23 is a front view of the rapid diversion conveying device of the present application.

FIG. 24 is a top view of the rapid confluence conveying device of the present application.

FIG. 25 is a front view of the rapid confluence conveying device of the present application.

FIG. 26 is a side view of the rapid confluence conveying device of the present application.

FIG. 27 is a schematic diagram of a straight track structure of the present application.

FIG. 28 is a schematic perspective view of a straight track of the present application.

FIG. 29 is a schematic structural view at I in FIG. 27.

FIG. 30 is a schematic structural diagram of a turning conveyor of the present application.

Fig. 31 is a schematic cross-sectional structure view taken along the line A-A of the turning conveyor of the present application.

In the drawings: 1-high-speed baggage conveying tray, 2-dynamic sorting equipment, 3-straight rail, 4-turn conveyor, 5-rapid diverting conveying device, 6-rapid confluent conveying device.

101-upper tilt mechanism, 102-tilt support base, 103-conveyor plate, 104-pulley assembly, 105-guide groove, 106-belt, 107-tilt drive link, 108-tilt drive electric cylinder, 109 -Drive slider, 110-first guide groove, 111-second guide groove, 112-tilt support shaft, 113-triangular mount, 114-flange, 115-support plate, 116-hinge assembly, 117-connector Rod connector, 118-ball joint, 119-ball joint spindle, 120-ball joint shaft bracket, 121-chassis, 122-drive motor, 123-screw rod, 124-linear guide, 126-track groove.

201-up tray, 202-down tray, 203-baffle; 204-inner curved surface, 205-guide wheel structure, 206-stacking notch, 207-inclination, 208-notch, 209-stacking protrusion, 210 -Strip-shaped protrusions, 211-drain hole, 212-RFID chip mounting hole, 213-RFID chip.

301-roller, 302-bearing, 303-roller axle assembly, 3031-axle expansion sleeve, 30311-first wedge surface, 30312-groove, 3032-tension plug, 30321-second wedge surface, 30322-projection , 30323-handicap.

401-outer bracket, 402-supporting wheel, 403-bearing, 404-expanding sleeve, 405-axle, 406-spring, 407-first stop claw, 408-opening, 409-wedge, 410-slope, 411- Seam, 412-second stop claw.

501-main line unit, 50100-main rack, 50101-connecting shaft, 50102-guard rail, 502-branch line unit, 50200-electric straight roller, 50201-unpowered roller, 503-lifting mechanism unit, 50300- Lifting frame, 50301-servo electric cylinder, 50302-unpowered roller, 50303-hub motor, 504-protection zone.

601-conveying main line, 602-conveying branch line, 603-main frame, 604-sub frame, 605-electric drum, 606-taper electric drum, 607-unpowered taper drum, 608-unpowered drum, 609-baffle, 610-Guide.

701-track A, 702-track B, 703-pallet, 704-upper carrier, 705-supporter A, 706-supporter B, 707-transom, 708-conveyor belt, 709-pulley, 710-rotary shaft, 711-motor, 712-lower supporting wheel, 713-luggage.

801-frame, 802-power source, 803-reducer, 804-inside wheel, 805-outside wheel, 806-adjacent wheel, 807-tensioning wheel.

detailed description

In order to make the objectives, technical solutions, and advantages of the present invention clearer, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are only used to explain the present invention and are not intended to limit the present invention.

The airport high-speed baggage conveying and sorting system includes a track part, a dynamic sorting device 2 and a baggage high-speed conveying tray 1 for conveying baggage on the track part. The dynamic sorting device 2 carries out luggage High-speed sorting; the track part includes a straight track 3, a turning conveyor 4, at least one section of the rapid diversion conveying device 5, and at least one section of the rapid confluence conveying device 6; the track part is provided with a bracket capable of rapid disassembly and assembly.轮 装置。 Wheel device. Each track can be combined and stitched according to actual needs.

The dynamic sorting device 2 includes an upper tilting mechanism 101 and a tilting support base 102 hinged to the bottom of the upper tilting mechanism 101. The upper tilting mechanism 101 includes a conveying plate 103 and a pulley assembly 104 disposed below the conveying plate 103. The conveying plate 103 is provided with a guide groove 105 in the width direction. The belt 106 of the pulley assembly 104 is at least partially placed in the guide groove. The working surface of the belt 106 in the guide groove 105 is higher than the working surface of the conveying plate 103. A tilting drive link 107 is hinged to one end of the conveying plate 103, and a tilting drive electric cylinder 108 is disposed below the tilting drive link 107. The tilting drive electric cylinder 108 and the tilting support base 102 Fixedly connected, the other end of the tipping drive link 107 is hinged with the driving slider 109 in the tipping drive electric cylinder 108; luggage is placed on the conveying plate 103 through a pulley assembly placed below the conveying plate 103 104 drives the leather 6 to move. Because the belt 106 is placed in the guide groove 105 and the belt 106 is slightly higher than the horizontal level of the conveying plate 103, the luggage can be conveyed on the conveying plate 103. At the same time, one end of the conveying plate 103 is hinged and tilted. turn Under the driving control of the tilting driving electric cylinder 108, the tilting driving link 107 can realize the control of the tilting angle of the conveying plate 103. Since the tilting driving electric cylinder 108 is driven by the driving motor 122 and the screw 123, For power transmission, the tipping drive link 107 has a stable motion state when it moves, and at the same time supports the state when the entire conveying plate 103 is inclined, thereby realizing that the conveying plate 103 with luggage is stable and reliable when it is overturned.

Preferably, the guide groove 105 includes a first guide groove 110 and a second guide groove 111, and the first guide groove 110 and the second guide groove 111 are symmetrically disposed along a central axis of the width direction of the conveying plate 103; A guide groove 110 and a second guide groove 111 are beneficial to the uniform load force of the luggage during transportation, and achieve better and smooth transportation.

Preferably, the tipping support base 102 includes a tipping support shaft 112 provided at an upper end and a triangular fixing base 113 provided at a side end. Both ends of the tipping support shaft 112 are along the length direction of the tipping support base 102 and The tilting support base 102 is hinged. The ends of the tilting support shaft 112 are fixedly provided with a flange 114. A support plate 115 is provided below the conveying plate 103. The support plate 115 extends along the length of the conveying plate 103. Side connection, the middle of the support plate 115 is fixedly connected to the flange 114; the other end of the triangular fixing base 113 is fixedly connected to the tilt drive electric cylinder 108; and the other end of the triangular fixing base 113 is tilted The flip driving electric cylinder 108 is fixedly connected to ensure the overall stability of the force-receiving component tilt driving electric cylinder 108.

Preferably, an upper end of the tilt drive link 107 is hinged with a hinge assembly 116, and the other end of the hinge assembly 116 is hinged with one end of the conveying plate 103; the hinge assembly 116 includes a hinged connection with the tilt drive link 107. A rod connector 117 and a ball joint 118 fixedly connected to the other end of the link connector 117. A ball joint main shaft 119 is connected to an upper end of the ball joint 118, and ball joint shafts are provided at both ends of the ball joint main shaft 119. 120, the ball joint shaft holder 120 is hinged to one end of the conveying plate 103; the hinge assembly 116 is provided to make the hinge of the tilting driving link 107 and the conveying plate 103 have better freedom and stability.

Preferably, the tilt driving electric cylinder 108 includes a casing 121 and a driving motor 122 disposed below the casing 121. A screw rod 123 and a linear guide 124 are provided in the casing 121, and the screw rod 123 is threaded. It is sleeved on the driving slider 109, one end of the screw 123 is connected to the output shaft of the driving motor 122, two ends of the linear guide 124 are fixed to the inner wall of the casing 121, and the slide rail and the driving slider in the linear guide 124 109 is fixedly connected, the casing 121 is provided with a track groove 126 along the length of the casing 121, and the other end of the tilting driving link 107 is fixedly connected to the driving slider 109 through the track groove 126; the tilting driving electric cylinder 108 During the control of the screw 123 by the motor, the screw 123 drives the drive slider 109 to move along the length of the casing 121. Due to the stable locking performance of the screw 123, the tilting drive link 107 is driven to drive the conveying plate. 103 stability when tilted.

The system for quickly unloading luggage of the dynamic sorting device 2 includes a luggage database, an RFID code reading module, a monitoring module, a management module, a communication module, an entrance control module, a multi-servo motor coordinated control module, a transport control module, and a fault processing module. .

(1) The baggage database contains contents such as baggage destination information, route information, and routing information. It mainly provides data support for the control system to perform control tasks.

(2) The RFID code reading module is used for the automatic identification of pallet information, and implements task allocation by communicating with the database.

(3) The monitoring module runs the monitoring program to monitor and control the entire control process.

(4) The management module runs a management program to achieve management of the entire system.

(5) The entrance control module controls the input end of the entire system to ensure the continuous and stable supply of the entrance to the system.

(6) The multi-servo motor coordinated control module realizes the linkage control, monitoring and fault diagnosis of all tilting mechanisms, which is the core module of the system.

(7) The transportation control module provides stability of the luggage transportation speed inside the system.

(8) The fault processing module realizes the self-diagnosis and recovery of the system in the fault mode.

The method for quickly unloading luggage in the dynamic sorting device 2 includes the following steps:

(1) Power-on self-test and reset of the system. After the system is powered on, the entire system performs a self-test to ensure that the modules and institutions are normal and available. Reset the tilting units to a horizontal position and correct the position data. Start work and control the speed at a predetermined level;

(2) The entrance control module works. When baggage reaches the system entrance, it first performs RFID tag identification on the baggage carrying tray and exchanges content with the database. The management module sends out the final control signal. There are two ways to handle the baggage. The first is not to unload, and the second is to unload; A201, the baggage that is not unloaded is directly controlled by the conveyor module, and A202, the baggage that needs to be unloaded is transferred by the conveyor module, and the multi-servo motor control module performs the sequence Offload control

(3) After the first baggage enters the system, the entrance control module monitors the subsequent baggage entry in real time and sends the second baggage into the system within a predetermined time;

(4) The subsequent conveyance module and multi-servo motor control module work together to achieve continuous, stable and efficient unloading of luggage.

In the picture

Indicates the pallet, and the state of the tipping unit is illustrated in the figure. The horizontal axis is 1 to 10, a total of 10 tilting mechanism units, and the conveying direction is from 1 to 10. The vertical axis is the sequence of the action process. Each increase of 1 in the serial number indicates that the tray has moved forward a distance of the width of the tilting unit. The 10 units of the system have the same width, L1, and the gap between the units is small and can be ignored. The distance between the sensor installation position and the end of the unit is L4. The conveying module's conveying speed is stable at V1, the length of the luggage carrying container is L2, and the distance between the containers is L3. The dumping action time of the unloading mechanism is T1 and the return time is T2. The efficiency is P. Then there is the following relationship: (2 × L1) / V1>T1; L3 / V1> ((2 × L1) / V1 + T2); P = 3600 × V1 / (L2 + L3) where L1 and L2 are in mechanical design Already fixed. L4 = 3 × L1-L2. T1 and T2 are the stable working ability of the servo motor in the rated range. A range can be determined through debugging. The entire travel time is about 400ms, including acceleration time of 100ms, maximum speed running time of 200ms, and deceleration time of about 100ms. To this end, the system needs to choose the appropriate V1 and L3 according to the efficiency to achieve the maximum capacity while ensuring the workability and stability of the system. At the same time, according to the needs of the system, V1 and L3 will be adjusted dynamically during the control process.

After selecting according to the above, the control response time of the system is required to meet the requirements within 10 ms. In this system, the control software is dedicated and the program is optimized to maximize the control requirements.

The high-speed luggage transfer tray 1 includes an independent upper tray 201 and a lower tray 202, which are snap-connected to each other. The upper tray 201 and the lower tray 202 are thin-walled hollow structures, and the upper tray Front and rear ends of 201 are provided with baffles 203; the upper surface of the upper tray 201 is provided with a concave concave surface 204 to prevent luggage from being thrown out, and both sides of the upper tray 201 and the lower tray 202 are provided with multiple The group of guide wheel structures 205 is provided with reinforcing ribs on the upper tray 201 and the lower tray 202.

A plurality of strip-shaped protrusions 210 are provided on the upper surface of the upper tray 201 to enhance the frictional force of the luggage.

The lower surface of the upper tray 201 is provided with a plurality of staggered ribs, and the upper surface of the lower tray 202 is provided with a plurality of staggered ribs.

A stacking slot 206 is provided on an upper edge of a middle portion of the front and rear baffles 203 of the upper tray 201.

The concave curved surface 204 includes a plurality of curved surface segments, and the plurality of curved surface segments are arranged adjacent to each other to form a complete concave curved surface 204.

The front and rear ends of the upper tray 201 and the lower tray 202 are each provided with an inclination angle 207, and the sides of the upper tray 201 and the lower tray 202 are provided with an inclination angle 207.

The bottoms of the front and rear ends of the lower tray 202 are provided with slots 208 for convenient tray transportation. When the pallet is conveyed on the conveyor belt track, internal buckle sheet metal components that are structurally matched with the notch 208 are provided on both sides of the equipment track to achieve the internal buckle cooperation of the pallet and the track, ensuring that the pallet does not fly off the track.

Stacking protrusions 209 are provided in the middle of the front and rear ends of the lower tray 202, and the size of the stacking notches 206 matches the size of the stacking protrusions 209.

The edges of the upper tray 201 and the lower tray 202 are provided with drainage holes 211 communicating with each other and used for drainage.

An RFID chip mounting hole 212 is provided at the bottom of the lower tray 202, and an RFID chip 213 is mounted in the RFID chip mounting hole 212.

The friction coefficient between the luggage surface and the upper surface of the pallet is 0.25 to 0.83; the lower surface of the pallet and the upper surface of the conveyor belt are 0.5 to 0.8.

The high-speed luggage transfer tray 1 can be transported at high speeds at turns and up / down slopes, and avoids damage to luggage, separation of luggage from the high-speed luggage transfer tray 1, or the separation of luggage from standard airline luggage trays. In the event of a power failure in the conveying and sorting system, the high-speed baggage conveying tray 1 can be self-started and obtain power-driven movement on the rails / conveyors of the high-speed baggage conveying and sorting system without the assistance of personnel. And the tray has side guide wheels, which can correct the deviation during the conveying process, and reduce the friction and impact noise between the tray and the side guard; the bottom is more wear-resistant and can adapt to long-term running at high speed; on the sorting equipment, the tray 201 is not There is a risk of overturning or even getting off track.

The strip-shaped protrusion 210 of the present application can enhance the frictional force on the upper surface of the tray, and the plurality of reinforcing ribs provided in the upper tray 201 and the lower tray 202 can make the overall strength of the upper tray 201 and the lower tray 202. The multiple curved surfaces form an inclination 207 structure, which can prevent luggage from flying out of the tray. At the same time, it can make the luggage sorting process smoother and reduce the impact of the luggage during the sorting process. The inclination 207 and chamfer are set around the pallet. This is because the tracks are connected in sections. There is a gap between the sections or the height difference between the sections. The setting of the inclination 207 or the chamfer can avoid connection. The pallets affect each other, which makes the conveying of the pallets more smooth. The side guide wheels ensure that there is no jamming during the operation, and the matching structure with the side cover of the track is increased, especially in the high-speed conveying section, so that the pallet cannot fly out of the conveying track even if the pallet is stuck in time.

The stacking slot 206 and the stacking protrusion 209 facilitate the taking and placing of the tray during stacking. It can also ensure that pallets stacked together are stacked more firmly during transportation. The upper surface of the pallet can provide reasonable friction. The friction coefficient between the surface of the luggage and the upper surface of the pallet (accommodating surface) is 0.25 to 0.83, which can prevent luggage from contacting the upper surface of the pallet during turning, high-speed transportation, up / downhill, etc. ( (Acceptance surface) has a clear relative movement trend or even slips. In severe cases, luggage flies out of the tray; 0.5 to 0.8 of the lower surface of the tray and the upper surface of the conveyor belt can prevent the tray from turning, high-speed transportation, up / downhill, etc. During the process, there is a clear relative movement trend or even sliding on the upper surface of the conveyor belt; the upper surface (accommodating surface) of the tray has a strong anti-wear ability, which avoids the luggage in the process of turning, high-speed transportation, up / downhill, etc. The upper surface (accommodating surface) of the tray has obvious relative movement tendency and even slips. Each baggage high-speed transfer tray 1 has a unique identification code, which is stored on the permanent RFID tag in a machine-readable format in the baggage high-speed transfer tray 1. The RFID tag can be replaced without damaging the tray; there is a drainage opening at the bottom of the tray for the high-speed luggage delivery tray 1 to prevent water accumulation in the tray.

The upper tray 201 is designed as a thin-walled hollow structure with an average thickness of about 3 to 5 mm. In order to prevent stress deformation and increase the overall strength, appropriate reinforcing ribs are set in the middle. At the same time, there is a clip structure connected to the lower tray 202.

The pallet is subjected to centrifugal force during the turn, and friction and inclination 207 are required to provide centripetal force to prevent luggage from flying out of the pallet.

During the field test, it was found that during the operation of the up and down track, the luggage is easy to slide in the tray in the running direction. In order to solve this problem, in addition to increasing the surface friction coefficient, it is proposed to use a raised structure, which will help improve the overall tray. Strength to prevent the tray from deforming under heavy load.

Because the tracks are connected in sections, there are gaps or step height differences between the sections, so the pallet needs to be set with a chamfer and inclination 207.

Add a matching structure with the track side cover, especially the high-speed conveying section, so that the pallet cannot fly out of the conveying track even if the pallet jams in time.

Solution one of the quick dismounting roller device: as shown in Figure 14-16, including a roller 301, a bearing 302, and a roller shaft assembly 303, the roller 301 is provided on the outer end surface of the bearing 302, and the roller shaft assembly 303 is provided on the inner end surface of the bearing 302 The supporting axle assembly 303 includes an axle expansion sleeve 3031, which is used to engage the axle expansion sleeve 3031 and generate an expansion tension plug 3032. The axle expansion sleeve 3031 penetrates the bearing 302. The axle expansion sleeve 3031 is inclined from the middle to the end, and the axle The diameter of the middle of the expansion sleeve 3031 is smaller than the diameter of the end. The diameter of both ends of the axle expansion sleeve 3031 is the same as the inner diameter of the bearing 302. The middle of the axle expansion sleeve 3031 and the bearing 302 are a small interference fit in size; Multiple ends are uniformly provided with a plurality of grooves along the length direction of the axle expansion sleeve 3031. The length of the grooves is adapted to the length of the expansion plug 3032. The multiple grooves divide the ends of the axle expansion sleeve 3031 into multiple first wedge surfaces 30311. Each section The first wedge surface 30311 is flexible and can be contracted inwardly and outwardly. When the axle expansion sleeve 3031 penetrates into the bearing 302, the first wedge surface 30311 at the end of the axle expansion sleeve 3031 is retracted. Tightly align the bearing 302 across the shaft The inner end surface of the bearing 302, after the axle expansion sleeve 3031 penetrates the bearing 302, a plurality of sections of the first wedge surface 30311 are free to expand outward; in addition, the surface of the tension plug 3032 is inclined and the tension plug 3032 is a hollow structure, and one end of the tension plug 3032 The diameter of the coil 30323 is the same as the inner diameter of the bearing 302. The diameter of the other end of the expansion plug 3032 is the same as the diameter of the corresponding position of the axle expansion sleeve 3031. The two ends of the expansion plug 3032 extend along the expansion plug. 3032 is provided with a plurality of grooves uniformly in the length direction. The plurality of grooves divide the two ends of the tension plug 3032 into a plurality of second wedge surfaces 30321. The tension plug 3032 is also provided with a protrusion 30322 near the opening 30323, and the axle expands. The sleeve 3031 is provided with grooves 30312 matching the protrusions 30322 at both ends of the axle expansion sleeve 3031. During the assembling process of the tension plug 3032 away from the handout 30323, the tension plug 3032 is kept away from the handout 30323. The multi-section second wedge surface 30321 at one end is tightened and aligned with the axle expansion sleeve 3031, and then the tension plug 3032 is inserted into the inner cavity of the axle expansion sleeve 3031. When the projection 30322 of the tension plug 3032 is clicked into the axle expansion sleeve 3031, When the groove 30312 is inside, the plug 30323 and the axle expansion sleeve of the plug 3032 are tightened tightly. The end surface of 3031 is flush. At this time, the multi-stage second wedge surface 30321 at one end of the expansion plug 3032 expands so that the axle expansion sleeve 3031 is in close contact with the inner end surface of the bearing 302. The opening further expands both ends of the axle expansion sleeve 3031 to facilitate the fixed installation of the axle expansion sleeve 3031. When disassembling the supporting roller 301 device, it is only necessary to use a long tool similar to a knife to insert from the hollow of the tensioning plug 3032 at the other end, and then align the end of the tensioning plug 3032 with the smaller inner diameter. Then, the expansion plug 3032 can be pulled out, and then the axle expansion sleeve 3031 is pulled out, so that the disassembly of the above-mentioned supporting wheel 301 device is realized.

Scheme two for quick disassembly of the idler device: as shown in FIGS. 17 to 20, including an outer bracket 401, a idler 402, a bearing 403, and an axle 405, the idler 402 is sleeved with a bearing 403, and the bearing 403 An expansion sleeve 404 is sleeved, and wedge surfaces 409 are formed on the inner walls of both ends of the expansion sleeve 404. The axles 405 are two, and one end is respectively installed at both ends of the expansion sleeve 404, and the other end is connected to the outer bracket 401. The wheel shaft 405 is formed with an inclined surface 410 corresponding to the wedge surface 409. One of the wheel shafts 405 is fixed with a spring 406 in the inner cavity. The spring 406 is provided with a first stopper 407 and the other wheel shaft 405. The inner cavity is provided with a second stop claw 412, and the outer bracket 401 is provided with an opening 408 corresponding to the supporting wheel 402.

The expansion sleeve 404 has a slit 411. A flexible boss is provided at an end of the wheel shaft 405, and the flexible boss corresponds to the outer bracket 401. The retaining claw is a special-shaped spring 406. The supporting wheel 402 and the axle 405 are made of plastic material. A plurality of grooves are provided on the side wall of the supporting wheel 402, and the grooves are evenly distributed on the side wall.

Method for quickly disassembling the supporting wheel 402, including the following steps:

a, the expansion sleeve 404 is installed on the bearing 403, and the bearing 403 is installed on the supporting wheel 402, so that the supporting wheel 402, the bearing 403 and the expansion sleeve 404 are combined into one component;

b. Install the components in step a on the outer bracket 401, and the upper end portion of the supporting wheel 402 exposes the opening 408 of the outer bracket 401;

c. A shaft 405 is installed at both ends of the inner cavity of the expansion sleeve 404, and the shaft 405 is pressed inward, and the inclined surface 410 of the shaft 405 presses the wedge surface 409 on the expansion sleeve 404, so that the inclined surface 410 of the shaft 405 will be topped. Tighten and expand the expansion sleeve 404, and at the same time, the end of the axle 405 is installed on the outer bracket 401;

d. Pull the right end of the spring 406 so that the right end of the spring 406 is connected to the second stopper 412;

e. Simultaneously pull outward to the first and second stopper claws 407 and 412, so that the first and second stopper claws 407 and 412 are respectively caught on the outer bracket 401;

f. At the same time as step e above, the flexible boss on the bearing 403 provides elastic force to act on the outer bracket 401, so that the bearing 403 is fastened on the outer bracket 401;

g. When disassembling is needed, disengage the first stopper 407 and the second stopper 412 from the outer bracket 401, and at the same time press the flexible boss to lose its elasticity. The bearing 403 is loosened corresponding to the outer bracket 401 and the expansion sleeve 404. ;

h. Take out the bearing 403, and then remove the idler 402, the bearing 403, and the expansion sleeve 404.

The spring 406 pulls the first stopper 407 and the second stopper 412 inward, so that the two axles 405 at both ends of the expansion sleeve 404 apply pressure inward, and the inclined surface 410 on the axle 405 applies the wedge surface 409 of the expansion sleeve 404. Two forces, one is the horizontal pressure inward of the expansion sleeve 404, and the other is the vertical pressure of the expansion sleeve 404. The inclined surface 410 of the axle 405 will press tightly and open the expansion sleeve 404. The expansion sleeve 404 is clamped horizontally inside, and the expansion sleeve 404 is tightly tightened vertically outwards, so that the expansion sleeve 404 and the axle 405 are fixed, which plays a fastening role, ensuring that the supporting wheel 402 can be firmly maintained in the design position, quiet and stable. When it is released, the second stop claw 412 disengages from the spring 406, the inward pressure disappears, and the axle 405 and the expansion sleeve 404 are loosened. The axle 405 is quickly removed to ensure convenient assembly and disassembly and replacement of parts. When parts are damaged, they can be replaced quickly, which is convenient for maintenance and shortens the repair time. When there are hundreds or thousands of supporting rollers in the transmission line and the 402 groups need to be replaced, the loading and unloading is fast and simple, ensuring that the transportation equipment resumes operation as soon as possible. Can synchronize the idler 402 with Made between relatively pure rolling, and therefore the idler set 402 to reduce the friction of the system, thereby reducing energy consumption of the system, to protect critical components from wear and prolong equipment life.

The slit 411 enables the expansion sleeve 404 to have a tightening function, adjusts the tightness of the contact surface between the expansion sleeve 404 and the axle 405, and prevents the phenomenon of relative sliding, thereby enhancing the stability of the overall structure. Through the flexible boss acting on the outer bracket 401, it can continuously provide sufficient elastic force, so that the axle 405 and the outer bracket 401 are firmly connected, and at the same time, the spring 406 can tighten the wedge surface 409 and the inclined surface 410 to contract inward, thereby increasing the expansion sleeve 404. The tightness with the axle 405 ensures better stability of the idler 402 during operation. The special-shaped spring 406 can be pinched inward like a clip, and can be automatically opened after being loosened to prevent the phenomenon that the overall roller 402 device is tightened and slipped out during operation, which saves space and the overall structure is more compact.

The plastic material has the effect of absorbing vibration, thereby reducing system vibration and noise, improving the working environment of equipment users, and achieving environmental protection effects. Multiple grooves are provided to reduce the weight of the roller 402, reduce the rolling friction system, reduce the wear rate of parts, save materials, and evenly distribute the weight distribution through the grooves, so that the weight is distributed during rolling. Balance and good stability. This method can quickly assemble or disassemble various components, save a lot of maintenance time, improve economic value, and realize the rapid installation of the supporting wheel 402. After the installation, between the wheel and the axle 405, and between the axle 405 and the outer bracket 401, "Loose first and then tighten": "loose" guarantees easy assembly and disassembly; "tight" guarantees that the idler 402 can be firmly maintained at the design position and run quietly and smoothly.

As shown in Figs. 21-23, the rapid diversion conveying device 5 includes a conveying main line and a conveying branch line. The conveying branch lines are arranged in parallel on the conveying main line and at a certain angle with the conveying main line. The conveying main line includes a main frame, and The conveying branch line includes a sub-frame, and a lifting steering mechanism for guiding articles from the main conveying line to the conveying branch line is provided below the intersection of the main frame and the sub-frame. The lifting steering mechanism includes a lifting frame 50300, and controls lifting The drive device for moving up and down of the frame 50300 and the wheel motor 50303 for controlling the turning of the articles. An electric straight roller 50200 and an unpowered roller are provided at the transition between the auxiliary frame and the main frame.

A plurality of links are mounted on the top of the lifting frame 50300, and a plurality of hub motors 50303 are fixed on each link. The in-wheel motor 50303 is axially parallel to the connecting rod. The in-wheel motors 50303 on different connecting rods form a plurality of parabolic lines corresponding to the article transmission path. A baffle is installed on the main frame and the sub-frame, and the baffle is respectively fixed on two sides of the main frame and the sub-frame through a guide rail bracket, and a guide bar is also installed on the baffle. After the jacking steering mechanism is raised, the in-wheel motor 50303 is on the same horizontal plane as the electric straight drum 50200 and the unpowered drum. The driving device is a servo electric cylinder 50301.

Through the above structure, the jacking steering mechanism under the main frame can guide the goods transported on the main conveying line to the high-speed and efficient transfer to the transport branch line, so as to achieve the purpose of distributing articles. It has the advantages of simple structure, stable transportation, and high diversion efficiency. The jacking steering mechanism below the main frame is provided with a hub motor 50303, and the auxiliary frame is provided with an electric straight roller 50200. The two cooperate with each other, which is different from the uncontrolled steering powerless guide rollers in the prior art, which can provide high-speed transportation for The material provides greater steering force, thereby increasing the probability of successful material rotation, thereby improving the efficiency of material transportation, and has strong practicability, which can meet the needs of actual work.

The main frame and the sub-frame are provided with a baffle plate. The baffle plate is provided with a guide bar. The baffle plate and the bar plate can prevent the cargo from falling down, and can also guide the direction of the cargo transportation. The arrangement of the in-wheel motor 50303 enables the transmission direction of the in-wheel hub to always be consistent with the motion path of the object, which can save power and achieve efficient shunting of items. The auxiliary frame is provided with an unpowered roller. With the above-mentioned structure, it is possible to assist the in-wheel motor 50303 and the electric straight roller 50200 to convey articles. The servo electric cylinder 50301 is used as the driving device to make the control of the material flow more accurate and the error rate is low.

As shown in Figs. 24-26, a rapid confluence conveying device 6 includes a conveying main line 601 and a conveying branch line 602. The conveying branch line 602 is disposed on one side of the conveying main line 601 and the conveying branch line 602 forms a certain angle with the conveying main line 601. The output end of the conveying branch line 602 is connected to the conveying main line 601. The conveying main line 601 includes a main frame 603, and the conveying branch line 602 includes a sub frame 604. Both the main a frame 603 and the sub frame 604 are installed. The motorized roller 605, the taper motorized roller 606 for guiding the goods to be steered to the main frame 603 is also installed on the sub frame 604 at the connection portion between the sub frame 604 and the main frame 603.

The taper motorized roller 606 is disposed obliquely along the side facing the main frame 603. A non-powered taper drum 607 is also mounted on the connecting portion between the sub-frame 604 and the main frame 603. An unpowered roller 608 is also installed on the main frame 603 and the sub frame 604. The main frame 603 and the sub-frame 604 are also installed with a bezel 609, and a guide bar 610 is installed on the bezel 609.

In the implementation process, the motorized rollers 605 on the main frame 603 and the auxiliary frame 604 drive the high-speed transportation of goods, and the goods and pallets running at high speed on the transmission branch line 602 are guided to the main transmission line 601 by the tapered electric roller 606 installed on the auxiliary frame 604. Thus, the purpose of converging the conveying branch line 602 and the conveying main line 601 is reached. The utility model has the characteristics of simple structure and fast merging speed, and solves the problems of complicated structure and low merging efficiency of the existing merging and conveying equipment. The taper motorized roller 606 is disposed obliquely along the side facing the main frame 603. With this setting, it is convenient to achieve the effect of fast turning of the goods, and thus guide the goods to the main frame 603 to merge more quickly. A non-powered taper drum 607 is also installed on the connecting portion between the sub frame 604 and the main frame 603. With this arrangement, it is possible to assist the taper drum in guiding the goods. An unpowered roller 608 is also installed on the main frame 603 and the sub frame 604. With this arrangement, it is possible to assist the electric drum 605 in conveying the goods. The main frame 603 and the sub-frame 604 are also installed with a bezel 609, and a guide bar 610 is installed on the bezel 609. With this arrangement, the baffle 609 and the guide bar 610 can prevent the cargo from falling, and at the same time can guide the direction in which the cargo is transported.

As shown in FIGS. 27 to 29, the straight track 3 includes a track A701, a track B702, a tray 703, and an upper carrier 704. The track A701 and the track B702 are connected together by a cross beam 707. The upper carrier 704 includes a carrier A705. And supporting roller B706, a plurality of supporting wheels A705 are arranged on the track A701, a plurality of supporting wheels B706 are arranged on the track B702, the supporting wheels A705 and B706 are arranged in a cross, and a tray is placed on the upper supporting wheel 704 703. The length of the tray 703 is L, and the distance between the supporting wheels is X.

The formulas of L and X are as follows.

In the formula (1), GB is the weight of the luggage 713, GT is the weight of the pallet 703, L is the length of the pallet 703, and X is the distance between the supporting wheels.

A luggage 713 is placed in the tray 703. The weight of the tray 703 is GT, the weight of the luggage 713 is GB, the range value of L is 1200-1350mm, and the range value of X is 285-350mm. The range value of GB is 2-50 kg, and the range value of GT is 30-45 kg.

The two ends of the beam 707 are connected to the track A701 and the track B702 by bolts, respectively. A plurality of lower rollers 712 are provided below the upper roller 704, and a conveyor belt 708 is wound around the upper roller 704 and the lower roller 712. Both ends of the belt 708 are covered with a pulley 709. The pulley 709 A rotation shaft 710 is fixed on the rotation shaft 710 and a motor 711 is connected to the rotation shaft 710. The motor 711 is an asynchronous motor 711. The distance between the upper surface of the track A701 and the apex of the supporting wheel A705 is H, and the distance between the upper surface of the track B702 and the apex of the supporting wheel B706 is H.

First start the motor 711. The motor 711 drives the rotation shaft 710 to rotate. The fixed pulley 709 is rotated on the rotation shaft 710. The pulley 709 drives the conveyor belt 708 to rotate around the upper roller 704 and the lower roller 712. The tray 703 is placed on the conveyor belt. On 708, the luggage 713 is placed in the tray 703. The conveyor 708 moves the tray 703 to achieve the purpose of transporting the luggage 713. The upper supporting wheel 704 and the lower supporting wheel 712 will also rotate as the conveyor 708 moves, reducing friction. The role of the tray 703 is L, and the distance between the supporting wheels is high-precision coordinated installation, so that the tray 703 acts on the supporting wheels to be balanced in force, stable in operation, slow in component wear, and prolong the life of the equipment. The production cost is reduced. Due to the stable operation and low noise, the cross-supporting of the supporting rollers under the tray 703 is achieved through the cross-setting of the supporting rollers A705 and B706. The stability is good and will not be caused by uneven force. Inclined, staggered layout of support points can reduce the number of supporting rollers to ensure that the overall support is not reduced. On the one hand, reducing the number of supporting rollers, reducing costs and construction volume, and more importantly, making Tray 703 runs more smoothly, increases equipment life, and improves the reliability of luggage 713 transportation.

Through the direct cooperation of the length of the luggage 713, the tray 703, the tray 703, and the distance between the supporting wheels, the stability of the equipment operation is increased, the loss of parts is reduced, and the cost is reduced. Bolted for easy disassembly and transportation. The roller is provided by the power provided by the motor 711, so that the equipment runs smoothly and has good stability. The distance between the top surface of the track and the apex of the supporting rollers is H to ensure that the apexes of all the supporting rollers are on the same level. 713 caused tremors. Through the asynchronous motor 711, the ratio between the speed of the load and the frequency of the connected power grid is not constant. Therefore, it has the advantages of simple structure, convenient manufacturing, use and maintenance, reliable operation, small quality, and low cost. The 711 has high operating efficiency and good working characteristics, and it runs near constant speed from no-load to full-load range.

As shown in Figure 30-31, the turning conveyor 4 includes a frame 801. The frame 801 includes two arc-shaped tracks. The distance between the arc-shaped tracks is 30mm. The frame 801 is provided with multiple sets of inner wheels evenly on the inner arc-shaped tracks. 804, the frame 801 is provided with a plurality of sets of outer wheels 805 evenly on the outer arc-shaped track. The outer wheels 805 are also provided with adjacent wheels 806 which are lower than the outer wheels 805. The inner wheels 804 are connected to the outer wheels through a connecting shaft. 805. The adjacent wheels 806 are connected. The connecting shaft can drive the inner wheel 804, the outer wheels 805, and the adjacent wheels 806 to rotate. The adjacent wheels 806 are connected by a flexible triangle belt. The two sets of adjacent wheels 806 on the frame 801 are also connected. A tensioning wheel 807 is provided. The tensioning wheel 807 is fixed on the frame 801 through bearings. The tensioning degree of the flexible v-belt can be controlled by the tensioning wheel 807. Any set of connecting shafts is driven to rotate by the power source 802 on the frame 801. The power source 802 is a driving motor. The output end of the driving motor is connected with a reducer 803. The reducer 803 is connected to the inner wheel 804 on the set of connecting shafts through a timing belt. The driving motor and the reducer 803 are fixedly installed on the frame 801. Upper; inner wheels 804 and outer wheels 805 are rubber wheels The outer wheel 805 has a larger wheel diameter than the inner wheel 804, and the top of the outer wheel 805 and the inner wheel 804 are at the same height. The diameter of the outer drive rubber wheel is 200mm. The outer wheel 805 is 10% larger than the inner wheel 804. This can ensure the smooth turning of the tray on the track. In addition, a cover plate is also provided on the track of the frame 801. The cover plate is slotted at the inner wheel 804 and the outer wheel 805 so that the inner wheel 804 and the outer wheel 805 are partially exposed and free. During rotation, the frame 801 is also provided with nylon strip baffles on both sides of the cover plate to prevent the tray from drifting off the track. During the operation of the overall turning conveyor 4, the tray is placed on the rubber wheels on both sides of the track, and the power source 802 is started to realize the automatic turning of the tray.

Claims (17)

1. The airport high-speed baggage conveying and sorting system is characterized by comprising a track part, a dynamic sorting device (2), and a high-speed baggage tray (1) for conveying luggage on the track part. The dynamic sorting equipment (2) sorts baggage at high speed; the track part includes a straight track (3), a turning conveyor (4), at least one segment of a rapid diverting conveying device (5), and at least one segment of a rapid Confluence conveying device (6); the track part is provided with a supporting wheel device which can realize quick disassembly.
2. The airport high-speed baggage conveying and sorting system according to claim 1, characterized in that the dynamic sorting device (2) comprises an upper-level tipping mechanism (101), and a hinged joint with the bottom of the upper-level tipping mechanism (101). The tilting support base (102), the upper tilting mechanism (101) includes a conveying plate (103), and a pulley assembly (104) placed below the conveying plate (103), the conveying plate (103) is along the width direction A guide groove (105) is provided, and the belt (106) of the pulley assembly (104) is at least partially placed in the guide groove, and the working surface of the belt (106) located in the guide groove (105) is higher than the conveying plate (103) ), A tipping driving link (107) is hinged to one end of the conveying plate (103), and a tilting driving electric cylinder (108) is arranged below the tilting driving link (107). The tilting driving electric cylinder (108) is fixedly connected to the tilting support base (102), and the other end of the tilting driving link (107) is hinged with the driving slider (109) in the tilting driving electric cylinder (108). .
3. The high-speed baggage conveying and sorting system for an airport according to claim 2, wherein the guide groove (105) comprises a first guide groove (110), a second guide groove (111), and the first guide groove (110) The second guide groove (111) is symmetrically arranged along the central axis of the width direction of the conveying plate (103); the tilting support base (102) includes a tilting support shaft (112) provided on the upper end, and disposed on the side A triangular fixed seat (113) at the end, two ends of the tilt support shaft (112) are hinged with the tilt support base (102) along the length direction of the tilt support base (102), and the tilt support shaft (112) A flange (114) is fixedly arranged at each end, and a supporting plate (115) is provided below the conveying plate (103). The supporting plate (115) is connected along the side of the conveying plate (103) in the length direction. The middle portion of the support plate (115) is fixedly connected to the flange (114); the other end of the triangular fixing base (113) is fixedly connected to the tilt driving electric cylinder (108); the tilt driving link ( 107) The upper end is hinged with a hinge assembly (116), and the other end of the hinge assembly (116) is hinged with one end of the conveying plate (103); the hinge assembly (116) includes a tilt drive The movable link (107) is articulated by a link connector (117), a ball joint (118) fixedly connected to the other end of the link connector (117), and an upper end of the ball joint (118) is connected with a ball joint main shaft ( 119), both ends of the ball joint main shaft (119) are provided with a ball joint shaft holder (120), and the ball joint shaft holder (120) is hinged with one end of the conveying plate (103); The cylinder (108) includes a casing (121) and a driving motor (122) placed below the casing (121). The casing (121) is provided with a screw rod (123) and a linear guide (124). The screw rod (123) is sleeved on the driving slider (109) through a thread, one end of the screw rod (123) is connected to the output shaft of the driving motor (122), and two ends of the linear guide (124) are fixed to the casing ( 121) an inner wall, the slide rail in the linear guide rail (124) is fixedly connected to the driving slider (109), and the casing (121) is provided with a track groove (126) along the length of the casing (121). The other end of the tilting driving link (107) is fixedly connected to the driving slider (109) through a track groove (126).
4. The airport high-speed baggage conveying and sorting system according to claim 1, characterized in that the high-speed baggage conveying tray (1) comprises an independent upper tray (201) and a lower tray (202), and the upper tray (202) 201) and the lower tray (202) are snap-connected to each other, the upper tray (201) and the lower tray (202) are thin-walled hollow structures, and the front and rear ends of the upper tray (201) are provided with baffles (203) ); The upper surface of the upper tray (201) is provided with a concave concave surface (204) to prevent luggage from being thrown out, and both sides of the upper tray (201) and the lower tray (202) are provided with multiple sets of guides A wheel structure (205), the lower surface of the upper tray (201) is provided with a plurality of crisscross ribs, and the upper surface of the lower tray (202) is provided with a plurality of crisscross ribs.
5. The high-speed airport luggage conveying and sorting system according to claim 4, characterized in that: the upper surface of the upper tray (201) is provided with a plurality of strip-shaped protrusions (210) for enhancing the frictional force of the luggage; A stacking slot (206) is provided on the upper edge of the front and rear ends of the baffle plate (203) of the upper tray (201); the concave curved surface (204) includes a plurality of curved surface segments, and the plurality of curved surfaces The segments are arranged side by side to form a complete concave arc surface (204); the front and rear ends of the upper tray (201) and the lower tray (202) are provided with an inclination (207), and the upper tray (201) and the lower tray (202) The sides of the lower tray (202) are provided with inclination angles (207); the bottoms of the front and rear ends of the lower tray (202) are provided with slots (208) for convenient tray handling; Stacking protrusions (209) are provided in the middle of the rear ends, and the stacking notches (206) match the size of the stacking protrusions (209); edges of the upper tray (201) and the lower tray (202) are provided A drainage hole (211) connected to each other and used for draining water is provided with an RFID chip mounting hole (212) at the bottom of the lower tray (202), and the RFID chip mounting hole (212) is mounted with an RFID chip (213).
6. The high-speed baggage conveying and sorting system for airport luggage according to claim 1, characterized in that: the fast-dismounting idler device comprises a idler (301), a bearing (302) and a idler shaft assembly (303), the idler (301) is mounted on the idler axle assembly (303) through a bearing (302), the idler axle assembly (303) includes an axle expansion sleeve (3031), and a tensioning plug for engaging the axle expansion sleeve (3031) and generating expansion ( 3032), the axle expansion sleeve (3031) is inclined from the middle to the end, and the diameter of the middle portion of the axle expansion sleeve (3031) is smaller than the diameter of the end portion. The interference fit between the bearing (302) and the middle of the axle expansion sleeve (3031) .
7. The airport high-speed luggage conveying and sorting system according to claim 6, characterized in that the axle expansion sleeve (3031) is a material having elasticity, and both ends of the axle expansion sleeve (3031) are along the length of the axle expansion sleeve (3031). A plurality of grooves are uniformly arranged in the direction, and the length of the grooves is adapted to the length of the expansion plug (3032). The plurality of grooves divide the two ends of the axle expansion sleeve (3031) into a plurality of first wedge surfaces (30311); the first wedge surface ( 30311) is provided with four segments; the two ends of the tension plug (3032) are evenly provided with a plurality of grooves along the length direction of the tension plug (3032), and the plurality of grooves divide the two ends of the tension plug (3032) into multiple segments. The second wedge surface (30321); the second wedge surface (30321) is provided with two sections; one end of the tension plug (3032) is the market (30323), and the tension plug (3032) is also provided near the market (30323) There are protrusions (30322), and the axle expansion sleeve (3031) is provided near the two ends of the axle expansion sleeve (3031) with grooves (30312) matching the projections (30322); the bearing (302) is provided with two Group, the diameter of the middle part of the axle expansion sleeve (3031) is larger than the inner diameter of the bearing (302), and the length of the middle part is matched with the distance between the two sets of bearings (302). , Another bearing (302) And idler end faces (301) flush.
8. The high-speed baggage conveying and sorting system for airport luggage according to claim 1, characterized in that the fast-disassembling idler device comprises an outer bracket (401), a idler (402), a bearing (403), and an axle (405). ), A bearing (403) is sleeved on the supporting wheel (402), and an expansion sleeve (404) is sleeved on the bearing (403), and wedge surfaces (409) are formed on both inner walls of the expansion sleeve (404). There are two axles (405), and one end is respectively installed at both ends of the expansion sleeve (404), and the other end is connected to the outer bracket (401), and the axle (405) is formed with a wedge surface (409) A corresponding inclined surface (410), wherein a spring (406) is fixed in an inner cavity of one of the wheel axles (405), the spring (406) is provided with a first stop claw (407), and the other wheel axle ( 405) is provided with a second stop claw (412) in the inner cavity, and an opening (408) corresponding to the supporting wheel (402) is provided on the outer bracket (401).
9. The high-speed baggage conveying and sorting system for airport luggage according to claim 8, characterized in that: the expansion sleeve (404) has a slit (411); and the end of the wheel axle (405) is provided with a flexible boss The flexible boss corresponds to the outer bracket (401); the first retaining claw (407) is a special-shaped spring (406); the supporting wheel (402) and the axle (405) are made of plastic material .
10. The airport high-speed baggage conveying and sorting system according to claim 1, characterized in that: the rapid diverting and conveying device (5) comprises a main line unit (501), a branch line unit (502), and a device for transferring items from the main line The line is transmitted to a lifting mechanism unit (503) on a branch line. The branch line unit (502) is arranged in parallel on the main line unit (501) and forms an angle with the main line unit (501). The lifting mechanism unit (503) is located at the junction of the main line unit (501) and the branch line unit (502). The branch line unit (502) includes a branch frame, an electric straight roller (50200), and an unpowered roller (50201). The electric straight roller (50200) and the unpowered roller (50201) are sequentially arranged in the transmission direction of the branch line. The lifting mechanism unit (503) includes a lifting frame (50300) and a driving lifting frame (50300) in a vertical plane. A servo electric cylinder (50301) moving up and down inside, a plurality of unpowered rollers (50302) fixed on the lifting frame (50300) diagonally and horizontally, and a hub motor (50303) fixed on the unpowered rollers (50302). The tilt angle of the unpowered roller (50302) is always perpendicular to the transmission direction of the branch line Its inclination direction with branched transmission lines gradually increases.
11. The airport high-speed baggage conveying and sorting system according to claim 10, wherein the main line unit (501) comprises a timing belt, a main road frame (50100), and is fixed on the main road through a connecting shaft (50101). The protective rails (50102) on both sides of the frame (50100) and the working motor that drives the synchronous belt movement. The right side of the main frame (50100) along the main line transmission direction is also provided with an Protection zone (504); the protection zone (504) is the expenditure area of the protection fence (50102) located on the main line overlapping the branch line, and the connecting shaft (50101) of the protection zone (504) is longer than the connecting shaft of other areas ( 50101); each unpowered roller (50302) is provided with two to three hub motors (50303), and the hub motor (50303) is vertically mounted on the unpowered roller (50302) and is inclined with the unpowered roller (50302) Keep the same, the wheel motors (50303) on different non-powered rollers (50302) form multiple arcs with the same shape as the branch line transition line; the lifting mechanism unit (503) is located below the main line and the height of the entire structure is low On the top surface of the timing belt of the main line, lift Where the upper surface of the upper surface height of the branch line is located on the motor unit (502) after the structural unit (503) is raised straight cylinder (50200) consistent height.
12. The high-speed baggage conveying and sorting system for an airport according to claim 1, characterized in that the rapid confluence conveying device (6) comprises a conveying main line (601) and a conveying branch line (602), and the conveying branch line (602) is provided It is on one side of the main conveyance line (601) and the conveyance branch line (602) forms an angle with the main conveyance line (601). The output end of the conveyance branch line (602) is connected to the main conveyance line (601); the main conveyance line (601) includes a main frame (603), and the transmission branch line (602) includes a sub frame (604). The main frame (603) and the sub frame (604) are each equipped with an electric drum (605) and the sub frame A taper electric roller (606) for guiding the goods to the main frame (603) is also installed on the connecting portion of the sub frame (604) and the main frame (603).
13. The airport high-speed baggage conveying and sorting system according to claim 12, characterized in that: the tapered electric drum (606) is disposed inclined along the side toward the main frame (603); the sub-frame (604) and the main frame An unpowered taper roller (607) is also installed at the connecting part of the frame (603); an unpowered roller (608) is also installed on the main frame (603) and the sub-frame (604); the main frame (603) and the sub-machine The rack (604) is also installed with a baffle (609), and a guide bar (610) is installed on the baffle (609).
14. The airport high-speed baggage conveying and sorting system according to claim 1, characterized in that the straight track (3) comprises track A (701), track B (702), tray (703), and a supporting wheel (704) ), The track A (701) and the track B (702) are connected together by a cross beam (707), and the upper carrier (704) includes a carrier A (705) and a carrier B (706). A plurality of idlers A (705) are arranged on A (701), a plurality of idlers B (706) are arranged on the track B (702), the idlers A (705) and the idlers B (706) are arranged crosswise A tray (703) is placed on the upper supporting wheel (704), the length of the tray (703) is L, and the distance between the supporting wheels is X.
15. The airport high-speed baggage conveying and sorting system according to claim 14, characterized in that: both ends of the beam (707) are connected to the track A (701) and the track B (702) by bolts, respectively; A plurality of lower rollers (712) are provided below the rollers (704). A conveyor belt (708) is wound around the upper rollers (704) and the lower rollers (712), and both ends of the conveyor belt (708) The pulley (709) is covered, and a rotating shaft (710) is fixed on the pulley (709). The rotating shaft (710) is connected with a motor (711); the motor (711) is a servo motor.
16. The high-speed baggage conveying and sorting system for an airport according to claim 1, wherein the turning conveyor (4) comprises a frame (801), and a plurality of sets of inner wheels (804) are arranged on the inner side of the frame (801). ), The inner wheel (804) is connected to the outer wheel (805) and the adjacent wheel (806) through a connecting shaft, the adjacent wheel (806) is connected through a flexible triangle belt, and any set of connecting shafts is connected to the frame (801). The power source (802) is driven to rotate, the wheel diameter of the outer wheel (805) is larger than the wheel diameter of the inner wheel (804), and the tops of the outer wheel (805) and the inner wheel (804) are at the same height.
17. The airport high-speed baggage conveying and sorting system according to claim 16, characterized in that the wheel diameter of the outer wheel (805) is 10% larger than the wheel diameter of the inner wheel (804); A tensioning wheel (807) is also arranged between the wheels (806), and the tensioning wheel (807) is fixed on the frame (801) through a bearing; the power source (802) is a driving motor, and the output end of the driving motor is connected with a deceleration The motor (803) and the reducer (803) are connected to the inner wheel (804) through a timing belt. The drive motor and the reducer (803) are fixedly mounted on the frame (801); the inner wheel (804) and the outer wheel (805) All rubber wheels are used; the upper surface of the frame (801) is provided with a cover plate, and the cover plate is slotted at the inner wheel (804) and the outer wheel (805) so that the inner wheel (804) and the outer wheel (805) are partially exposed and rotated. ; The frame (801) is also provided with nylon strip baffles on both sides of the cover plate.

Images