CN110422598B

CN110422598B - Commodity circulation is joined in marriage goods with carrying reposition of redundant personnel platform

Info

Publication number: CN110422598B
Application number: CN201910793493.1A
Authority: CN
Inventors: 陈鹏
Original assignee: Suzhou Industrial Park Hanggang Logistics Co ltd
Current assignee: Suzhou Industrial Park Hanggang Logistics Co ltd
Priority date: 2019-08-27
Filing date: 2019-08-27
Publication date: 2021-01-05
Anticipated expiration: 2039-08-27
Also published as: CN110422598A

Abstract

The invention discloses a conveying and shunting platform for logistics distribution, which relates to the technical field of logistics storage and transportation and comprises a main frame body, a shunting frame, a main conveying belt assembly, a shunting switching mechanism, a drainage mechanism and a shunting control mechanism. The right-hand member fixed connection reposition of redundant personnel frame of the body frame body, main conveyer belt subassembly sets up on reposition of redundant personnel frame, reposition of redundant personnel conveyer belt subassembly sets up on main conveyer belt subassembly, reposition of redundant personnel conveyer belt subassembly is located the right side of main conveyer belt subassembly, reposition of redundant personnel conveyer belt subassembly is connected with main conveyer belt subassembly transmission, reposition of redundant personnel switching mechanism sets up on reposition of redundant personnel frame, drainage mechanism's lower extreme and reposition of redundant personnel switching mechanism's lower extreme are connected, reposition of redundant personnel control mechanism sets up on reposition of redundant personnel frame, reposition of redundant.

Description

Commodity circulation is joined in marriage goods with carrying reposition of redundant personnel platform

Technical Field

The invention relates to the technical field of logistics storage and transportation, in particular to a conveying and shunting platform for logistics distribution.

Background

The utility model provides a commodity circulation packing is with rotatory automatic reposition of redundant personnel platform of storage of storing of current patent number CN201720046627.X, this utility model provides a commodity circulation packing is with rotatory automatic reposition of redundant personnel platform of storage, including apotheca, seat cushion board, carousel, support post, bottom plate, rotation axis, group thing board, cylinder and telescopic link, bottom plate right-hand member assembly is at the inside lower terminal surface of apotheca, support post lower extreme is fixed on bottom plate up end right side, the carousel assembles at the support post up end, the seat cushion board is installed in carousel up end intermediate position through the bracing piece, this design has solved the problem that the facility occupation space that original material reposition of redundant personnel platform supplied to rest is big, the rotation axis lower extreme is installed at reposition of redundant personnel workstation up end, group thing board left end is installed on rotation axis annular side, the cylinder passes through the support mounting on reposition of redundant personnel workstation left end, the telescopic link left end assembles, this design has realized the purpose of sorting the material in batches, and this utility model convenient to use practices thrift the space, and stability is good, and the reliability is high. However, the device cannot divide the goods into two parts when the goods are conveyed to the side of the device.

Disclosure of Invention

The invention aims to provide a conveying and shunting platform for logistics distribution, which has the beneficial effects that the switching of two shunting modes can be conveniently realized, and when goods are conveyed to the side surface of the device, the goods can be divided into two parts.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a commodity circulation is joined in marriage goods and is used transportation reposition of redundant personnel platform, including the body frame body, reposition of redundant personnel frame, main conveyer belt subassembly, reposition of redundant personnel switching mechanism, drainage mechanism and reposition of redundant personnel flow control mechanism, the right-hand member fixed connection reposition of redundant personnel frame of the body frame body, main conveyer belt subassembly sets up on reposition of redundant personnel frame, reposition of redundant personnel conveyer belt subassembly sets up on main conveyer belt subassembly, reposition of redundant personnel conveyer belt subassembly is located the right side of main conveyer belt subassembly, reposition of redundant personnel conveyer belt subassembly is connected with main conveyer belt subassembly transmission, reposition of redundant personnel switching mechanism sets up on reposition of redundant personnel frame, drainage mechanism's lower extreme and reposition of redundant.

As a further optimization of the technical scheme, the conveying and shunting platform for logistics distribution comprises a main frame body, a side frame plate, a support plate, a side baffle plate and an L-shaped connecting plate, wherein the main frame body comprises a side frame plate, a side baffle plate and a side baffle plate; the symmetry is provided with two around the frame board, connects two backup pads between the lower extreme of two limit frame boards, and side shield of all fixed connection in the upper end of two limit frame boards, L type connecting plate of all fixed connection in the right side of two limit frame boards, reposition of redundant personnel frame fixed connection are on two L type connecting plates.

As a further optimization of the technical scheme, the conveying and shunting platform for logistics distribution comprises a shunting frame, a plurality of transverse rods and a plurality of U-shaped blocks, wherein the shunting frame comprises a rectangular seat, a side shunting guide plate, a main shunting guide plate, a belt accommodating groove, a transverse rod and the U-shaped blocks; the lower extreme fixed connection of rectangle seat is on two L type connecting plates, and two side reposition of redundant personnel deflector symmetries set up both ends around the rectangle seat, and main reposition of redundant personnel deflector sets up the right-hand member at the rectangle seat, and the belt arrangement groove sets up on the top surface of rectangle seat, and horizontal pole fixed connection is at the right-hand member of belt arrangement inslot side, both ends around two U type piece symmetry fixed connection are in rectangle seat bottom surface.

As a further optimization of the technical scheme, the conveying and shunting platform for logistics distribution comprises a main conveying belt assembly, a main conveying belt assembly and a driving belt assembly, wherein the main conveying belt assembly comprises a motor, a main roller shaft I, a main roller shaft II, a main roller, a main conveying belt, a driving belt wheel, a driven belt wheel and a driving belt wheel; the motor passes through motor frame fixed connection on the limit frame plate of front end, the output shaft of motor passes through coupling joint main roller axle I, the both ends of main roller axle I rotate the left side of connecting at two limit frame plates through the hubbed bearing respectively, the both ends of main roller axle II rotate the right side of connecting at two limit frame plates through the hubbed bearing respectively, all fixed connection a main roller section of thick bamboo on main roller axle I and the main roller axle II, two main roller sections of thick bamboo pass through main conveyer belt transmission and connect, the bottom surface of two side shields all laminates with main conveyer belt, fixed connection driving pulley and driven pulleys are respectively on main roller axle I and the main roller axle II, driving pulley and driven pulleys pass through belt transmission and connect, driving pulley fixed connection is on main roller axle II, driving pulley is connected with reposition of redundant personnel conveyer belt subassembly transmission.

As the further optimization of the technical scheme, the conveying and shunting platform for logistics distribution is characterized in that the shunting conveying belt assembly comprises an auxiliary roller shaft I, an auxiliary roller shaft II, an auxiliary roller, an auxiliary conveying belt and a transmission belt wheel; the auxiliary roller shaft I and the auxiliary roller shaft II are rotatably connected to the left end and the right end of the belt containing groove through belt seat bearings respectively, an auxiliary roller is fixedly connected to the auxiliary roller shaft I and the auxiliary roller shaft II, the two auxiliary rollers are in transmission connection through an auxiliary conveying belt, the auxiliary conveying belt is located in the belt containing groove, the cross rod is located between the auxiliary conveying belt and the main conveying belt, and the top surface of the cross rod, the top surface of the rectangular seat, the top surface of the auxiliary conveying belt and the top surface of the main conveying belt are located in the same plane; the front end of the auxiliary roller shaft I penetrates out of the rectangular seat, the front end of the auxiliary roller shaft I is fixedly connected with a driving belt wheel, and the driving belt wheel is in driving connection with the driving belt wheel through a belt.

As further optimization of the technical scheme, the conveying and shunting platform for logistics distribution comprises a shunting switching mechanism, a guide rod seat, a driven bevel gear, a trapezoidal sliding rail, a guide rod, a U-shaped seat, a rack I, a gear I, a transmission shaft, a guide plate and a shunting blocking plate, wherein the guide rod is arranged on the guide rod seat; the two ends of the screw rod are respectively connected to the two screw rod seats through a bearing with a seat in a rotating mode, the two screw rod seats are fixedly connected to the bottom surface of the rectangular seat, the driven bevel gear is fixedly connected to the right end of the screw rod and is in transmission connection with a shunt control mechanism, two trapezoidal slide rails and two guide rods are fixedly connected between the two screw rod seats, the U-shaped seat is connected to the two guide rods in a sliding fit mode, the U-shaped seat is connected to the screw rod through a thread fit mode, the two ends of the U-shaped seat are respectively and fixedly connected with a rack I, the two racks I are respectively in meshing transmission connection with the two gears I, the two gears I are respectively and fixedly connected to the lower ends of the two transmission shafts, the two transmission shafts are respectively connected to the front end and the rear end of the right side of; an angle of 130 degrees is formed between the transmission shaft and the guide plate, the connecting part of the guide plate and the shunting blocking plate is fixedly connected to the transmission shaft, and the bottom surfaces of the guide plate and the shunting blocking plate are attached to the auxiliary conveying belt; the shunting baffle plate and the side baffle plate are in the same plane, and the shunting baffle plate corresponds to the main shunting guide plate; the two guide plates are respectively positioned on two sides of the main flow dividing guide plate; the drainage mechanism is connected with the two trapezoidal sliding rails.

The conveying and shunting platform for logistics distribution has the beneficial effects that:

the conveying and shunting platform for logistics distribution can conveniently realize the switching of two shunting modes, and can divide goods into two parts when the goods are conveyed to the side surface of the device. When the two shunting blocking plates are in a horizontal state, the main shunting guide plate is in an open state, goods are output through the main shunting guide plate, the angles of the two shunting blocking plates and the two drainage plates are changed by adjusting the shunting control mechanism, the main shunting guide plate is closed when the two shunting blocking plates abut against each other, and meanwhile, the two side shunting guide plates are in an open state, so that the goods are output by being divided into two parts from the two side shunting guide plates, and the two shunting modes are switched; the guide plate and the drainage plate play roles in drainage and blocking, and the goods are prevented from falling off.

Drawings

Fig. 1 is a first schematic structural view of a conveying and shunting platform for logistics distribution according to the present invention;

fig. 2 is a schematic structural diagram of a second conveying and shunting platform for logistics distribution according to the present invention;

fig. 3 is a schematic structural diagram of a conveying and shunting platform for logistics distribution according to a third embodiment of the present invention;

fig. 4 is a schematic structural diagram of a conveying and shunting platform for logistics distribution according to a fourth embodiment of the present invention;

FIG. 5 is a schematic structural view of the main frame body;

FIG. 6 is a first schematic structural view of a shunt rack;

FIG. 7 is a second schematic structural view of a shunt shelf;

FIG. 8 is a schematic structural view of the primary conveyor belt assembly;

FIG. 9 is a schematic structural view of a diverting conveyor assembly;

fig. 10 is a schematic structural diagram of the shunt switching mechanism;

FIG. 11 is a schematic view of the drainage mechanism;

fig. 12 is a schematic structural view of the shunt control mechanism.

In the figure: a main frame body 1; 1-1 of a side frame plate; a support plate 1-2; 1-3 of a side baffle; 1-4 of an L-shaped connecting plate; a shunt frame 2; a rectangular base 2-1; a side flow dividing guide plate 2-2; 2-3 of a main shunt guide plate; 2-4 of a belt placing groove; 2-5 of a cross bar; 2-6 parts of a U-shaped block; a main conveyor belt assembly 3; a motor 3-1; a main roller shaft I3-2; a main roller shaft II 3-3; 3-4 parts of a main roller; 3-5 parts of a main conveying belt; 3-6 of a driving belt wheel; 3-7 parts of a driven belt wheel; 3-8 of a driving belt wheel; a shunt conveyor belt assembly 4; the auxiliary roller shaft I4-1; an auxiliary roller shaft II 4-2; 4-3 of an auxiliary roller; 4-4 parts of an auxiliary conveying belt; 4-5 of a transmission belt wheel; a shunt switching mechanism 5; 5-1 of a screw rod; 5-2 parts of a screw rod seat; 5-3 parts of a driven bevel gear; 5-4 of a trapezoidal sliding rail; 5-5 of a guide rod; 5-6 parts of a U-shaped seat; 5-7 of a rack; 5-8 parts of a gear I; 5-9 parts of a transmission shaft; 5-10 parts of a guide plate; 5-11 parts of a shunting blocking plate; a drainage mechanism 6; a linkage seat 6-1; a connecting rod 6-2; a rack II 6-3; 6-4 parts of a gear II; 6-5 of a driving shaft; 6-6 parts of a drainage plate; a shunt control mechanism 7; a rotating shaft 7-1; a drive bevel gear 7-2; adjusting a rotary table 7-3; and 7-4 of vertical frame plates.

Detailed Description

The present invention is described in further detail below with reference to the accompanying figures 1-12 and the detailed description.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 12, and a conveying and shunting platform for logistics distribution comprises a main frame body 1, a shunting frame 2, a main conveyor belt assembly 3, a shunting conveyor belt assembly 4, a shunting switching mechanism 5, a drainage mechanism 6 and a shunting control mechanism 7, the right-hand member fixed connection reposition of redundant personnel frame 2 of body frame 1, main conveyer belt subassembly 3 sets up on reposition of redundant personnel frame 2, reposition of redundant personnel conveyer belt subassembly 4 sets up on main conveyer belt subassembly 3, reposition of redundant personnel conveyer belt subassembly 4 is located the right side of main conveyer belt subassembly 3, reposition of redundant personnel conveyer belt subassembly 4 is connected with the transmission of main conveyer belt subassembly 3, reposition of redundant personnel switching mechanism 5 sets up on reposition of redundant personnel frame 2, drainage mechanism 6 sets up on reposition of redundant personnel frame 2, the lower extreme of drainage mechanism 6 is connected with the lower extreme of reposition of redundant personnel switching mechanism 5, reposition of redundant personnel control mechanism 7 sets up on reposition of redundant personnel frame 2, reposition of redundant personnel control mechanism 7 is. When the invention is used, after the main frame body 1 is electrified and started, the main frame body 1 synchronously drives the diversion conveyor belt assembly 4 to rotate, goods on the main frame body 1 are conveyed rightwards to the diversion conveyor belt assembly 4, the two diversion baffle plates 5-11 are respectively in the same plane with the side baffle plates 1-3, the inner side surfaces of the two diversion plates 6-6 are respectively attached to the two diversion baffle plates 5-11, the two diversion plates 6-6 and the two diversion baffle plates 5-11 block the front side and the rear side of the diversion frame 2, the goods are conveyed rightwards on the diversion conveyor belt assembly 4 and are output from the right side of the diversion frame 2, when the diversion direction of the goods needs to be changed and the goods are respectively output from the front side and the rear side of the diversion frame 2, the diversion control mechanism 7 is adjusted, the diversion switching mechanism 7 drives the diversion switching mechanism 5 to work, the diversion switching mechanism 5 drives the two diversion baffle plates 5-, the left ends of the two shunting baffle plates 5-11 are abutted against each other to block the right side of the shunting frame 2, the shunting switching mechanism 5 simultaneously drives the two guide plates 5-10 and the two drainage plates 6-6 to be in a parallel state, the front side and the rear side of the shunting frame 2 are opened, goods conveyed to the shunting conveying belt assembly 4 are respectively output from the front side and the rear side of the shunting frame 2 under the action of the two shunting baffle plates 5-11, the shunting direction of the goods is changed, and meanwhile the two guide plates 5-10 and the two drainage plates 6-6 play roles of guiding and blocking to avoid the goods from falling off.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1 to 12, wherein the main frame body 1 includes a side frame plate 1-1, a support plate 1-2, a side baffle plate 1-3 and an L-shaped connecting plate 1-4; the front and the back of the side frame plates 1-1 are symmetrically provided with two side frame plates 1-1, two supporting plates 1-2 are connected between the lower ends of the two side frame plates 1-1, the upper ends of the two side frame plates 1-1 are fixedly connected with a side baffle 1-3, the right sides of the two side frame plates 1-1 are fixedly connected with an L-shaped connecting plate 1-4, and the shunt frame 2 is fixedly connected to the two L-shaped connecting plates 1-4. The two side baffles 1-3 play a role in blocking, and the goods are prevented from falling off a conveying track in the conveying process.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1-12, and the shunt bracket 2 comprises a rectangular base 2-1, a side shunt guide plate 2-2, a main shunt guide plate 2-3, a belt accommodating groove 2-4, a cross bar 2-5 and a U-shaped block 2-6; the lower end of a rectangular seat 2-1 is fixedly connected to two L-shaped connecting plates 1-4, two side shunt guide plates 2-2 are symmetrically arranged at the front end and the rear end of the rectangular seat 2-1, a main shunt guide plate 2-3 is arranged at the right end of the rectangular seat 2-1, a belt accommodating groove 2-4 is arranged on the top surface of the rectangular seat 2-1, a cross rod 2-5 is fixedly connected to the right end of the inner side of the belt accommodating groove 2-4, and two U-shaped blocks 2-6 are symmetrically and fixedly connected to the front end and the rear end of the bottom surface of the rectangular seat 2-1.

The fourth concrete implementation mode:

the present embodiment will be described with reference to fig. 1-12, wherein the main conveyor belt assembly 3 includes a motor 3-1, a main roller shaft i 3-2, a main roller shaft ii 3-3, a main roller 3-4, a main conveyor belt 3-5, a driving pulley 3-6, a driven pulley 3-7 and a driving pulley 3-8; the motor 3-1 is fixedly connected on the side frame plate 1-1 at the front end through a motor frame, the output shaft of the motor 3-1 is connected with the main roller shaft I3-2 through a coupling, two ends of the main roller shaft I3-2 are respectively and rotatably connected on the left sides of the two side frame plates 1-1 through bearings with seats, two ends of the main roller shaft II 3-3 are respectively and rotatably connected on the right sides of the two side frame plates 1-1 through bearings with seats, the main roller shaft I3-2 and the main roller shaft II 3-3 are respectively and fixedly connected with a main roller 3-4, the two main rollers 3-4 are in transmission connection through a main conveyer belt 3-5, the bottom surfaces of the two side baffles 1-3 are respectively attached with the main conveyer belt 3-5, the main roller shaft I3-2 and the main roller shaft II 3-3 are respectively and fixedly connected with a driving belt pulley 3-6 and a driven belt pulley 3-7, the driving belt wheels 3-6 are in transmission connection with the driven belt wheels 3-7 through belts, the driving belt wheels 3-8 are fixedly connected to the main roller shaft II 3-3, and the driving belt wheels 3-8 are in transmission connection with the shunt conveying belt assembly 4. When the main conveying belt assembly 3 is used, the motor 3-1 is connected with a power supply and a control switch through a lead and is started, the motor 3-1 drives the main roller shaft I3-2 to rotate clockwise, the main roller shaft I3-2 drives the driving belt pulley 3-6 to rotate, the driving belt pulley 3-6 drives the driven belt pulley 3-7 to rotate, the driven belt pulley 3-7 drives the main roller shaft II 3-3 to rotate, the main roller shaft I3-2 and the main roller shaft II 3-3 respectively drive the two rollers 3-4 to rotate, the two rollers 3-4 drive the main conveying belt 3-5 to rotate clockwise, and goods on the main conveying belt 3-5 are conveyed to the right.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 12, and the split-flow conveyor belt assembly 4 comprises an auxiliary roller shaft i 4-1, an auxiliary roller shaft ii 4-2, an auxiliary roller 4-3, an auxiliary conveyor belt 4-4 and a transmission belt pulley 4-5; an auxiliary roller shaft I4-1 and an auxiliary roller shaft II 4-2 are rotatably connected to the left end and the right end of a belt containing groove 2-4 through bearings with seats respectively, an auxiliary roller 4-3 is fixedly connected to the auxiliary roller shaft I4-1 and the auxiliary roller shaft II 4-2, the two auxiliary rollers 4-3 are in transmission connection through an auxiliary conveying belt 4-4, the auxiliary conveying belt 4-4 is located in the belt containing groove 2-4, a cross rod 2-5 is located between the auxiliary conveying belt 4-4 and a main conveying belt 3-5, and the top surface of the cross rod 2-5, the top surface of the rectangular seat 2-1, the top surface of the auxiliary conveying belt 4-4 and the top surface of the main conveying belt 3-5 are in the same plane; the front end of the auxiliary roller shaft I4-1 penetrates out of the rectangular seat 2-1, the front end of the auxiliary roller shaft I4-1 is fixedly connected with a transmission belt wheel 4-5, and the transmission belt wheel 4-5 is in transmission connection with a driving belt wheel 3-8 through a belt. When the shunting conveyer belt assembly 4 is used, the main roller shaft II 3-3 drives the driving belt wheel 3-8 to rotate clockwise, the driving belt wheel 3-8 drives the auxiliary roller shaft I4-1 to rotate, the auxiliary roller shaft I4-1 drives the auxiliary roller 4-3 on the auxiliary roller shaft I4-1 to rotate, the auxiliary roller 4-3 drives the auxiliary conveyer belt 4-4 to rotate clockwise, the auxiliary conveyer belt 4-4 drives the auxiliary roller 4-3 on the auxiliary roller shaft II 4-2 to rotate, goods on the main conveyer belt 3-5 are conveyed onto the auxiliary conveyer belt 4-4, the goods are continuously conveyed rightwards under the clockwise rotation of the auxiliary conveyer belt 4-4, and when the two shunting blocking plates 5-11 are in a horizontal state, the goods are conveyed rightwards and output from the main shunting guiding plate 2-3; the cross rods 2-5 are positioned between the auxiliary conveyor belts 4-4 and the main conveyor belts 3-5, so that the goods are prevented from being clamped between the main conveyor belts 3-5 and the auxiliary conveyor belts 4-4 to influence the conveying of the goods.

The sixth specific implementation mode:

the embodiment is described below with reference to fig. 1 to 12, and the split-flow switching mechanism 5 includes a screw 5-1, a screw seat 5-2, a driven bevel gear 5-3, a trapezoidal sliding rail 5-4, a guide rod 5-5, a U-shaped seat 5-6, a rack i 5-7, a gear i 5-8, a transmission shaft 5-9, a guide plate 5-10, and a split-flow blocking plate 5-11; two ends of a screw 5-1 are respectively rotatably connected to two screw seats 5-2 through a bearing with a seat, the two screw seats 5-2 are fixedly connected to the bottom surface of a rectangular seat 2-1, a driven bevel gear 5-3 is fixedly connected to the right end of the screw 5-1, the driven bevel gear 5-3 is in transmission connection with a shunt control mechanism 7, two trapezoidal slide rails 5-4 and two guide rods 5-5 are fixedly connected between the two screw seats 5-2, a U-shaped seat 5-6 is in sliding fit connection with the two guide rods 5-5, the U-shaped seat 5-6 is in threaded fit connection with the screw 5-1, two ends of the U-shaped seat 5-6 are respectively and fixedly connected with a rack I5-7, and the two racks I5-7 are respectively in meshing transmission connection with two gears I5-8, the two gears I5-8 are respectively and fixedly connected to the lower ends of the two transmission shafts 5-9, the two transmission shafts 5-9 are respectively and rotatably connected to the front end and the rear end of the right side of the rectangular seat 2-1 through bearings with seats, two guide plates 5-10 are arranged, and the left ends of the two guide plates 5-10 are respectively and fixedly connected with a shunting blocking plate 5-11; an angle of 130 degrees is formed between the transmission shaft 5-9 and the guide plate 5-10, the joint of the guide plate 5-10 and the split flow blocking plate 5-11 is fixedly connected to the transmission shaft 5-9, and the bottom surfaces of the guide plate 5-10 and the split flow blocking plate 5-11 are attached to the auxiliary conveying belt 4-4; the shunting baffle plates 5-11 and the side baffle plates 1-3 are in the same plane, and the shunting baffle plates 5-11 correspond to the main shunting guide plates 2-3; the two guide plates 5-10 are respectively positioned at the two sides of the main flow dividing guide plate 2-3; the drainage mechanism 6 is connected with two trapezoidal slide rails 5-4. When the shunting switching mechanism 5 is used and the shunting direction of goods needs to be changed, the shunting control mechanism 7 is adjusted, the shunting control mechanism 7 drives the driven bevel gear 5-3 to rotate, the driven bevel gear 5-3 drives the screw rod 5-1 to rotate, the screw rod 5-1 and the U-shaped seat 5-6 generate relative displacement through threaded connection, the U-shaped seat 5-6 is driven to move rightwards, the two guide rods 5-5 play a role of limiting and guiding, the U-shaped seat 5-6 drives the two racks I5-7 to move rightwards, the two racks I5-7 respectively drive the two gears I5-8 to rotate, the two gears I5-8 drive the two transmission shafts 5-9 to rotate, the two transmission shafts 5-9 drive the two shunting baffle plates 5-11 and the two guide plates 5-10 to rotate, the left ends of the two diversion baffle plates 5-11 are abutted against each other, and goods on the auxiliary conveyer belt 4-4 move to the front side and the rear side under the blocking action of the two diversion baffle plates 5-11 and are output from the two side diversion guide plates 2-2.

The seventh embodiment:

the embodiment is described below with reference to fig. 1 to 12, and the drainage mechanism 6 includes a linkage seat 6-1, a connecting rod 6-2, a rack ii 6-3, a gear ii 6-4, a driving shaft 6-5 and a drainage plate 6-6; the linkage seat 6-1 is connected on the screw rod 5-1 in a threaded fit manner, the linkage seat 6-1 is connected on the two trapezoidal sliding rails 5-4 in a sliding fit manner, two ends of the linkage seat 6-1 are respectively hinged with one connecting rod 6-2, the two connecting rods 6-2 are respectively hinged with one rack II 6-3, the two racks II 6-3 are respectively in meshed transmission connection with the two gears II 6-4, the two gears II 6-4 are respectively and fixedly connected with the lower ends of the two driving shafts 6-5, the two driving shafts 6-5 are respectively and rotatably connected with the front end and the rear end on the right side of the rectangular seat 2-1 through a bearing with a seat, the upper ends of the two driving shafts 6-5 are respectively and fixedly connected with one drainage plate 6-6, and the bottom surfaces of the two drainage plates 6, the inner side surfaces of the two drainage plates 6-6 are respectively attached to the two shunting blocking plates 5-11; the two racks II 6-3 are respectively connected in the two U-shaped blocks 2-6 in a sliding fit manner. When the drainage mechanism 6 is used, the screw rod 5-1 and the linkage seat 6-1 are connected through threads to generate relative displacement, the screw rod 5-1 drives the U-shaped seat 5-6 to move rightwards and simultaneously drives the linkage seat 6-1 to move rightwards, the linkage seat 6-1 drives the two racks II 6-3 to move oppositely through the two connecting rods 6-2, the two racks II 6-3 drive the two gears II 6-4 to rotate, the two gears II 6-4 drive the two driving shafts 6-5 to rotate, the two driving shafts 6-5 drive the two drainage plates 6-6 to be in a vertical state from a horizontal state, the drainage plates 6-6 and the guide plates 5-10 are positioned on two sides of the side diversion guide plate 2-2 in a parallel state, and play roles of blocking and drainage on goods output from the side diversion guide plate 2-2, the goods are prevented from falling off from the side diversion guide plate 2-2.

The specific implementation mode is eight:

referring to fig. 1-12, the flow dividing control mechanism 7 includes a rotating shaft 7-1, a driving bevel gear 7-2, an adjusting turntable 7-3 and a vertical frame plate 7-4; two ends of a rotating shaft 7-1 are respectively fixedly connected with a driving bevel gear 7-2 and an adjusting turntable 7-3, the driving bevel gear 7-2 is in meshed transmission connection with a driven bevel gear 5-3, the rotating shaft 7-1 is rotatably connected to a vertical frame plate 7-4 through a bearing with a seat, and the vertical frame plate 7-4 is fixedly connected to the bottom surface of a rectangular seat 2-1. The adjusting turntable 7-3 is rotated, the adjusting turntable 7-3 drives the rotating shaft 7-1 to rotate, the rotating shaft 7-1 drives the driving bevel gear 7-2 to rotate, and the driving bevel gear 7-2 drives the driven bevel gear 5-3 to rotate.

The invention relates to a working principle of a conveying and shunting platform for logistics distribution, which comprises the following steps: when the invention is used, after the main frame body 1 is electrified and started, the main frame body 1 synchronously drives the diversion conveyor belt assembly 4 to rotate, goods on the main frame body 1 are conveyed rightwards to the diversion conveyor belt assembly 4, the two diversion baffle plates 5-11 are respectively in the same plane with the side baffle plates 1-3, the inner side surfaces of the two diversion plates 6-6 are respectively attached to the two diversion baffle plates 5-11, the two diversion plates 6-6 and the two diversion baffle plates 5-11 block the front side and the rear side of the diversion frame 2, the goods are conveyed rightwards on the diversion conveyor belt assembly 4 and are output from the right side of the diversion frame 2, when the diversion direction of the goods needs to be changed and the goods are respectively output from the front side and the rear side of the diversion frame 2, the diversion control mechanism 7 is adjusted, the diversion switching mechanism 7 drives the diversion switching mechanism 5 to work, the diversion switching mechanism 5 drives the two diversion baffle plates 5-, the left ends of the two shunting baffle plates 5-11 are abutted against each other to block the right side of the shunting frame 2, the shunting switching mechanism 5 simultaneously drives the two guide plates 5-10 and the two drainage plates 6-6 to be in a parallel state, the front side and the rear side of the shunting frame 2 are opened, goods conveyed to the shunting conveying belt assembly 4 are respectively output from the front side and the rear side of the shunting frame 2 under the action of the two shunting baffle plates 5-11, the shunting direction of the goods is changed, and meanwhile the two guide plates 5-10 and the two drainage plates 6-6 play roles of guiding and blocking to avoid the goods from falling off.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a commodity circulation is joined in marriage goods and is used transport reposition of redundant personnel platform, includes the body frame (1), shunts frame (2), main conveyer belt subassembly (3), shunts conveyer belt subassembly (4), reposition of redundant personnel switching mechanism (5), drainage mechanism (6) and reposition of redundant personnel flow control mechanism (7), its characterized in that: the right end of the main frame body (1) is fixedly connected with a shunt frame (2), a main conveyor belt assembly (3) is arranged on the shunt frame (2), a shunt conveyor belt assembly (4) is arranged on the main conveyor belt assembly (3), the shunt conveyor belt assembly (4) is positioned on the right side of the main conveyor belt assembly (3), the shunt conveyor belt assembly (4) is in transmission connection with the main conveyor belt assembly (3), a shunt switching mechanism (5) is arranged on the shunt frame (2), a drainage mechanism (6) is arranged on the shunt frame (2), the lower end of the drainage mechanism (6) is connected with the lower end of the shunt switching mechanism (5), a shunt control mechanism (7) is arranged on the shunt frame (2), and the shunt control mechanism (7) is in transmission connection with the shunt switching mechanism (5);

the main frame body (1) comprises side frame plates (1-1), supporting plates (1-2), side baffles (1-3) and L-shaped connecting plates (1-4); the front and the back of each side frame plate (1-1) are symmetrically provided with two side frame plates (1-1), two supporting plates (1-2) are connected between the lower ends of the two side frame plates (1-1), the upper ends of the two side frame plates (1-1) are fixedly connected with a side baffle (1-3), the right sides of the two side frame plates (1-1) are fixedly connected with an L-shaped connecting plate (1-4), and the shunt frame (2) is fixedly connected to the two L-shaped connecting plates (1-4);

the shunting frame (2) comprises a rectangular seat (2-1), side shunting guide plates (2-2), main shunting guide plates (2-3), belt accommodating grooves (2-4), cross rods (2-5) and U-shaped blocks (2-6); the lower end of a rectangular seat (2-1) is fixedly connected to two L-shaped connecting plates (1-4), two side shunt guide plates (2-2) are symmetrically arranged at the front end and the rear end of the rectangular seat (2-1), a main shunt guide plate (2-3) is arranged at the right end of the rectangular seat (2-1), a belt containing groove (2-4) is arranged on the top surface of the rectangular seat (2-1), a cross rod (2-5) is fixedly connected to the right end of the inner side of the belt containing groove (2-4), and two U-shaped blocks (2-6) are symmetrically and fixedly connected to the front end and the rear end of the bottom surface of the rectangular seat (2-1);

the main conveying belt component (3) comprises a motor (3-1), a main roller shaft I (3-2), a main roller shaft II (3-3), a main roller (3-4), a main conveying belt (3-5), a driving pulley (3-6), a driven pulley (3-7) and a driving pulley (3-8); the motor (3-1) is fixedly connected to the front end side frame plate (1-1) through a motor frame, the output shaft of the motor (3-1) is connected with the main roller shaft I (3-2) through a coupling, two ends of the main roller shaft I (3-2) are respectively and rotatably connected to the left sides of the two side frame plates (1-1), two ends of the main roller shaft II (3-3) are respectively and rotatably connected to the right sides of the two side frame plates (1-1), the main roller shaft I (3-2) and the main roller shaft II (3-3) are respectively and fixedly connected with a main roller (3-4), the two main rollers (3-4) are in transmission connection through a main conveying belt (3-5), the bottom surfaces of the two side baffles (1-3) are respectively attached to the main conveying belt (3-5), and the main roller shaft I (3-2) and the main roller shaft II (3-3) are respectively and fixedly connected with a driving belt wheel (3) 6) The driving belt wheel (3-6) is in transmission connection with the driven belt wheel (3-7) through a belt, the driving belt wheel (3-8) is fixedly connected to the main roller shaft II (3-3), and the driving belt wheel (3-8) is in transmission connection with the shunt conveying belt component (4);

the split-flow conveyor belt component (4) comprises an auxiliary roller shaft I (4-1), an auxiliary roller shaft II (4-2), an auxiliary roller (4-3), an auxiliary conveyor belt (4-4) and a transmission belt wheel (4-5); an auxiliary roller shaft I (4-1) and an auxiliary roller shaft II (4-2) are respectively rotatably connected to the left end and the right end of a belt placing groove (2-4), the auxiliary roller shaft I (4-1) and the auxiliary roller shaft II (4-2) are fixedly connected with an auxiliary roller (4-3), the two auxiliary rollers (4-3) are in transmission connection through an auxiliary conveying belt (4-4), the auxiliary conveying belt (4-4) is located in the belt placing groove (2-4), a cross bar (2-5) is located between the auxiliary conveying belt (4-4) and a main conveying belt (3-5), and the top surface of the cross bar (2-5), the top surface of a rectangular seat (2-1), the top surface of the auxiliary conveying belt (4-4) and the top surface of the main conveying belt (3-5) are in the same plane; the front end of the auxiliary roller shaft I (4-1) penetrates out of the rectangular seat (2-1), the front end of the auxiliary roller shaft I (4-1) is fixedly connected with a transmission belt wheel (4-5), and the transmission belt wheel (4-5) is in transmission connection with a driving belt wheel (3-8) through a belt;

the shunting switching mechanism (5) comprises a screw rod (5-1), a screw rod seat (5-2), a driven bevel gear (5-3), a trapezoidal sliding rail (5-4), a guide rod (5-5), a U-shaped seat (5-6), a rack I (5-7), a gear I (5-8), a transmission shaft (5-9), a guide plate (5-10) and a shunting blocking plate (5-11); two ends of a screw rod (5-1) are respectively and rotatably connected to two screw rod seats (5-2), the two screw rod seats (5-2) are fixedly connected to the bottom surface of a rectangular seat (2-1), a driven bevel gear (5-3) is fixedly connected to the right end of the screw rod (5-1), the driven bevel gear (5-3) is in transmission connection with a shunt control mechanism (7), two trapezoidal slide rails (5-4) and two guide rods (5-5) are fixedly connected between the two screw rod seats (5-2), a U-shaped seat (5-6) is in sliding fit connection with the two guide rods (5-5), the U-shaped seat (5-6) is in threaded fit connection with the screw rod (5-1), two ends of the U-shaped seat (5-6) are both fixedly connected with a rack I (5-7), the two racks I (5-7) are respectively in meshing transmission connection with the two gears I (5-8), the two gears I (5-8) are respectively and fixedly connected to the lower ends of the two transmission shafts (5-9), the two transmission shafts (5-9) are respectively and rotatably connected to the front end and the rear end of the right side of the rectangular seat (2-1), two guide plates (5-10) are arranged, and the left ends of the two guide plates (5-10) are respectively and fixedly connected with a shunting blocking plate (5-11); an angle of 130 degrees is formed between the transmission shaft (5-9) and the guide plate (5-10), the joint of the guide plate (5-10) and the shunt blocking plate (5-11) is fixedly connected to the transmission shaft (5-9), and the bottom surfaces of the guide plate (5-10) and the shunt blocking plate (5-11) are attached to the auxiliary conveying belt (4-4); the shunting baffle plates (5-11) and the side baffle plates (1-3) are in the same plane, and the shunting baffle plates (5-11) correspond to the main shunting guide plates (2-3); the two guide plates (5-10) are respectively positioned at the two sides of the main flow dividing guide plate (2-3); the drainage mechanism (6) is connected with the two trapezoidal sliding rails (5-4);

the drainage mechanism (6) comprises a linkage seat (6-1), a connecting rod (6-2), a rack II (6-3), a gear II (6-4), a driving shaft (6-5) and a drainage plate (6-6); the linkage seat (6-1) is connected on the lead screw (5-1) in a threaded fit manner, the linkage seat (6-1) is connected on the two trapezoidal slide rails (5-4) in a sliding fit manner, two ends of the linkage seat (6-1) are respectively hinged with one connecting rod (6-2), the two connecting rods (6-2) are respectively hinged with one rack II (6-3), the two racks II (6-3) are respectively meshed with the two gears II (6-4) in a transmission manner, the two gears II (6-4) are respectively and fixedly connected at the lower ends of the two driving shafts (6-5), the two driving shafts (6-5) are respectively and rotatably connected at the front end and the rear end on the right side of the rectangular seat (2-1), the upper ends of the two driving shafts (6-5) are respectively and fixedly connected with one drainage plate (6, the bottom surfaces of the two drainage plates (6-6) are attached to the rectangular base (2-1), and the inner side surfaces of the two drainage plates (6-6) are respectively attached to the two shunting blocking plates (5-11); the two racks II (6-3) are respectively connected in the two U-shaped blocks (2-6) in a sliding fit manner.

2. The conveying and shunting platform for logistics distribution according to claim 1, wherein: the shunt control mechanism (7) comprises a rotating shaft (7-1), a driving bevel gear (7-2), an adjusting turntable (7-3) and a vertical frame plate (7-4); two ends of the rotating shaft (7-1) are respectively fixedly connected with a driving bevel gear (7-2) and an adjusting turntable (7-3), the driving bevel gear (7-2) is in meshing transmission connection with a driven bevel gear (5-3), the rotating shaft (7-1) is rotatably connected to a vertical frame plate (7-4), and the vertical frame plate (7-4) is fixedly connected to the bottom surface of the rectangular seat (2-1).