CN216511002U - Stacking, separating and conveying device capable of reducing rolled parts - Google Patents

Abstract

The utility model relates to the technical field of logistics conveying, in particular to a stacked piece separating and conveying device capable of reducing rolled pieces. The device comprises a first climbing conveying module, a horizontal conveying module, a second climbing conveying module, a third climbing conveying module and a descending conveying module which are sequentially arranged along the conveying direction, wherein the first climbing conveying module is obliquely arranged, and the position of a feeding end of the first climbing conveying module is lower than that of a discharging end of the first climbing conveying module; the horizontal conveying module is horizontally arranged, and the conveying end face position of the horizontal conveying module is lower than the highest position of the conveying end face of the first climbing conveying module. According to the utility model, the anti-rolling component is arranged at the fall positions of different conveying end surfaces, so that the rolling phenomenon is reduced, the damage of the wrapping due to rolling is reduced, and the effective feeding efficiency is improved; a filling piece is arranged between the two conveying channels to prevent letters from being inserted below the belt.

Description

Stacking, separating and conveying device capable of reducing rolled parts

Technical Field

The utility model relates to the technical field of logistics conveying, in particular to a stacked piece separating and conveying device capable of reducing rolled pieces.

Background

At present, the packaged stack separation equipment generally adopts a single-channel structure form. Along with the technical development in the logistics field, the stack separation equipment in the single-channel structure form cannot meet the higher and higher package supply requirements, and the package condition required to be processed by stack separation is very complex.

In the prior art, a seam exists at a height drop position of the stack separation equipment, a blocking device is generally arranged at the seam, and the blocking device can block a package from falling on the ground. The gap between the fall position of the conveying surface of the equipment and the set blocking device easily causes the phenomenon of rolling, so that the breakage rate of the package is increased, and the effective component supplying efficiency is influenced.

SUMMERY OF THE UTILITY MODEL

This application is directed against the shortcoming among the above-mentioned prior production technology, provides a rational in infrastructure can reduce a fold separation conveyor who rolls up a, sets up in the drop department of different transport end faces and prevents a roll subassembly, reduces the emergence of rolling up a phenomenon, reduces the parcel because the damaged condition that a roll takes place, improves effectively supplies a efficiency.

The technical scheme adopted by the utility model is as follows:

the stacking, separating and conveying device capable of reducing rolled parts comprises a first climbing conveying module, a horizontal conveying module, a second climbing conveying module, a third climbing conveying module and a descending conveying module which are sequentially arranged along the conveying direction, wherein the first climbing conveying module is obliquely arranged, and the position of a feeding end of the first climbing conveying module is lower than the position of a discharging end of the first climbing conveying module; the horizontal conveying module is horizontally arranged, and the conveying end surface position of the horizontal conveying module is lower than the highest position of the conveying end surface of the first climbing conveying module; the second climbing conveying module is obliquely arranged, the position of a feeding end of the second climbing conveying module is lower than the position of a discharging end of the second climbing conveying module, and the position of the feeding end of the second climbing conveying module is lower than the position of the discharging end of the horizontal conveying module; the third climbing conveying module is obliquely arranged, the position of a feeding end of the third climbing conveying module is lower than the position of a discharging end of the third climbing conveying module, and the position of the feeding end of the third climbing conveying module is lower than the position of the discharging end of the second climbing conveying module; the position of the feeding end of the descending slope conveying module is higher than the position of the discharging end of the descending slope conveying module, and the position of the feeding end of the descending slope conveying module and the position of the discharging end of the third climbing slope conveying module are at the same height; and an anti-rolling component is arranged between the discharge end of the horizontal conveying module and the discharge end of the second climbing conveying module, and an anti-rolling component is arranged between the discharge end of the second climbing conveying module and the feed end of the third climbing conveying module.

Further, prevent rolling up subassembly is including unreeling the support, and the upper and lower end of unreeling the support sets up first brush and second brush respectively, and first brush flexible contact front section carries the terminal surface, and second brush flexible contact back section carries the terminal surface.

Further, first climbing transport module is including the first support base that the slope set up, first support base upper end sets up two sets of first transport modules side by side, every first transport module of group includes two first belt conveyor that set up along direction of delivery, first belt conveyor both sides set up on first supporting baffle, first mounting bracket is connected to first supporting baffle bottom front and back end detachable respectively, first support base is connected to first mounting bracket lower extreme detachable, the first supporting baffle up end that first belt conveyor both sides set up sets up first side shield, set up first filling plate in the clearance between two sets of first transport modules.

Furthermore, the horizontal conveying module comprises a second supporting base arranged horizontally, two groups of second conveying modules are arranged on the second supporting base side by side, each group of second conveying modules comprises a second belt conveying mechanism arranged along the conveying direction, two sides of each second belt conveying mechanism are arranged on a second supporting baffle, the front end and the rear end of the bottom of each second supporting baffle are detachably connected with a second mounting frame respectively, the lower end of each second mounting frame is detachably connected with the second supporting base, the upper end faces of the second supporting baffles arranged on two sides of each second belt conveying mechanism are provided with second side baffles, and second filling plates are arranged in gaps between the two groups of second conveying modules.

Furthermore, the second climbing conveying module comprises a third supporting base arranged in an inclined mode, two groups of third conveying modules are arranged on the upper end of the third supporting base side by side, each group of third conveying modules comprises two third belt conveying mechanisms arranged along the conveying direction, two sides of each third belt conveying mechanism are arranged on a third supporting baffle, the front end and the rear end of the bottom of each third supporting baffle are detachably connected with a third mounting frame, the lower end of each third mounting frame is detachably connected with the third supporting base, the upper end face of each third supporting baffle arranged on two sides of each third belt conveying mechanism is provided with a third side baffle, and a third filling plate is arranged in a gap between the two groups of third conveying modules.

Furthermore, the third climbing conveying module comprises a fourth supporting base arranged in an inclined mode, two groups of fourth conveying modules are arranged on the upper end of the fourth supporting base side by side, each group of fourth conveying modules comprises two fourth belt conveying mechanisms arranged along the conveying direction, two sides of each fourth belt conveying mechanism are arranged on a fourth supporting baffle, the front end and the rear end of the bottom of each fourth supporting baffle are detachably connected with a fourth mounting frame, the lower end of each fourth mounting frame is detachably connected with the corresponding fourth supporting base, the upper end faces of the fourth supporting baffles arranged on two sides of each fourth belt conveying mechanism are provided with fourth side baffles, and fourth filling plates are arranged in gaps between the two groups of fourth conveying modules.

Further, the slope descending conveying module comprises a fifth supporting base arranged obliquely, a fifth belt conveying mechanism is arranged on the upper portion of the fifth supporting base, fifth side baffles are arranged on the left side and the right side of the fifth belt conveying mechanism respectively, and the lower ends of the fifth side baffles are fixed on the fifth supporting base.

The utility model has the following beneficial effects:

the utility model has compact and reasonable structure and convenient operation, and the anti-rolling component is arranged at the fall positions of different conveying end surfaces, thereby reducing the rolling phenomenon, reducing the damage caused by rolling of the package and improving the effective feeding efficiency; a filling member is arranged between the two conveying channels to prevent letters from being inserted under the belt.

Drawings

FIG. 1 is a front view of the present invention.

FIG. 2 is a top view of the present invention.

Fig. 3 is a front view of the first climbing conveyor module.

Fig. 4 is a front view of the horizontal conveyance module, the second climbing conveyance module, and the third climbing conveyance module.

Fig. 5 is a front view of the downhill conveying module.

FIG. 6 is a view of the anti-roll component structure.

Wherein: 100. a first climbing conveying module; 110. a first support baffle; 120. a first belt conveying mechanism; 130. a first mounting bracket; 140. a first support base; 150. a first side dam; 160. a first infill panel; 200. a horizontal conveying module; 210. a second support baffle; 220. a second belt conveying mechanism; 230. a second mounting bracket; 240. a second support base; 250. a second side baffle; 260. a second infill panel; 300. a second climbing conveying module; 310. a third support baffle; 320. a third belt conveying mechanism; 330. a third mounting bracket; 340. a third support base; 350. a third side baffle; 360. a third infill panel; 400. a third climbing conveying module; 410. a fourth support baffle; 420. a fourth belt conveying mechanism; 430. a fourth mounting bracket; 440. a fourth support base; 450. a fourth side baffle; 460. a fourth infill panel; 500. a slope descending conveying module; 510. a fifth support base; 520. a fifth belt conveying mechanism; 530. a fifth side dam; 600. an anti-roll component; 610. an anti-curl bracket; 620. a first brush; 630. a second brush.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

As shown in fig. 1 and fig. 2, the stacked part separating and conveying apparatus capable of reducing the number of rolled parts mainly includes a first climbing conveying module 100, a horizontal conveying module 200, a second climbing conveying module 300, a third climbing conveying module 400, and a descending conveying module 500, which are sequentially arranged along a conveying direction.

In the embodiment shown in fig. 1, the first climbing conveyor module 100 is disposed obliquely, and the feeding end of the first climbing conveyor module 100 is located lower than the discharging end of the first climbing conveyor module 100. The horizontal conveying module 200 is horizontally arranged, and the conveying end surface position of the horizontal conveying module 200 is lower than the highest conveying end surface position of the first climbing conveying module 100. The second climbing conveying module 300 is obliquely arranged, the feeding end position of the second climbing conveying module 300 is lower than the discharging end position of the second climbing conveying module 300, and the feeding end position of the second climbing conveying module 300 is lower than the discharging end position of the horizontal conveying module 200. The third climbing conveyor module 400 is arranged obliquely, and the feeding end of the third climbing conveyor module 400 is lower than the discharging end of the third climbing conveyor module 400, and the feeding end of the third climbing conveyor module 400 is lower than the discharging end of the second climbing conveyor module 300. The position of the feeding end of the descending slope conveying module 500 is higher than the position of the discharging end of the descending slope conveying module 500, and the position of the feeding end of the descending slope conveying module 500 and the position of the discharging end of the third climbing slope conveying module 400 are at the same height.

In the embodiment shown in fig. 1, the anti-rolling component 600 is arranged between the discharge end of the horizontal conveying module 200 and the discharge end of the second climbing conveying module 300, and the anti-rolling component 600 is arranged between the discharge end of the second climbing conveying module 300 and the feed end of the third climbing conveying module 400, when in use, a package falls off through a fall, the difficult-to-separate package continues to fall off, the anti-rolling component 600 can prevent the lower rolling caused by the fact that the conveying speed of the previous section is faster than that of the next section in the falling process, the occurrence of damage of the package due to the rolling is reduced, and the effective component supply efficiency is improved.

In the embodiment shown in fig. 6, the anti-rolling component 600 includes an unwinding bracket 610, the upper and lower ends of the unwinding bracket 610 are respectively provided with a first brush 620 and a second brush 630, the first brush 620 flexibly contacts the front conveying end face, and the second brush 630 flexibly contacts the rear conveying end face. The first brush 620 can prevent the conveyed parcel from being rolled into the gap between the front section of conveying end face and the rear section of conveying end face, and the second brush 630 can prevent the parcel from falling into the ground in the falling process.

In the embodiment shown in fig. 3, the first climbing conveying module 100 includes a first supporting base 140 disposed obliquely, two sets of first conveying modules are disposed side by side on the first supporting base 140, each set of first conveying modules includes two first belt conveying mechanisms 120 disposed along the conveying direction, two sides of the first belt conveying mechanisms 120 are disposed on the first supporting baffle 110, the front end and the rear end of the bottom of the first supporting baffle 110 are detachably connected to the first mounting frame 130, and the lower end of the first mounting frame 130 is detachably connected to the first supporting base 140. The upper end face of the first supporting baffle 110 arranged on the two sides of the first belt conveying mechanism 120 is provided with a first side baffle 150, and the first side baffle 150 can prevent the packages conveyed on the conveying end face of the first belt conveying mechanism 120 from falling to the ground.

In the embodiment shown in fig. 2, a first infill panel 160 is provided in the gap between the two sets of first conveyor modules, the first infill panel 160 being capable of preventing letter insertion beneath the belt.

In the embodiment shown in fig. 4, the horizontal conveying module 200 includes a second supporting base 240 arranged horizontally, two sets of second conveying modules are arranged side by side on the second supporting base 240, each set of second conveying modules includes a second belt conveying mechanism 220 arranged along the conveying direction, two sides of the second belt conveying mechanism 220 are arranged on the second supporting baffle 210, the front end and the rear end of the bottom of the second supporting baffle 210 are detachably connected to the second mounting frame 230, and the lower end of the second mounting frame 230 is detachably connected to the second supporting base 240. Second side baffle 250 is arranged on the upper end face of second supporting baffle 210 arranged on two sides of second belt conveying mechanism 220, and second side baffle 250 can prevent the packages conveyed on the conveying end face of second belt conveying mechanism 220 from falling to ground.

In the embodiment shown in fig. 2, a second infill panel 260 is provided in the gap between the two sets of second conveyor modules, the second infill panel 260 being capable of preventing letter insertion beneath the belt.

In the embodiment shown in fig. 4, the second climbing conveying module 300 includes a third supporting base 340 disposed obliquely, two sets of third conveying modules are disposed side by side on the third supporting base 340, each set of third conveying modules includes two third belt conveying mechanisms 320 disposed along the conveying direction, two sides of the third belt conveying mechanisms 320 are disposed on the third supporting baffle 310, the front end and the rear end of the bottom of the third supporting baffle 310 are detachably connected to a third mounting frame 330, and the lower end of the third mounting frame 330 is detachably connected to the third supporting base 340. The upper end faces of the third supporting baffles 310 arranged on the two sides of the third belt conveying mechanism 320 are provided with third side baffles 350, and the third side baffles 350 can prevent the packages conveyed on the conveying end faces of the third belt conveying mechanism 320 from falling to the ground.

In the embodiment shown in fig. 2, a third infill panel 360 is provided in the gap between the two sets of third conveyor modules, the third infill panel 360 preventing letter insertion beneath the belt.

In the embodiment shown in fig. 4, the third climbing conveying module 400 includes a fourth supporting base 440 disposed obliquely, two sets of fourth conveying modules are disposed side by side on the fourth supporting base 440, each set of fourth conveying modules includes two fourth belt conveying mechanisms 420 disposed along the conveying direction, two sides of the fourth belt conveying mechanisms 420 are disposed on the fourth supporting baffle 410, the front end and the rear end of the bottom of the fourth supporting baffle 410 are detachably connected to the fourth mounting frame 430, and the lower end of the fourth mounting frame 430 is detachably connected to the fourth supporting base 440. The fourth side baffle 450 is arranged on the upper end face of the fourth supporting baffle 410 arranged on the two sides of the fourth belt conveying mechanism 420, and the fourth side baffle 450 can prevent the packages conveyed on the conveying end face of the fourth belt conveying mechanism 420 from falling to the ground.

In the embodiment shown in fig. 2, a fourth filling plate 460 is arranged in the gap between the two groups of fourth conveying modules, and the fourth filling plate 460 can prevent the packages from being stuck in the gap.

In the embodiment shown in fig. 5, the downhill conveying module 500 includes a fifth supporting base 510 disposed obliquely, a fifth belt conveying mechanism 520 is disposed on the upper portion of the fifth supporting base 510, fifth side guards 530 are disposed on the left and right sides of the fifth belt conveying mechanism 520, and the lower ends of the fifth side guards 530 are fixed on the fifth supporting base 510.

According to the utility model, the anti-rolling component is arranged at the fall positions of different conveying end surfaces, so that the rolling phenomenon is reduced, the damage caused by rolling of the package is reduced, and the effective feeding efficiency is improved; a filling member is arranged between the two conveying channels to prevent letters from being inserted under the belt.

The above description is intended to illustrate the present invention and not to limit the present invention, which is defined by the scope of the claims, and may be modified in any manner within the scope of the present invention.

Claims (7)

1. The utility model provides a can reduce a fold separation conveyor of rolling up piece, includes that the first climbing that sets gradually along direction of delivery carries module (100), horizontal transport module (200), second climbing and carries module (300), third climbing and carries module (400) and fall slope and carry module (500), its characterized in that: the first climbing conveying module (100) is obliquely arranged, and the position of the feeding end of the first climbing conveying module (100) is lower than the position of the discharging end of the first climbing conveying module (100); the horizontal conveying module (200) is horizontally arranged, and the conveying end surface position of the horizontal conveying module (200) is lower than the highest conveying end surface position of the first climbing conveying module (100); the second climbing conveying module (300) is obliquely arranged, the position of the feeding end of the second climbing conveying module (300) is lower than the position of the discharging end of the second climbing conveying module (300), and the position of the feeding end of the second climbing conveying module (300) is lower than the position of the discharging end of the horizontal conveying module (200); the third climbing conveying module (400) is obliquely arranged, the feed end position of the third climbing conveying module (400) is lower than the discharge end position of the third climbing conveying module (400), and the feed end position of the third climbing conveying module (400) is lower than the discharge end position of the second climbing conveying module (300); the position of the feeding end of the descending slope conveying module (500) is higher than the position of the discharging end of the descending slope conveying module (500), and the position of the feeding end of the descending slope conveying module (500) and the position of the discharging end of the third climbing slope conveying module (400) are at the same height; set up between the discharge end of horizontal transport module (200) and the discharge end of second climbing transport module (300) and prevent rolling up a subassembly (600), set up between the discharge end of second climbing transport module (300) and the feed end of third climbing transport module (400) and prevent rolling up a subassembly (600).

2. A stack separation conveyor assembly capable of reducing coil count as set forth in claim 1 wherein: prevent rolling up a subassembly (600) including unreeling support (610), unreel the upper and lower end of support (610) and set up first brush (620) and second brush (630) respectively, first brush (620) flexible contact preceding section transport terminal surface, second brush (630) flexible contact back section transport terminal surface.

3. A stack separating and conveying apparatus capable of reducing coil count as claimed in claim 1 or 2, wherein: first climbing transport module (100) including the first support base (140) that the slope set up, first support base (140) upper end sets up two sets of first transport modules side by side, the first transport module of every group includes two first belt conveyor (120) that set up along direction of delivery, first belt conveyor (120) both sides set up on first support baffle (110), first mounting bracket (130) is connected to first support baffle (110) bottom front and back end detachable respectively, first support base (140) is connected to first mounting bracket (130) lower extreme detachable, first support baffle (110) up end that first belt conveyor (120) both sides set up sets up first side shield (150), set up first packing plate (160) in the clearance between two sets of first transport modules.

4. A stack separating and conveying apparatus capable of reducing coil count as claimed in claim 1 or 2, wherein: horizontal transport module (200) support base (240) including the second that the level set up, the second supports base (240) upper end and sets up two sets of second side by side and carries the module, every group second transport module includes second belt conveyor (220) that one set up along direction of delivery, second belt conveyor (220) both sides set up on second support baffle (210), second support baffle (210) bottom front and back end detachable respectively connect second mounting bracket (230), second mounting bracket (230) lower extreme detachable connects second support base (240), second support baffle (210) up end that second belt conveyor (220) both sides set up sets up second side shield (250), set up second packing plate (260) in the clearance between two sets of second transport modules.

5. A stack separating and conveying apparatus capable of reducing coil count as claimed in claim 1 or 2, wherein: the second climbing conveying module (300) comprises a third supporting base (340) which is arranged in an inclined mode, two sets of third conveying modules are arranged on the third supporting base (340) side by side, each set of third conveying modules comprises two third belt conveying mechanisms (320) which are arranged along the conveying direction, two sides of each third belt conveying mechanism (320) are arranged on the third supporting baffle (310), the front end and the rear end of the bottom of each third supporting baffle (310) are detachably connected with a third mounting frame (330), the lower end of each third mounting frame (330) is detachably connected with the corresponding third supporting base (340), third side baffles (350) are arranged on the upper end faces of the third supporting baffles (310) arranged on two sides of each third belt conveying mechanism (320), and third filling plates (360) are arranged in gaps between the two sets of third conveying modules.

6. A stack separating and conveying apparatus capable of reducing coil count as claimed in claim 1 or 2, wherein: the third climbing conveying module (400) comprises a fourth supporting base (440) which is obliquely arranged, two groups of fourth conveying modules are arranged at the upper end of the fourth supporting base (440) side by side, each group of fourth conveying modules comprises two fourth belt conveying mechanisms (420) which are arranged along the conveying direction, two sides of each fourth belt conveying mechanism (420) are arranged on the corresponding fourth supporting baffle (410), the front end and the rear end of the bottom of each fourth supporting baffle (410) are detachably connected with a fourth mounting frame (430), the lower end of each fourth mounting frame (430) is detachably connected with the corresponding fourth supporting base (440), the upper end faces of the fourth supporting baffles (410) arranged on two sides of each fourth belt conveying mechanism (420) are provided with fourth side baffles (450), and a fourth filling plate (460) is arranged in a gap between the two groups of fourth conveying modules.

7. A stack separating and conveying apparatus capable of reducing coil count as claimed in claim 1 or 2, wherein: the downhill conveying module (500) comprises a fifth supporting base (510) which is obliquely arranged, a fifth belt conveying mechanism (520) is arranged on the upper portion of the fifth supporting base (510), fifth side baffles (530) are respectively arranged on the left side and the right side of the fifth belt conveying mechanism (520), and the lower ends of the fifth side baffles (530) are fixed on the fifth supporting base (510).

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