JP2021050101A - Conveying sorting device - Google Patents

Abstract

To provide a conveying sorting device that can be utilized as a device for conveying and sorting baggage in an airport.SOLUTION: The conveying sorting device comprises: tilting motors 12 and 13 which switch the posture of tilting conveyor units 10 and 11 supported oscillatably around a support shaft 7 parallel to a conveying direction is switched between a horizontally conveying posture and an inclining posture; and conveyor driving motors 20 which drive conveying conveyors 24a and 24b provided in the tilting conveyor units 10 and 11 respectively. The support shaft 7 is constituted of one interlocking/transmitting shaft 19 with a sufficient length to cover the whole area of the plurality of tilting conveyor units 10 and 11. The conveying conveyors 24a and 24b of the tilting conveyor units are interlocked and connected to the interlocking/transmitting shaft 19, and one of the conveyor driving motors 20 is installed for the plurality of tilting conveyor units 10 and 11 supported by the interlocking/transmitting shaft 19. The conveyor driving motor 20 drives the conveying conveyors 24a and 24b through the interlocking/transmitting shaft 19.SELECTED DRAWING: Figure 2

Description

The present invention relates to a transport sorting device capable of sorting a transported object by sliding it laterally by gravity at a sorting position set on a transport path of the transported object.

As described in Patent Document 1, the transport sorting device as described above includes a plurality of tilting conveyor units arranged side by side in the transport direction, and each tilting conveyor unit has a horizontal transport posture and an object to be transported. It is oscillatingly supported around a support shaft parallel to the conveyed object transporting direction with an inclined posture for laterally discharging the conveyed object by gravity, and is provided in each tilting conveyor unit. A conveyor driving motor for driving a conveyor for transporting transported objects and a tilting motor for switching each tilting conveyor unit between the horizontal transporting posture and the tilting posture are known.

Special table 2015-501770

The above-mentioned Patent Document 1 provides a tilting actuator that tilts each tilting conveyor unit about an axis parallel to the transporting direction as a means for switching each tilting conveyor unit between a horizontal transport posture and a tilted posture. It is described that the friction belt for transporting the object to be conveyed provided in each tilting conveyor unit is driven by an electric motor attached to the tilting conveyor unit (tilt component). In other words, a configuration is described in which all the tilting conveyor units that are swung between the horizontal transport posture and the tilted posture are equipped with a conveyor driving motor that drives the transport conveyor included in the tilting conveyor unit. .. In this configuration, not only the same number of conveyor driving motors as the number of tilting conveyor units are required, but also the feeding system for the conveyor driving motors attached to the swinging tilting conveyor unit is provided with the tilting conveyor unit. A flexible feeder with a length that does not hinder the swinging motion, and alternative means, such as an arc-shaped energizing rail concentric with the swinging axis of the tilting conveyor unit and a power supply that slides in contact with it. There is a problem that it becomes necessary and the cost becomes very high.

The present invention proposes a conveyor sorting apparatus capable of solving the above-mentioned conventional problems, and the conveyor sorting apparatus according to the present invention makes it easier to understand the relationship with the examples described later. Therefore, when the reference symbols used in the description of the embodiment are shown in parentheses, a plurality of tilting conveyor units (10, 11) arranged side by side in the transport direction are provided, and each tilting conveyor unit (10, 11) is provided. 11) is a support shaft (7) parallel to the conveyor belt direction between the horizontal conveyor belt and the inclined posture for ejecting the conveyor belt laterally by gravity. A conveyor drive motor (20) that is supported so as to be swingable around and drives a conveyor (24a, 24b) for transporting an object to be transported provided by each tilt conveyor unit (10, 11), and each tilt conveyor unit (10). In the object transport sorting device provided with a tilting motor (12, 13) that switches between the horizontal transport posture and the tilt posture (11), the support shaft (7) is a plurality of tilt conveyor units (10, 13). The interlocking transmission shaft (19) of the entire length of the region including 11) (the region consisting of assemblies 1A to 1E) is composed of the above-mentioned tilt conveyor units (10, 11) in the region. The transport conveyors (24a, 24b) are interlocked and connected to the interlocking transmission shaft (19), and one conveyor drive motor (20) is installed in the area for driving the one conveyor. The motor (20) is configured to drive the transport conveyors (24a, 24b) of all the tilting conveyor units (10, 11) in the region via the interlocking transmission shaft (19).

According to the above-described configuration of the present invention, the conveyor for transporting the object to be transported provided by each of the plurality of tilting conveyor units can be driven by one conveyor driving motor, and each tilting conveyor unit can be swung. Since the supporting support shaft is also used as the transmission shaft required for the transmission system for the transport conveyor of each tilting conveyor unit, it is possible to significantly reduce the equipment cost. Further, as in the conventional case, the conveyor driving motor for driving the transport conveyor of each tilting conveyor unit is attached to the swinging tilting conveyor unit, and the power supply system to the conveyor driving motor is provided. In addition, there is no need for a flexible feeder with a length that does not hinder the swinging motion of the tilting conveyor unit, or a power supply means consisting of an arc-shaped current-carrying rail that replaces it and a power supply that is in sliding contact with it. The cost of the system can be reduced, and the risk of failure of the power supply system is almost eliminated.

When the present invention is carried out, specifically, each tilting conveyor unit (10, 11) is provided with one drive shaft (32) interlocked with the transport conveyor (24a, 24b). It is arranged above the interlocking transmission shaft (19) in a direction parallel to the object transport direction, and the one drive shaft (32) and the interlocking transmission shaft (19) are interlocked by the winding transmission means (33). Each tilting conveyor unit (10,11) is connected and is provided with bearings (8a to 9b) for swingably supporting the tilting conveyor unit (10,11) around the interlocking transmission shaft (19). Attached, a passive rotating body (38b, 39b) that rotatably fits to the interlocking transmission shaft (19) at a position adjacent to the bearing (8a, 9b) is fixed to the bearing (8a, 9b). The rotational force of the output shaft (36,37) of the tilting motor (12,13) arranged corresponding to each tilting conveyor unit (10,11) was attached to the output shaft (36,37). Transmission to the tilting conveyor unit (10,11) via a winding transmission (38c, 39c) stretched between the transmission rotating body (38a, 39a) and the passive rotating body (38b, 39b). Can be configured to be. According to this configuration, a member for receiving the rotational force of the output shaft of the tilting motor for the bearing on the tilting conveyor unit side, which is naturally necessary for swingably supporting the tilting conveyor unit around the interlocking transmission shaft. By combining it with the above, the number of required parts can be reduced, the whole can be configured simply, and the cost can be further reduced.

Further, the plurality of tilting conveyor units (10,11) divide two adjacent tilting conveyor units (10,11) into a plurality of assemblies (1A to 1E) as one assembly, and each assembly (1A to 1E). In 1A to 1E), two tilting conveyor units (10) are provided by one of the support shafts (7) whose both ends are supported by the support members (14,15,17) via bearings (5,6). , 11) are supported, and the support shafts (7) are interlocked and connected by a joint (18) between two adjacent assemblies (1A to 1E) to form the interlocking transmission shaft (19). The conveyor drive motor (20) is arranged outside the assembly (1E) located at one end, and drives two tilting conveyor units (10, 11) in each assembly (1A to 1E). The tilting motors (12, 13) of the table can be installed so that the transmission rotating bodies (38a, 39a) are reversed in the front-rear direction on both the left and right sides of the interlocking transmission shaft (19) in a plan view. .. According to this configuration, even if a large long motor with a reducer with a large driving capacity is required as a tilting motor for switching the posture of each tilting conveyor unit, these two tilting motors are left and right in a plan view. By arranging them point-symmetrically, they can be easily incorporated into the area inside one assembly, two tilting conveyor units, two tilting motors that tilt both tilting conveyor units, and two tilting conveyors. An assembly composed of one support shaft (a part of the interlocking transmission shaft) that is interlocked and connected with the conveyor for transporting the object to be transported of the unit can be compactly configured. Then, a plurality of these assemblies are installed in series, and the support shafts (part of the interlocking transmission shaft) are connected to each other by a joint, and the conveyor drive motor installed at one end is interlocked and connected to one end of the interlocking transmission shaft. It is possible to easily assemble a transport sorting device having a total length that is an integral multiple of the tilting conveyor unit.

FIG. 1A is a partially omitted side view of the transport sorting device, and FIG. 1B is a plan view of the same. FIG. 2 is a side view of a main part showing an outlet side region of the transport sorting device. FIG. 3 is a plan view of a main part showing an outlet side region of the transport sorting device. FIG. 4 is a partially cutaway front view showing the outlet side of the transport sorting device. FIG. 5 is a vertical sectional rear view showing each assembly constituting the transport sorting device. FIG. 6 is a front view showing the sorting operation of the tilting conveyor unit. FIG. 7A is a schematic side view showing the first stage of the transport sorting operation of the transport sorting device, and FIG. 7B is a schematic side view showing the second stage of the transport sorting operation. FIG. 8A is a schematic side view showing the third stage, and FIG. 8B is a schematic side view showing the fourth stage. FIG. 9A is a schematic side view showing the fifth stage, and FIG. 9B is a schematic side view showing the sixth stage.

1A and 1B are the same plan views as the schematic side view of the five assemblies 1A to 1E constituting the conveyor sorting apparatus, the central one assembly 1C being omitted from the drawing, and the entrance side end portion. The carry-in conveyor 2 is connected to the assembly 1A of the above, and the carry-out conveyor 3 is connected to the assembly 1E at the outlet side end. In this embodiment, a sorting area is set at one or a plurality of places on the transport path for transporting the tray T loaded with the object to be transported, and the transport sorting device according to the present invention is installed in this sorting area, and the transport sorting is performed. To sort the objects to be transported by the device, the tray T to be transported is tilted in either the left or right sorting direction without stopping the movement in the transport direction, and the objects to be transported loaded on the tray T are sorted by gravity. This is done by sliding down the tray T from the top to the side. Of course, it is also possible to directly transport the object to be transported without using the tray T and sort the objects as described above.

Hereinafter, the detailed structure of each assembly 1A to 1E will be described with reference to FIGS. 2 to 5, and both ends of each assembly 1A to 1E can be rotated by a pair of bearings 5 and 6 in the transport direction of the object to be transported. A support shaft 7 that is supported and is parallel to the transport direction of the transport sorting device and horizontally located at the center position in the left-right width direction of the transport sorting device, and a pair of front and rear bearings 8a and 8b on the support shaft 7, respectively. It is composed of a pair of front and rear tilting conveyor units 10 and 11 supported by 9a and 9b, and two tilting motors 12 and 13 that switch each of the tilting conveyor units 10 and 11 into a horizontal transport posture and a tilting posture. There is. Of the pair of front and rear bearings 5 and 6 of the assemblies 1A to 1E, the bearings 5 and 6 located at both ends in the transport direction of the transport sorting device are supported on the gantry 16 by one columnar support member 14 and 15, respectively. Two bearings 5 and 6 adjacent to each other between two adjacent assemblies are supported on a common columnar support member 17 via a pedestal 17a.

Between two adjacent assemblies of the assemblies 1A to 1E, the ends of the support shafts 7 are concentrically interlocked and connected by the rotation transmission joint 18, and the total length of the transport sorting device, that is, each of them is a pair of front and rear. One interlocking transmission shaft 19 continuous over the entire region consisting of assemblies 1A to 1E including tilting conveyor units 10 and 11 is configured, and as shown in FIGS. 1A, 1B, and 4, transport sorting. At the free end of the support shaft 7 of the assembly 1E located at the outlet side end of the apparatus, one conveyor driving motor 20 supported by the gantry 16 outside the assembly 1E is wound in the vertical direction. It is interlocked and connected by the transmission means 21. As the winding transmission means 21, a belt transmission means including a transmission side pulley 22a, a passive side pulley 22b, and an endless belt 22c stretched between both pulleys 22a and 22b is illustrated, but a winding using a chain is shown. It may be a means of transmission.

Each of the tilting conveyor units 10 and 11 has the same structure, and is a rectangular skeleton 23 having a horizontally long plan view, a pair of left and right belt conveyors 24a and 24b for transporting objects to be transported provided on the rectangular skeleton 23, and a rectangle. It is composed of side guides 25a and 25b attached to both left and right ends of the skeleton 23. The pair of left and right belt conveyors 24a and 24b have an endless belt 26c stretched between the drive pulley 26a and the driven pulley 26b, and the upper transport path portion of the endless belt 26c is exposed on the upper surface of the rectangular skeleton 23. The pair of left and right drive pulleys 26a, which are installed concentrically with each other and are located concentrically with each other, are attached to the outer ends of the pair of left and right rotating shafts 28a and 28b supported horizontally by the bearings 27a and 27b. The shafts 28a and 28b are interlocked with the output shafts 30a and 30b concentrically protruding from the gear box 29 installed at the center position in the left-right width direction in the rectangular skeleton 23 via the rotation transmission joints 31a and 31b. It is connected.

The gearbox 29 includes a drive shaft 32 that projects rearward at the center position in the left-right width direction in the rectangular skeleton 23, and both output shafts 30a and 30b are interlocked in the same direction at the same speed by rotation of the drive shaft 32. It is configured to rotate. The drive shaft 32 is interlocked and connected to the interlocking transmission shaft 19 (support shaft 7 of each of the assemblies 1A to 1E) located directly below the drive shaft 32 by the winding transmission means 33. As the winding transmission means 33, a belt transmission means including a transmission side pulley 34a, a passive side pulley 34b, and an endless belt 34c stretched between both pulleys 34a and 34b is illustrated, but a winding using a chain is shown. It may be a means of transmission.

With the above configuration, by operating one conveyor drive motor 20 installed on the outlet side of the transport sorting device, the winding transmission means 33 is wound from the interlocking transmission shaft 19 (support shaft 7 of each assembly 1A to 1E). A pair of left and right belt conveyors 24a and 24b included in a pair of front and rear tilting conveyor units 10 and 11 of all the assemblies 1A to 1E are supported on the belt conveyors 24a and 24b by a tray T. Can be rotationally driven so that is transported from the inlet side to the outlet side of the transport sorting device at a predetermined speed. At this time, the transport path of the tray T is regulated by the side guides 25a and 25b whose left and right sides are erected on the left and right sides of the tilting conveyor units 10 and 11, but the side guides 25a and 25b Guide rollers 35 that abut and roll on the left and right side surfaces of the tray T are pivotally supported at both front and rear ends in the transport direction.

The pair of front and rear tilt conveyor units 10 and 11 included in the assemblies 1A to 1E are left and right ends of the interlocking transmission shaft 19 (support shafts 7 of the respective assemblies 1A to 1E) via the pair of front and rear bearings 8a to 9b, respectively. The portion is supported so as to be tiltable in the direction in which the portion moves up and down. The tilting conveyor units 10 and 11 are supported and transported by the tray T in a horizontal transport posture (see FIG. 5), and as shown in FIG. 6, a support shaft. Tilt motors 12 and 13 are interlocked and connected to each of the tilt conveyor units 10 and 11 in order to switch to a tilt posture that is tilted around the wheel 7 in either the left or right direction, for example, about 45 degrees. For these two tilting motors 12 and 13, a large servomotor with a speed reducer, which has a longer total length in the axial direction than the width in the transport direction of one tilting conveyor unit 10/11 and a large drive torque, is used. Therefore, as shown in FIG. 3, the tilting motors 12 and 13 are parallel to the support shaft 7 so that the front and rear sides of the tilting motors 12 and 13 are opposite to each other on the left and right sides of the support shaft 7 in a plan view. It is installed on the gantry 16 so as to be.

More specifically, the power transmission side timing belt pulleys 38a and 39b are attached to the output shafts 36 and 37 of the tilting motors 12 and 13, and the output shafts 36, protruding from the power transmission side timing belt pulleys 38a and 39b, The free end portion of 37 is supported by bearings 41a and 41b mounted on the installation plates 40a and 40b that support the tilting motors 12 and 13, so that the output shafts 36 and 37 have a double-sided support structure. .. On the other hand, inside the bearings 5 and 6 that support both ends of the support shafts 7 of the assemblies 1A to 1E, a pair of front and rear bearings 8a for tiltably supporting the tilting conveyor units 10 and 11 by the support shafts 7. Of ~ 9b, bearings 8a and 9b located on the outside are adjacent to each other, and a passive side timing belt paired with the transmission side timing belt pulleys 38a and 39a is attached to a support shaft 7 further inside these bearings 8a and 9b. The pulleys 38b and 39b are loosely fitted so as to be relatively rotatable, and these passive side timing belt pulleys 38b and 39b and the bearings 8a and 9b adjacent to the outside are coupled and integrated by a plurality of coupling bolts 42 and 43 in the circumferential direction. There is. Then, the timing belts 38c and 39c as the winding transmission tool are stretched on the transmission side timing belt pulleys 38a and 39a and the passive side timing belt pulleys 38b and 39b, and the winding transmission means 44 and 45 using the timing belt are configured. Has been done. In other words, at the positions where the winding transmission means 44 and 45 can be configured as described above, the two tilting motors 12 and 13 whose axial direction is parallel to the support shaft 7 are the lengths of the support shaft 7. It is installed on the gantry 16 point-symmetrically around one point in the center of the direction.

The tilting motors 12 and 13 and the installation plates 40a and 40b that support the bearings 41a and 41b are mounted on the gantry 16 so as to be adjustable in the left-right and lateral directions, and the timing belts of the winding transmission means 44 and 45. It is configured so that the tension of 38c and 39c can be adjusted. Further, the transmission side pulley 34a of the winding transmission means 33 for transmitting the rotation of the interlocking transmission shaft 19 (support shaft 7 of each assembly 1A to 1E) to the belt conveyors 24a and 24b of the tilt conveyor units 10 and 11 is As shown in FIG. 3, the winding transmission means 44 and 45 are attached to the support shaft 7 at positions adjacent to the inside of the transmission side timing belt pulleys 38a and 39b.

Explaining an example of how to use the transport sorting device configured as described above, as described above, as described above, the pair of left and right belt conveyors 24a of the pair of front and rear tilting conveyor units 10 and 11 included in each of the assemblies 1A to 1E. , 24b, by operating one conveyor driving motor 20, apply the rotational force to the winding transmission means 21, the interlocking transmission shaft 19, and the winding transmission means 33 corresponding to the tilting conveyor units 10 and 11. It is transmitted to the drive pulleys 26a of the belt conveyors 24a and 24b via the gear box 29 and the rotating shafts 28a and 28b, and the endless belt 26c is in an operating state of rotating in a predetermined direction at a predetermined speed.

On the other hand, the tilting conveyor units 10 and 11 of all the assemblies 1A to 1E have the tilting motors 12 and 13 stopped because the tilting motors 12 and 13 are in the horizontal transport posture as shown in FIG. It is held in the horizontal transport posture by the functions of, and 13, and does not swing around the support shaft 7 / interlocking transmission shaft 19 due to gravity. Therefore, while the tilting conveyor units 10 and 11 of all the assemblies 1A to 1E are held in the horizontal transport posture, the conveyor drive motor 20 is operated as described above to transport the belt conveyors 24a and 24b to a predetermined position. By interlocking and rotating in the direction, the object to be loaded tray T sent from the carry-in conveyor 2 shown in FIGS. 1A and 1B is conveyed toward the carry-out conveyor 3 at a constant speed and is placed on the carry-out conveyor 3. Can be sent out.

As described above, in the tray transport state in which the belt conveyors 24a and 24b of the tilt conveyor units 10 and 11 of all the assemblies 1A to 1E are operating, the specific tilt conveyor units 10 and 11 are placed in the horizontal transport posture for sorting. When switching from to the tilted posture, the tilting motor 12/13 of the tilting conveyor unit 10/11 that should be switched to the tilted posture is operated, and the rotation of the output shaft 36/37 is transmitted by the winding transmission means 44/45. The target is via the side timing belt pulley 38a / 39a, the timing belt 38c / 39c, and the passive side timing belt pulley 38b / 39b, and the bearing 8a / 9b which is coupled and integrated by the coupling bolt 42/43. By transmitting to the rectangular skeleton 23 of the tilting conveyor unit 10/11, the target tilting conveyor unit 10/11 is transferred to the support shaft 7 (interlocking transmission shaft 19) by the rotation angle of the passive side timing belt pulley 38b / 39b. It can be tilted around in a predetermined direction. When returning the tilting conveyor unit 10/11 in the tilted posture to the original horizontal transport posture, the tilting motor 12/13 of the tilting conveyor unit 10/11 is rotated in the reverse direction by the rotation angle during the tilting operation. The tilting conveyor unit 10/11 can be returned from the tilted posture to the original horizontal transport posture.

Hereinafter, the sorting operation will be specifically described. When the loaded object of the tray T sent from the carry-in conveyor 2 is the target to be sorted at the place where the transport sorting device is located, the following will be described based on FIGS. 7A to 9B. The transport sorting device having the above configuration may be operated according to the procedure listed in. The transport path of the transport sorting device according to this embodiment is composed of a total of 10 tilting conveyor units 10 and 11 constituting the 10 assemblies 1A to 1E, but in the following description, all tilting The conveyor units 10 and 11 will be described by assigning numbers N1 to N10 from the entrance side.
(1) As shown in FIG. 7A, the tray T loaded with the objects to be sorted W is fed from the carry-in converter 2 onto the transport path of the transport sorting device. This tray T has a length in the transport direction supported across a plurality of tilting conveyor units 10 and 11 (three in the illustrated example), and the width is set on both the left and right sides of the tilting conveyor units 10 and 11. It is a width that fits between the side guides 25a and 25b with an appropriate margin. Further, as shown by the dotted lines in FIGS. 4 to 6, the loading surface Ts of the tray T is a concave arc surface in the left-right width direction orthogonal to the transport direction, and during transport in the normal horizontal transport posture. , The object to be transported W is stably held on the loading surface Ts.
(2) When the tray T reaches the sorting operation start position P1 set on the transport path of the transport sorting device, as shown in FIG. 7B, the transport direction corresponding to the region supporting the tray T and the transport speed. All the tilting conveyor units N1 to N6 in the extension area to the side are simultaneously switched from the horizontal transport posture to the tilted posture for sorting (in the figure, the posture tilted 45 degrees to the left) by the tilting motors 12 and 13. After this, the tilting conveyor units N7 to N10 on the transport direction side following the tilting conveyor unit N6 are also sequentially switched to the tilted posture while delaying the timing for a certain period of time. The tray T supported by the tilting conveyor units 10 and 11 switched to the tilted posture is received by the guide roller 35 of the side guide 25a on the lower side of the tilted posture, and the guide roller 35 remains in the tilted posture while being rolled. It is continuously transported.
(3) As shown in FIGS. 8A and 8B, the tray T switches to the tilting posture integrally with the tilting conveyor units 10 and 11 while moving in the transport direction from the time when the tray T passes the sorting operation start position P1. After that, it will continue to move in the transport direction while maintaining the tilted posture. Therefore, the object W to be transported on the tray T slides downward on the loading surface Ts of the tray T by a heavy force as the tray T shifts to the inclined posture while being conveyed integrally with the tray T. It is paid out from the tray T to the side of the transport route. Therefore, on the payout side of the transported object W on both the left and right sides of the transport sorting device, as shown by virtual lines in FIGS. 6 to 9, a chute that inherits the transported object W that slides sideways from the tray T. S can be installed next to it.
(4) As described above, the tilting conveyor units 10 and 11 on the transporting direction side are sequentially switched to the tilted posture prior to the tray T being transported in the tilted posture, and as shown in FIG. 9A. , The tray T is continuously conveyed while maintaining the inclined posture, and the delivery of the transported object W is surely completed by the time the tray T passes through the sorting operation completion position P2. Therefore, when the tray T reaches the sorting operation completion position P2, the region supporting the tray T and the tilting conveyor units N6 to N10 in all the tilted postures on the transport direction side from this region are simultaneously moved from the tilted posture to the original. By returning to the horizontal transport posture of, as shown in FIG. 9B, the empty tray T can be sent out onto the carry-out conveyor 3 in a state of being returned to the horizontal transport posture.
(5) As shown in FIGS. 7B to 9A, each of the tilting conveyor units N1 to N5 that are delivered rearward relative to the tray T that is conveyed in the state of being switched to the tilted posture are close to the carrying-in conveyor 2. By sequentially returning from the inclined posture to the original horizontal transport posture from the side, the subsequent load-to-carry tray T can be received from the carry-in conveyor 2 as shown in FIGS. 9A and 9B.

The above-mentioned transport sorting apparatus is an embodiment of the present invention, and is not limited to its structure and usage. For example, when the transport path length of the transport sorting device is long and the number of tilting conveyor units used is large, the tilting conveyor units can be divided into a plurality of groups, and a conveyor drive motor 20 can be provided for each group. ..

Further, when the transport sorting device is composed of a plurality of assemblies 1A to 1E provided with two tilting conveyor units 10 and 11, in the above embodiment, the tilting motors 12 and 13 of the respective assemblies 1A to 1E and the tilting motors 12 and 13 are used. The structure is such that the columnar support members 14, 15 and 17 that support the bearings 5 and 6 at both ends of the support shafts 7 of the assemblies 1A to 1E are directly installed on the common gantry 16, but each of the assemblies 1A to 1E Independent pedestals 16 are provided in the above to complete the assemblies 1A to 1E, and the gantry 1A to 1E are arranged in series to connect the gantry 16 to each other, and the support shafts 7 are connected to each other by the rotation transmission joint 18. The conveyor driving motor 20 may be interlocked and connected to the support shaft 7 of the assembly at one end of the assemblies 1A to 1E.

The transport sorting device of the present invention loads the transported object on a dedicated transport tray and transports the transported object, as in the case of baggage transport sorting at an airport, and automatically sorts the transported object according to the transport destination. Can be used as a transport sorting device.

1A-1E Assembly 2 Carry-in conveyor 3 Carry-out conveyor 5,6,8a-9b, 27a, 27b, 41a, 41b Bearing 7 Support shaft 10,11 Tilt conveyor unit 12,13 Tilt motor 14,15,17 Column Support member 16 Stand 18, 31a, 31b Rotation transmission joint 19 Interlocking transmission shaft 20 Conveyor drive motor 21, 33, 44, 45 Winding transmission means 23 Rectangular frame 24a, 24b Belt conveyor 25a, 25b Side guide 29 Gearbox 42 , 43 Coupling bolt 46 Chute T Tray for loading the object to be transported W

When the present invention is carried out, specifically, one drive shaft (32) interlocked with the transfer conveyor (24a, 24b) is transferred to each tilting conveyor unit (10, 11). It is arranged above the interlocking transmission shaft (19) in a direction parallel to the object transport direction, and the one drive shaft (32) and the interlocking transmission shaft (19) are interlocked by the winding transmission means (33). Can be connected. Further , each tilting conveyor unit (10, 11) is provided with a bearing (8a to 9b) for swingably supporting the tilting conveyor unit (10, 11) around the interlocking transmission shaft (19). , A passive rotating body (38b, 39b) that is rotatably fitted to the interlocking transmission shaft (19) at a position adjacent to the bearing (8a, 9b) is fixed to the bearing (8a, 9b). The rotational force of the output shaft (36,37) of the tilting motor (12,13) arranged corresponding to the tilting conveyor unit (10,11) is transmitted to the output shaft (36,37). It is transmitted to the tilting conveyor unit (10, 11) via the winding transmission (38c, 39c) stretched between the rotating body (38a, 39a) and the passive rotating body (38b, 39b). It can be configured as follows. According to these configurations, the bearing on the tilting conveyor unit side, which is naturally required to swingably support the tilting conveyor unit around the interlocking transmission shaft, receives the rotational force of the output shaft of the tilting motor. By making it also used as a member, the number of required parts can be reduced, the whole can be simply configured, and the cost can be further reduced.

When the present invention is carried out, specifically, one drive shaft (32) interlocked with and connected to the transfer conveyor (24a, 24b) is transferred to each tilting conveyor unit (10, 11). It is arranged above the interlocking transmission shaft (19) in a direction parallel to the object transport direction, and the one drive shaft (32) and the interlocking transmission shaft (19) are interlocked by the winding transmission means (33). it can be consolidated. Further, each tilting conveyor unit (10, 11) is provided with a bearing (8a to 9b) for swingably supporting the tilting conveyor unit (10, 11) around the interlocking transmission shaft (19). , A passive rotating body (38b, 39b) that is rotatably fitted to the interlocking transmission shaft (19) at a position adjacent to the bearing (8a, 9b) is fixed to the bearing (8a, 9b). The rotational force of the output shaft (36,37) of the tilting motor (12,13) arranged corresponding to the tilting conveyor unit (10,11) is transmitted to the output shaft (36,37). It is transmitted to the tilting conveyor unit (10, 11) via the winding transmission (38c, 39c) stretched between the rotating body (38a, 39a) and the passive rotating body (38b, 39b). It can be configured as follows. According to these configurations, the bearing on the tilting conveyor unit side, which is naturally required to swingably support the tilting conveyor unit around the interlocking transmission shaft, receives the rotational force of the output shaft of the tilting motor. By making it also used as a member, the number of required parts can be reduced, the whole can be simply configured, and the cost can be further reduced.

Claims (3)

A plurality of tilting conveyor units arranged side by side in the transport direction are provided, and each tilt conveyor unit has a horizontal transport posture and a tilt posture for discharging the transported object laterally by gravity with respect to the transported object transport direction. A conveyor drive motor that is swingably supported around a support shaft parallel to the transport direction of the object to be transported and drives the conveyor for transporting the object to be transported, and each tilt conveyor unit. In the transport sorting device provided with the tilting motor that switches between the horizontal transport posture and the tilt posture.
The support shaft is composed of one interlocking transmission shaft having a length over the entire region including a plurality of tilting conveyor units, and the transport conveyor of all the tilting conveyor units in the region is interlocked with the interlocking transmission shaft. One of the conveyor drive motors is connected to the area, and the one conveyor drive motor transmits the conveyors of all the tilting conveyor units in the area to the interlocking transmission. A conveyor sorting device configured to be driven via a shaft. In each tilting conveyor unit, one drive shaft interlocked with the transport conveyor is arranged on the upper side of the interlocking transmission shaft in a direction parallel to the transport direction of the object to be transported, and the one drive shaft and the drive shaft are arranged. The interlocking transmission shaft is interlocked and connected by a winding transmission means, and each tilting conveyor unit is equipped with a bearing for swingably supporting the tilting conveyor unit around the interlocking transmission shaft. A passive rotating body that is rotatably fitted to the interlocking transmission shaft at an adjacent position is fixed to the bearing, and the rotational force of the output shaft of the tilting motor arranged corresponding to each tilting conveyor unit is reduced. The first aspect of claim 1, wherein the transmission is transmitted to the tilting conveyor unit via a winding transmission tool stretched between the transmission rotating body attached to the output shaft and the passive rotating body. Bearing sorting device. The plurality of tilting conveyor units are divided into a plurality of assemblies with two adjacent tilting conveyor units as one assembly, and in each assembly, one said support shaft whose both ends are supported via bearings. Supports two tilting conveyor units, and the supporting shafts are interlocked and connected by a joint between two adjacent assemblies to form the interlocking transmission shaft, and one conveyor driving motor is located at one end. The two tilting motors, which are arranged outside the assembly and drive the two tilting conveyor units in each assembly, have the transmission rotating bodies reversed in the front-rear direction on both the left and right sides of the interlocking transmission shaft in a plan view. The transport sorting device according to claim 2, which is installed so as to face each other.

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