CN210788234U - Intelligent logistics sorting system - Google Patents

Abstract

The utility model relates to an intelligence letter sorting system of commodity circulation, including first support, two limiting plates, the second support, two deflectors and letter sorting conveyer belt, the spread groove has been seted up on the limiting plate, the one end of second support is fixed in on the position that first support is close to the spread groove, install letter sorting scanning assembly on the limiting plate, still install netted conveyer belt between two limiting plates, it is used for pushing away the promotion subassembly on the letter sorting conveyer belt to the goods from the spread groove to keep away from to install on the limiting plate of spread groove, install the controller that control promoted the subassembly operation on the limiting plate, install the dust absorption subassembly that is used for adsorbing the dust that produces when promoting the subassembly and promote the goods on the first support. The utility model discloses when the goods of powder in bags sorting, promote the subassembly and promote the goods and push away to the conveyer belt from the spread groove on, the dust absorption subassembly has then played good adsorption to the dust that produces when sorting goods, has reduced the dust content that rises in the air, is favorable to staff's physical and mental health.

Description

Intelligent logistics sorting system

Technical Field

The utility model belongs to the technical field of the technique and specifically relates to a commodity circulation intelligence letter sorting system is related to.

Background

With the rapid development of electronic commerce, the demand for logistics distribution is increasing, and in the current logistics model of electronic commerce, goods need to be sorted according to the order requirement of customers or the distribution plan.

The utility model discloses a chinese utility model patent that bulletin number is CN209334256U discloses a commodity circulation storing and sorting device for electronic commerce, including the fixed stay, fixed diaphragm, two are installed to the horizontal symmetry of the inboard middle-end of fixed stay the inside embedding of fixed diaphragm installs the storing box, the direction spout has been seted up to the equal symmetry of the inboard limit portion middle-end of fixed diaphragm, storing box both sides limit portion and the welding of direction spout correspondence position department have the direction slider, the storing box bottom is kept away from support one side department symmetry and has been seted up and accomodate the groove, it is connected with tensile support through the pivot rotation to accomodate inslot portion near support one side department. The utility model discloses a when the letter sorting goods, come to sort the scanning to the goods through the letter sorting scanning probe on letter sorting scanning support top, push away the handle through artifical the control afterwards for in the activity ejector pad of activity push rod tip pushes the spread groove with the goods after the letter sorting, the rethread spread groove further carries the goods to the letter sorting conveyer belt.

But sorting device among the above-mentioned technical scheme only is applicable to the goods that have the packing carton class, and when the goods of required letter sorting was powder in bags, the activity push pedal promoted powder in bags after, can produce the dust of a large amount of lifts, and the dust floats in the air, is difficult to obtain effective processing, is unfavorable for staff's physical and mental health.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a commodity circulation intelligence letter sorting system, this commodity circulation intelligence letter sorting system can carry out effective absorption to the dust that the goods letter sorting in-process produced, has reduced the dust content that rises in the air, is favorable to staff's physical and mental health.

The above technical purpose of the present invention can be achieved by the following technical solutions: an intelligent logistics sorting system comprises a first support, limiting plates fixed on two sides of the first support, a second support, guiding plates fixed on two sides of the second support and sorting conveying belts movably arranged between the two guiding plates, wherein one of the limiting plates is provided with a connecting groove, one end of the second support is fixed on a position on the side wall of the first support, which is close to the connecting groove, the two limiting plates are jointly provided with a sorting and scanning assembly for scanning two-dimensional codes on goods, a mesh conveying belt for conveying goods is also arranged between the two limiting plates, a pushing assembly for pushing the goods on the mesh conveying belt to the sorting conveying belt from the connecting groove is arranged on the limiting plate far away from the connecting groove, a controller for controlling the pushing assembly to operate according to information obtained by the sorting and scanning assembly is arranged on the limiting plates, and a dust collection assembly for adsorbing dust generated when the pushing assembly pushes the goods is arranged on the first bracket.

By adopting the technical scheme, when the goods of the bagged powder are sorted, the worker only needs to place the goods on the mesh conveyor belt and enable one side containing the two-dimensional codes to face upwards, and the goods are conveyed on the mesh conveyor belt; when goods on the mesh conveyor belt pass through the sorting and scanning assembly, the sorting and scanning assembly scans the two-dimensional codes of the goods; when the goods scanned by the sorting and scanning assembly are the goods to be sorted, the controller controls the pushing assembly to operate according to the programming instruction, and the pushing assembly pushes the goods from the connecting groove to the sorting conveying belt for next-step transmission; a large amount of dust is generated in the process of pushing the goods by the pushing assembly, the dust collection assembly has a good adsorption effect on the dust, the content of the dust raised in the air is reduced, and physical and psychological health of workers is facilitated; while when the pusher assembly is not operating, the goods continue to be transported along the web conveyor.

The utility model discloses further set up to: the dust collection assembly comprises a cross rod fixed on the first support, a hopper fixed on the cross rod and far away from one end of the first support, a blanking pipe fixed and communicated with the lower end of the hopper, a collecting tank fixed at the lower end of the blanking pipe and communicated with the blanking pipe, a fan fixed on the first support and a connecting pipe fixed at an air inlet of the fan, wherein one end, far away from the air inlet of the fan, of the connecting pipe is fixed and communicated with the collecting tank.

Through adopting above-mentioned technical scheme, promote the subassembly and promote the goods to when producing a large amount of dust, the staff only need open the fan, fan work back, make the air in the collection tank flow to fan one side, thereby make the air of hopper top flow to collection tank inside along the hopper, make in this air admission collection tank that contains the dust, so that the staff carries out centralized processing to the dust.

The utility model discloses further set up to: install filtering component in the collection tank, filtering component including be fixed in the collection tank on the lateral wall, run through the collection tank roof and rather than the fixed plate of sliding the complex fixed frame, being fixed in the filter screen in the fixed frame and being fixed in fixed frame upper surface, the lower surface of fixed frame and the upper surface butt of diaphragm, the lower surface of fixed plate and the upper surface laminating of collection tank, run through on the fixed plate and be equipped with the bolt, just bolt and collection tank top threaded connection.

By adopting the technical scheme, after air containing dust enters the collecting tank, the filter screen has a good filtering effect on the dust, and the possibility that the dust enters the connecting pipe is reduced, so that most of the dust is concentrated in the collecting tank, and workers can conveniently treat the dust; in addition, the fixed frame of fixed filter screen and the cooperation of sliding of collection tank deck portion, and pass through the bolt fastening between the fixed plate at fixed frame top and the collection tank deck portion to this staff of being convenient for dismantles and clears up the filter screen, is favorable to keeping filtering component's normal filtering capability.

The utility model discloses further set up to: and a rubber sheet is fixed on the lower surface of the fixing plate.

Through adopting above-mentioned technical scheme, the sheet rubber adopts rubber materials to make, has good elasticity performance, and after the bolt was screwed up, the sheet rubber was fully filled up the clearance between fixed plate and the collection tank top to this sealing performance between fixed plate and the collection tank has been improved, is favorable to dust absorption subassembly to carry out dust absorption work.

The utility model discloses further set up to: the collecting tank is characterized in that a discharging pipe communicated with the collecting tank is fixed on the position, close to the bottom, of the side wall of the collecting tank, a gate used for controlling the on-off of the collecting tank is arranged in the discharging pipe, a baffle is hinged to the position, close to the discharging pipe, of the inner bottom wall of the collecting tank, the baffle is connected with the inner bottom wall of the collecting tank through a spring, and a fastening assembly used for fastening the baffle downwards is installed on the side wall of the collecting tank.

Through adopting above-mentioned technical scheme, dust content in the collecting tank is more, when needing to unload, and the staff only need control and support tight subassembly to make the baffle slowly rise under the effect of spring, open the gate simultaneously, so that the staff will collect the dust in the jar and unload out can from the discharging pipe.

The utility model discloses further set up to: the tight subassembly is including being fixed in the dead lever on the collector tank inside wall, being fixed in the dead lever and keeping away from the spacing ring of collector tank inside wall one end, set up in the spacing ring and rather than the complex slide bar that slides, be fixed in the spacing post on the slide bar lateral wall, set up on the spacing ring and with the complex cell body that slides of spacing post and be fixed with the action bars of slide bar upper end, work as when the top arc surface of spacing post supports tightly with the bottom surface of spacing ring, the slide bar lower extreme supports tightly with the upper surface of baffle.

Through adopting above-mentioned technical scheme, when needing to unload, the staff only needs to hold the action bars and rotate, make spacing post and cell body aim at, simultaneously upwards slowly carry draw the action bars, so that spacing post keep away from gradually can, at this in-process, the slide bar disappears to the tight effect of supporting of baffle upper surface gradually, the baffle is to discharging pipe lopsidedness under the spring action of spring gradually, so that the dust on the baffle is to discharging pipe lopsidedness, thereby be convenient for the staff to unload the dust from the discharging pipe.

The utility model discloses further set up to: the axial of action bars is parallel with the axial of spacing post, the instruction groove that is used for instructing the cell body position is seted up at collection tank top.

Through adopting above-mentioned technical scheme, instruct the groove and can be used to instruct the position of cell body on the spacing ring, and the axial of action bars and the axial direction parallel of spacing post to this staff of being convenient for knows the relative position who is located the inside spacing post of collection tank and cell body, thereby the staff of being convenient for accurately controls and supports tight subassembly, adjusts with the position to the baffle, is favorable to the staff to collect or unload the dust.

The utility model discloses further set up to: the cover is equipped with rather than fixed rubber buffer on the slide bar, collection tank top is seted up with the rubber buffer mounting hole of pegging graft complex, works as when the top arc surface of spacing post supports tightly with the bottom surface of spacing ring, the rubber buffer supports tightly with the mounting hole.

Through adopting above-mentioned technical scheme, when the top arc surface of spacing post supports tightly with the bottom surface of spacing ring, the rubber buffer inserts in the mounting hole, and the rubber buffer adopts rubber materials to make, has good elasticity to this makes the clearance between rubber buffer and the mounting hole fully filled up, thereby has strengthened the leakproofness between the slide bar fixed with the rubber buffer and the collection tank.

To sum up, the utility model discloses a beneficial technological effect does:

1. when the scheme is used for sorting the goods of the bagged powder, the worker only needs to place the goods on the mesh-shaped conveying belt, and the side containing the two-dimensional code faces upwards, so that the goods are conveyed on the mesh-shaped conveying belt; when goods on the mesh conveyor belt pass through the sorting and scanning assembly, the sorting and scanning assembly scans the two-dimensional codes of the goods; when the goods scanned by the sorting and scanning assembly are the goods to be sorted, the controller controls the pushing assembly to operate according to the programming instruction, and the pushing assembly pushes the goods from the connecting groove to the sorting conveying belt for next-step transmission; a large amount of dust is generated in the process of pushing the goods by the pushing assembly, the dust collection assembly has a good adsorption effect on the dust, the content of the dust raised in the air is reduced, and physical and psychological health of workers is facilitated; when the pushing assembly does not operate, the goods are continuously transmitted along the mesh-shaped conveying belt;

2. in the scheme, when the pushing assembly pushes the goods and generates a large amount of dust, a worker only needs to start the fan, and after the fan works, air in the collecting tank flows to one side of the fan, so that the air above the hopper flows to the inside of the collecting tank along the hopper, and the air containing the dust enters the collecting tank, so that the worker can conveniently perform centralized treatment on the dust;

3. in this scheme, when needing to unload, the staff only needs to hold the action bars and rotate, make spacing post and cell body aim at, upwards slowly carry the action bars simultaneously, so that spacing post keep away from gradually the spacing ring can, at this in-process, the slide bar disappears to the tight effect of supporting of baffle upper surface gradually, the baffle is to discharging pipe lopsidedness under the spring action of spring gradually, make the dust on the baffle to discharging pipe lopsidedness with this, thereby the staff of being convenient for unloads the dust from the discharging pipe.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the first driving assembly of the present invention;

FIG. 3 is a schematic view of the second driving assembly of the present invention;

FIG. 4 is a schematic view of the filter assembly of the present invention;

fig. 5 is an enlarged schematic view of a structure at a in fig. 4.

Reference numerals: 1. a first bracket; 11. a limiting plate; 111. connecting grooves; 12. a mesh conveyor belt; 2. a second bracket; 21. a guide plate; 22. sorting a conveying belt; 3. a first drive assembly; 31. a first motor; 32. a first rotating lever; 33. a first rotating roller; 34. a second rotating lever; 35. a second rotating roller; 4. a second drive assembly; 41. a second motor; 42. a third rotating rod; 43. a third rotating roller; 44. a fourth rotating rod; 45. a fourth rotating roller; 5. a sorting and scanning assembly; 51. a sorting and scanning bracket; 52. sorting the scanning probes; 6. a pushing assembly; 61. a U-shaped plate body; 62. a cylinder; 63. pushing the plate; 7. a controller; 8. a dust collection assembly; 81. a cross bar; 82. a hopper; 83. a discharging pipe; 84. a collection tank; 841. a support pillar; 842. a discharge pipe; 8421. a square through hole; 843. a gate; 844. a baffle plate; 845. a spring; 846. an indication groove; 85. a connecting pipe; 86. a fan; 9. a filter assembly; 91. a transverse plate; 911. a rubber sheet; 912. a bolt; 92. a fixing frame; 93. filtering with a screen; 94. a fixing plate; 10. a propping component; 101. fixing the rod; 102. a limiting ring; 103. a slide bar; 104. a limiting column; 105. a trough body; 106. an operating lever; 107. a rubber plug; 108. and (7) installing holes.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, for the utility model discloses a commodity circulation intelligence letter sorting system, including first support 1, limiting plate 11, netted conveyer belt 12, second support 2, deflector 21 and letter sorting conveyer belt 22. The top of first support 1 is the rectangle, and limiting plate 11 is rectangle platelike structure, and the quantity of limiting plate 11 is two, and two limiting plates 11 are fixed in first support 1 both sides respectively. The mesh conveyor belt 12 is closed, is made of elastic metal mesh material, is installed between the two limiting plates 11, and is driven by the first driving assembly 3. The top of the second bracket 2 is rectangular, the guide plates 21 are plate-shaped structures, the number of the guide plates 21 is two, and the two guide plates 21 are respectively fixed on two sides of the second bracket 2. Sorting conveyor belt 22 is a closed arrangement, made of rubber material, mounted between two guide plates 21, and sorting conveyor belt 22 is driven by second drive assembly 4. One of the limiting plates 11 is provided with a connecting groove 111, and one end of the second bracket 2 corresponds to the connecting groove 111, so that the goods to be sorted on the mesh-shaped conveying belt 12 enter the sorting conveying belt 22 for transmission.

As shown in fig. 2, the first driving assembly 3 includes a first motor 31, a first rotating lever 32, a first rotating roller 33, a second rotating lever 34, and a second rotating roller 35. The axial direction of the output shaft of the first motor 31 is perpendicular to the length direction of the limiting plates 11 (see fig. 1), the first motor 31 is fixed on one of the limiting plates 11, and the output shaft of the first motor 31 penetrates through the limiting plate 11 and is rotatably connected with the same. The first rotating rod 32 is a round rod, the axis of the first rotating rod is overlapped with the axis of the output shaft of the first motor 31, one end of the first rotating rod 32 is fixed with the end part of the output shaft of the first motor 31, and the other end of the first rotating rod 32 is rotatably connected with the limiting plate 11 far away from the first motor 31. The cross section of the first rotating roller 33 is circular, the axis of the first rotating roller 33 is coincident with the axis of the first rotating rod 32, and the first rotating roller 33 is sleeved on the first rotating rod 32 and fixed with the first rotating rod. The second rotating rod 34 is also a round rod, the axis of the second rotating rod is parallel to the axis of the first rotating rod 32, and two ends of the second rotating rod 34 are respectively connected with the two limiting plates 11 in a rotating manner. The cross section of the second rotating roller 35 is circular, the axis of the second rotating roller is overlapped with the axis of the second rotating rod 34, and the second rotating roller 35 is sleeved on the second rotating rod 34 and fixed with the second rotating rod 34. Referring to fig. 1, the mesh conveyor belt 12 passes around the first rotating roller 33 and the second rotating roller 35, and abuts against the roller surfaces of the first rotating roller 33 and the second rotating roller 35. When the goods are placed on the mesh conveyor belt 12, the worker only needs to turn on the first motor 31, the first motor 31 drives the first rotating rod 32 to rotate after working, and meanwhile, the first rotating roller 33 rotates synchronously with the first rotating rod 32 under the action of the mesh conveyor belt 12, so that the second rotating roller 35 and the second rotating rod 34 both rotate, and the goods can be transmitted along the mesh conveyor belt 12.

As shown in fig. 3, the second driving assembly 4 includes a second motor 41, a third rotating lever 42, a third rotating roller 43, a fourth rotating lever 44, and a fourth rotating roller 45. The axial direction of the output shaft of the second motor 41 is perpendicular to the length direction of the guide plates 21, the second motor 41 is fixed on one of the guide plates 21, and the output shaft of the second motor 41 penetrates through the guide plate 21 and is connected with the guide plate in a rotating manner. The third rotating rod 42 is a round rod, the axis of the third rotating rod coincides with the axis of the output shaft of the second motor 41, one end of the third rotating rod 42 is fixed with the end of the output shaft of the second motor 41, and the other end of the third rotating rod 42 is rotatably connected with the guide plate 21 far away from the second motor 41. The cross section of the third rotating roller 43 is circular, the axis of the third rotating roller is overlapped with the axis of the third rotating rod 42, and the third rotating roller 43 is sleeved on the third rotating rod 42 and fixed with the third rotating rod. The fourth rotating rod 44 is also a round rod, the axis of the fourth rotating rod is parallel to the axis of the third rotating rod 42, and two ends of the fourth rotating rod 44 are respectively connected with the two guide plates 21 in a rotating manner. The cross section of the fourth rotating roller 45 is circular, the axis of the fourth rotating roller is overlapped with the axis of the fourth rotating rod 44, and the fourth rotating roller 45 is sleeved on the fourth rotating rod 44 and fixed with the fourth rotating rod 44. As shown in fig. 1, the sorting conveyor belt 22 respectively passes around the third rotating roller 43 and the fourth rotating roller 45, and abuts against the roller surfaces of the third rotating roller 43 and the fourth rotating roller 45. When the goods were placed in on letter sorting conveyer belt 22, the staff only needed to open second motor 41, and second motor 41 drives third dwang 42 after the work and rotates, and simultaneously, third live-rollers 43 rotates along with third dwang 42 is synchronous, under letter sorting conveyer belt 22's effect to make fourth live-rollers 45 and fourth dwang 44 all rotate, thereby make the goods can follow letter sorting conveyer belt 22 and transmit.

As shown in fig. 1, a sorting and scanning assembly 5 is mounted on the first support 1, and the sorting and scanning assembly 5 includes a sorting and scanning support 51 and a sorting and scanning probe 52. The sorting and scanning support 51 is a U-shaped rod-shaped structure, and two ends of the U-shaped rod-shaped structure are respectively fixed to the upper surfaces of the first supports 1 on two sides of the two limiting plates 11. A sorting and scanning probe 52 is fixed to the sorting and scanning carriage 51 to scan the goods passing on the mesh conveyor belt 12.

As shown in fig. 1, the limiting plate 11 is provided with a pushing assembly 6 and a controller 7, and the pushing assembly 6 comprises a U-shaped plate body 61, an air cylinder 62 and a pushing plate 63. The U-shaped plate 61 is a U-shaped plate structure, and both ends of the U-shaped plate are fixed to the position-limiting plate 11 far away from the connecting groove 111. The telescopic direction of the piston rod of the cylinder 62 is perpendicular to the transmission direction of the mesh conveyor belt 12, the cylinder 62 is fixed on the U-shaped plate body 61, and the piston rod of the cylinder 62 penetrates through the limiting plate 11 and is in sliding fit with the limiting plate 11. The pushing plate 63 is a rectangular plate structure, the length direction of the pushing plate is parallel to the transmission direction of the mesh conveyor belt 12, and the side wall of one side of the pushing plate 63 is fixed with the end of the piston rod of the cylinder 62. The controller 7 is fixed on the U-shaped plate body 61 and is used for receiving the code scanning information transmitted by the sorting and scanning probe 52, analyzing the code scanning information according to a set instruction and selecting whether to control the operation of the air cylinder 62. When the controller 7 judges that the scanned goods are goods to be sorted, the controller 7 controls the operation of the air cylinder 62, so that the piston rod of the air cylinder 62 pushes the push plate 63 to one side of the connecting groove 111, and the push plate 63 pushes the goods from the connecting groove 111 to the conveying belt to be sorted.

As shown in fig. 1 and 4, the first bracket 1 is further provided with a dust collection assembly 8, and the dust collection assembly 8 includes a cross bar 81, a hopper 82, a feeding pipe 83, a collection tank 84, a connecting pipe 85 and a fan 86. The cross bar 81 is a round bar with a horizontal axis, and one end of the cross bar 81 is fixed on the first bracket 1. The hopper 82 is of a funnel-shaped structure, the diameter of an opening at the upper end of the hopper is larger than that of an opening at the lower end of the hopper, and one end of the cross rod 81, which is far away from the first support 1, is fixed with the arc-shaped outer surface of the hopper 82. The blanking pipe 83 is in a circular tube shape, the axis of the blanking pipe is vertical, and the upper end of the blanking pipe 83 is fixed and communicated with the lower end of the hopper 82. The collecting tank 84 is of a square tank-shaped structure, the interior of the collecting tank is hollow, the top of the collecting tank 84 is fixed and communicated with the lower end of the blanking pipe 83, and a supporting column 841 is fixed at the lower end of the collecting tank 84. The support post 841 is rectangular in cross section and is disposed at the lower end thereof on the ground for supporting the collection tank 84. The connection pipe 85 is in a circular pipe shape with a horizontal axis, and one end of the connection pipe 85 is fixed to and communicates with the collection tank 84. The fan 86 is installed on the ground, and an air outlet of the fan 86 is connected with one end of the connecting pipe 85 far away from the collecting tank 84 in a sealing manner. When the goods of powder in bags are sorted, the staff only need to turn on the fan 86 to take out the gas in the collecting tank 84, so that the air above the mesh conveyor belt containing dust enters the collecting tank 84, and the staff can conveniently carry out centralized treatment on the dust.

As shown in fig. 4, the filter assembly 9 is installed in the collection tank 84, and the filter assembly 9 includes a horizontal plate 91, a fixing frame 92, a filter screen 93, and a fixing plate 94. The horizontal plate 91 is a rectangular plate body, which is horizontally disposed, and the horizontal plate 91 is fixed on the inner sidewall of the collecting tank 84. The fixing frame 92 is a rectangular frame structure, which penetrates through the top wall of the collecting tank 84 and is in sliding fit with the top wall, the bottom surface of the fixing frame 92 abuts against the upper surface of the transverse plate 91, and the side walls on the two sides of the fixing frame 92 abut against the inner side walls on the two sides of the collecting tank 84 respectively. The filter 93 is rectangular and is attached and fixed to the inner wall of the fixing frame 92. The fixing plate 94 is a rectangular plate structure and is horizontally disposed, a bottom surface of the fixing plate 94 is fixed to an upper surface of the fixing frame 92, and a rubber sheet 911 is fixed to a bottom surface of the fixing plate 94. The rubber sheet 911 is a rectangular sheet structure, and is made of a rubber material having elasticity. The fixing plate 94 is provided with a bolt 912 in a penetrating way, the axis of the bolt 912 is vertical, and the bolt 912 penetrates through the fixing plate 94 and the rubber sheet 911 in sequence and is in threaded connection with the top of the collecting tank 84. When the bolts 912 are tightened, the fixing plate 94 cooperates with the collection tank 84 such that the rubber sheet 911 is sufficiently clamped, whereby the gap between the fixing plate 94 and the collection tank 84 is sufficiently filled, thereby maintaining the tightness between the fixing plate 94 and the collection tank 84. After the air containing dust entering from the hopper 82 enters the collecting tank 84 along the blanking pipe 83, the dust is blocked in the collecting tank 84 by the filter screen 93, so that the dust can be conveniently cleaned by workers. When the filter screen 93 has more dust, the worker can unscrew the bolt 912, take out the filter screen 93 and the fixing frame 92 from the top of the collecting tank 84, and then clean the filter screen 93.

As shown in FIG. 4, a discharge pipe 842 is disposed on the sidewall of the collecting tank 84, the cross section of the discharge pipe 842 is rectangular, the discharge pipe 842 is fixed on the sidewall of the collecting tank 84 near the bottom thereof, and the discharge pipe 842 is communicated with the collecting tank 84. The upper surface of the discharge pipe 842 is provided with a square through hole 8421, a gate 843 is arranged in the square through hole 8421, the gate 843 is in plug-in fit with the square through hole 8421 to control the on-off of the discharge pipe 842, so that a worker can open the gate 843 and discharge dust in the collection tank 84. A baffle 844 is further arranged in the collecting tank 84, the baffle 844 is of a rectangular plate-shaped structure and is hinged to the inner bottom wall of the collecting tank 84, and the hinged point of the baffle 844 and the inner bottom wall of the collecting tank 84 is located close to the discharging pipe 842. The bottom of the baffle 844 is provided with a spring 845, the stretching direction of the spring 845 is vertical, and two ends of the spring 845 are respectively fixed with the bottom surface of the baffle 844 and the inner bottom wall of the collection tank 84.

As shown in fig. 4 and 5, a fastening assembly 10 is further installed in the collection tank 84, and the fastening assembly 10 includes a fixing rod 101, a limiting ring 102, a sliding rod 103, a limiting column 104, a groove body 105, and an operating rod 106. The fixing rod 101 is a circular rod with a horizontal axis, and the fixing rod 101 is fixed on the inner side wall of the collection tank 84. The limiting ring 102 is circular, the axis of the limiting ring is vertical, and the side wall of the limiting ring 102 is fixed with one end of the fixing rod 101 far away from the inner side wall of the collecting tank 84. The sliding rod 103 is a round rod, the axis of the sliding rod is vertical, the sliding rod 103 penetrates through the limiting ring 102 and is in sliding fit with the limiting ring 102, and the lower end of the sliding rod 103 is tightly abutted to the upper surface of the baffle 844. The limiting column 104 is a cylindrical structure, the axis of the limiting column is horizontal, the limiting column 104 is fixed on the side wall of the sliding rod 103, and the top arc surface of the limiting column 104 is attached to the bottom surface of the limiting ring 102. The groove body 105 is arranged on the limiting ring 102, the extending direction of the groove body is vertical, and the groove body 105 is matched with the limiting column 104 in a sliding mode. The operating rod 106 is in a round rod shape, the axial direction of the operating rod 106 is parallel to the axial direction of the limiting column 104, the bottom arc-shaped surface of the operating rod 106 is fixed with the upper end of the sliding rod 103, and the bottom arc-shaped surface of the operating rod 106 is attached to the upper surface of the collecting tank 84.

As shown in fig. 4 and 5, an indication slot 846 is formed at the top of the collection tank 84, and the length direction of the indication slot 846 is parallel to the length direction of the slot body 105 on the stop collar 102, so that a worker can know the position of the slot body 105 through the indication slot 846. When dust in the collection tank 84 needs to be unloaded, a worker only needs to hold the operating rod 106 and rotate the operating rod 106, meanwhile, the sliding rod 103 and the limiting column 104 on the sliding rod 103 rotate synchronously along with the operating rod 106, when the axial direction of the operating rod 106 is parallel to the length direction of the indicating groove 846, the axial direction of the limiting column 104 is also parallel to the length direction of the indicating groove 846, at the moment, the worker only needs to slowly lift the operating rod 106 upwards, in the process, the abutting acting force of the sliding rod 103 on the baffle 844 disappears gradually, under the action of the spring 845, the baffle 844 inclines towards one side of the discharge pipe 842 gradually, and meanwhile, the gate 843 is opened, so that the dust on the baffle 844 can be unloaded from the discharge pipe 842.

As shown in fig. 4, a rubber plug 107 is arranged on the sliding rod 103, the rubber plug 107 is a circular truncated cone-shaped rubber plug body structure, the axis of the rubber plug 107 is overlapped with the axis of the sliding rod 103, the rubber plug 107 is sleeved on and fixed to the sliding rod 103, and a hole 108 is formed in the top of the collection tank 84. The mounting hole 108 is in a truncated cone shape, the axis of the mounting hole coincides with the axis of the rubber plug 107, and when the bottom arc-shaped surface of the operating rod 106 abuts against the upper surface of the collecting tank 84, the arc-shaped surface of the rubber plug 107 abuts against the arc-shaped surface of the mounting hole 108, so that the gap between the sliding rod 103 and the collecting tank 84 is fully filled, and the sealing performance between the sliding rod 103 and the collecting tank 84 is enhanced.

The implementation principle of the embodiment is as follows: when the goods of the bagged powder are sorted, the worker only needs to place the goods on the mesh-shaped conveyer belt 12, the side containing the two-dimensional codes faces upwards, and the goods are conveyed on the mesh-shaped conveyer belt 12; when goods on the mesh conveyor belt 12 pass through the sorting and scanning assembly 5, the sorting and scanning assembly 5 scans the two-dimensional codes of the goods; when the goods scanned by the sorting and scanning component 5 are the goods to be sorted, the controller 7 controls the pushing component 6 to operate according to the programmed instruction, and the pushing component 6 pushes the goods from the connecting groove 111 to the sorting and conveying belt 22 for the next transmission; a large amount of dust is generated in the process that the pushing assembly 6 pushes the goods, and the dust collection assembly 8 has a good adsorption effect on the dust, so that the content of the dust raised in the air is reduced, and the physical and psychological health of workers is facilitated; while the pusher assembly 6 is not operating, the goods continue to be transported along the mesh conveyor belt 12.

In the scheme, when the goods are sorted, a worker only needs to start the first motor 31, the first motor 31 drives the first rotating rod 32 fixed with an output shaft of the first motor to rotate after working, meanwhile, the first rotating roller 33 rotates synchronously with the first rotating rod 32, and under the action of the mesh-shaped conveyer belt 12, the second rotating roller 35 and the second rotating rod 34 both rotate, so that the goods can be conveyed along the mesh-shaped conveyer belt 12; when the goods are conveyed to the sorting and scanning assembly 5, the sorting and scanning probe 52 scans the goods and transmits code scanning information to the controller 7, and the controller 7 selects whether to control the operation of the air cylinder 62 according to a programmed program; when the controller 7 judges that the goods need to be sorted according to the scanned information, the controller 7 controls the piston rod of the air cylinder 62 to extend, so that the push plate 63 pushes the goods to one side of the connecting groove 111 to push the goods onto the sorting conveyer belt 22 for transmission; when the controller 7 judges that the goods do not need to be sorted according to the scanned information, the controller 7 does not make an instruction for controlling the air cylinder 62, and the goods continue to be transmitted along the mesh conveyor belt 12; produce a large amount of dusts in the transmission course, at this moment, the staff only need open fan 86, and the fan 86 work back is taken out the gas in collecting tank 84 through connecting pipe 85 for in the air admission collecting tank 84 that contains the dust above the netted conveyer belt, under the effect of filter screen 93, the dust is blockked in collecting tank 84, so that the staff carries out centralized processing.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (6)

1. The utility model provides a commodity circulation intelligence letter sorting system, includes first support (1), is fixed in limiting plate (11), second support (2) of first support (1) both sides, is fixed in deflector (21) and movable mounting of second support (2) both sides sort conveyer belt (22) between two deflector (21), one of them spread groove (111) have been seted up on limiting plate (11), the one end of second support (2) is fixed in on the position that first support (1) lateral wall is close to spread groove (111), and two install letter sorting scanning assembly (5) that are used for scanning two-dimensional code on the goods jointly on limiting plate (11), its characterized in that: two still install between limiting plate (11) and be used for carrying netted conveyer belt (12) of goods, keep away from install on limiting plate (11) of spread groove (111) and be used for pushing away promotion subassembly (6) on the letter sorting conveyer belt (22) from spread groove (111) with goods on netted conveyer belt (12), install on limiting plate (11) and be used for controlling promotion subassembly (6) controller (7) of operation according to the information that letter sorting scanning subassembly (5) acquireed, install dust absorption subassembly (8) that are used for adsorbing the dust that produces when promoting subassembly (6) and promote the goods on first support (1), dust absorption subassembly (8) are including horizontal pole (81) that are fixed in on first support (1), be fixed in horizontal pole (81) keep away from hopper (82) of first support (1) one end, with fixed blanking pipe (83) that feed through of hopper (82) lower extreme, Be fixed in collecting vessel (84) of unloading pipe (83) lower extreme and with unloading pipe (83) intercommunication, be fixed in fan (86) on first support (1) and be fixed in connecting pipe (85) of the air intake department of fan (86), the one end that the air intake of fan (86) was kept away from in connecting pipe (85) is fixed and is communicated with collecting vessel (84), install filter assembly (9) in collecting vessel (84), filter assembly (9) including be fixed in diaphragm (91) on collecting vessel (84) inside wall, run through collecting vessel (84) roof and rather than sliding complex fixed frame (92), be fixed in filter screen (93) in fixed frame (92) and be fixed in fixed plate (94) of fixed frame (92) upper surface, the lower surface of fixed frame (92) and the upper surface butt of diaphragm (91), the lower surface of fixed plate (94) and the upper surface laminating of collecting vessel (84), the fixing plate (94) is provided with a bolt (912) in a penetrating mode, and the bolt (912) is in threaded connection with the top of the collecting tank (84).

2. The intelligent logistics sorting system of claim 1, wherein: and a rubber sheet (911) is fixed on the lower surface of the fixing plate (94).

3. The intelligent logistics sorting system of claim 1, wherein: be fixed with discharging pipe (842) that communicates with collection tank (84) on the position that collection tank (84) lateral wall is close to its bottom, be equipped with gate (843) that are used for controlling its break-make in discharging pipe (842), articulated on the position that bottom wall is close to discharging pipe (842) in collection tank (84) have baffle (844), link to each other through spring (845) between baffle (844) and the interior bottom wall of collection tank (84), install on collection tank (84) lateral wall and tightly support subassembly (10) of tightly supporting baffle (844) downwards.

4. The intelligent logistics sorting system of claim 3, wherein: support tight subassembly (10) including being fixed in dead lever (101) on collection tank (84) inside wall, be fixed in dead lever (101) keep away from spacing ring (102) of collection tank (84) inside wall one end, set up in spacing ring (102) and rather than sliding fit's slide bar (103), be fixed in spacing post (104) on slide bar (103) lateral wall, set up on spacing ring (102) and with spacing post (104) sliding fit's cell body (105) and be fixed with action bars (106) of slide bar (103) upper end, work as when the top arc surface of spacing post (104) supports tightly with the bottom surface of spacing ring (102), slide bar (103) lower extreme supports tightly with the upper surface of baffle (844).

5. The intelligent logistics sorting system of claim 4, wherein: the axial of action bars (106) is parallel with the axial of spacing post (104), indicate groove (846) that are used for indicating groove (846) position are seted up at collection tank (84) top.

6. The intelligent logistics sorting system of claim 4, wherein: the cover is equipped with rather than fixed rubber buffer (107) on slide bar (103), complex mounting hole (108) are pegged graft with rubber buffer (107) are seted up at collection tank (84) top, work as when the top arc surface of spacing post (104) supports tightly with the bottom surface of spacing ring (102), rubber buffer (107) support tightly with mounting hole (108).

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