CN216736042U - Belt conveyor for multi-point salt distribution - Google Patents

Abstract

The utility model discloses a belt conveyor for multi-point salt distribution. The automatic feeding device comprises a rack, wherein a plurality of distribution support plates inclined to the conveying direction are arranged on the rack, the distribution support plates and the rack form a sawtooth shape, a distribution roller is rotatably connected to the upper end of each pair of distribution support plates, the rack below the distribution support plates is rotatably connected with a guide roller, a conveying belt enters the guide roller from the distribution roller, and a guide compression roller assembly is arranged on the conveying belt behind the root of each distribution support plate; the material distributing groove is positioned below the material distributing roller, the bottom of the material distributing groove is provided with a rear discharge hole and a front discharge hole along the conveying direction, the rear discharge hole is communicated with a side discharge pipe outside the rack, and the front discharge hole is communicated with a front discharge pipe opposite to the conveying belt; a rotary inserting plate is arranged between a rear discharge hole and a front discharge hole of the distributing groove, and a driving mechanism drives the rotary inserting plate to rotate so as to switch materials between the rear discharge hole and the front discharge hole. The utility model can realize multi-point material distribution by using the single-belt conveyor, thereby reducing the equipment acquisition cost.

Description

Belt conveyor for multi-point salt distribution

Technical Field

The utility model relates to a belt conveyor, in particular to a belt conveyor for multi-point salt distribution.

Background

The belt conveyor has the advantages of wide application, long conveying distance, large conveying capacity, continuous conveying and the like, is reliable in operation, and is easy to realize automation and centralized control. Most belt conveyors feed from one end, discharge from the other end, and need to feed to a plurality of feed bins in the transportation process of salt, and every feed bin needs a belt conveyor, and is with high costs.

The utility model discloses a chinese utility model patent that grant publication number is CN207016103U discloses a discharge apparatus for belt conveyor, and this utility model discloses a first conveying component (2) and second conveying component (3), first conveying component (2) discharge gate is located the top of second conveying component (3) feed inlet, first conveying component (2) discharge gate butt joint one can distribute the material part on first conveying component (2) to branch hopper (4) on second conveying component (3). The utility model discloses a set up two sets of conveying assembly, it is few to unload the material point, and it is with high costs when realizing many unloading points, and the structure is complicated, and the range of application is little.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problems and provides a belt conveyor for multi-point salt distribution, wherein one belt conveyor can feed materials to a plurality of bins and realize multi-point distribution.

The utility model solves the technical problem, and adopts the technical scheme that:

a belt conveyor for multi-point salt distribution comprises a rack, a driving roller, a rotary roller, a supporting roller assembly and a distribution groove, wherein the two ends of the rack are rotatably connected with the driving roller and the rotary roller; the material distributing groove is positioned below the material distributing roller, the bottom of the material distributing groove is provided with a rear discharge hole and a front discharge hole along the conveying direction, the rear discharge hole is communicated with a side discharge pipe outside the rack, and the front discharge hole is communicated with a front discharge pipe opposite to the conveying belt; a rotary inserting plate is arranged between a rear discharge hole and a front discharge hole of the distributing groove, and a driving mechanism drives the rotary inserting plate to rotate so that materials are switched between the rear discharge hole and the front discharge hole.

Compared with the prior art, the utility model adopting the technical scheme has the beneficial effects that:

simple structure, it is with low costs, a belt conveyor can realize the multiple spot material distribution, divides the material pay-off to a plurality of feed bins or conveying mechanism, reduces the equipment acquisition cost.

Further, the optimization scheme of the utility model is as follows:

the included angle between the material distributing support plate and the rack is 15-25 degrees.

The material distributing support plate is hinged to the rack, an angle adjusting mechanism is arranged between the material distributing support plate and the rack and comprises an adjusting screw rod, an adjusting sleeve and a U-shaped fork, the lower end of the adjusting screw rod is hinged to the rack in front of the material distributing support plate, the adjusting sleeve is screwed on the adjusting screw rod, the outer end of the adjusting sleeve is fixedly connected with the U-shaped fork, the U-shaped fork is connected with an adjusting hole of the material distributing support plate, and the adjusting holes are multiple.

The guide compression roller component comprises a portal frame, a left guide compression roller, a right guide compression roller and a compression roller support, the lower ends of vertical beams on two sides of the portal frame are fixedly connected with the frame respectively, the left guide compression roller and the right guide compression roller are pressed on the edge parts on two sides of the conveying belt respectively, the left guide compression roller and the right guide compression roller are installed at the lower end of the compression roller support, and the upper end of the compression roller support is connected with the portal frame.

The upper end of the pinch roller support is connected with an adjusting plate, the adjusting plate is provided with a plurality of adjusting holes, and the adjusting plate is fixedly connected with a cross beam of the portal frame.

The section of the rotary inserting plate is fan-shaped, the corner of a fan-shaped angle of the rotary inserting plate is fixedly connected with an axial rotating shaft, two ends of the rotating shaft are rotatably connected with side plates of the distributing groove, and one end of the rotating shaft is connected with a driving mechanism outside the side plates.

The driving mechanism is a swing cylinder or a rotating cylinder.

The two side discharging pipes are respectively arranged on two sides of the rack, the upper parts of the two side discharging pipes are arranged in an inward inclined mode, and the upper ends of the inner side plates of the two side discharging pipes are in a splayed shape.

The upper part of the partition plate between the side discharging pipe and the front discharging pipe is inclined towards the front discharging pipe.

The rear part of the material distributing groove is provided with a material blocking plate which is inclined backwards.

Drawings

FIG. 1 is a front view of an embodiment of the present invention;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a cross-sectional view A-A of FIG. 1;

FIG. 4 is a cross-sectional view B-B of FIG. 1;

FIG. 5 is a schematic view of a frame and a distribution support plate according to an embodiment of the present invention;

FIG. 6 is a schematic view of the connection between the distributing trough and the rotary inserting plate according to the embodiment of the utility model;

FIG. 7 is a front view of a dispensing chute according to an embodiment of the present invention;

FIG. 8 is a top view of FIG. 7;

FIG. 9 is a left side view of FIG. 8;

FIG. 10 is a right side view of FIG. 9;

FIG. 11 is a front view of a rotary insert plate according to an embodiment of the present invention;

FIG. 12 is a top view of FIG. 11;

FIG. 13 is a schematic view of an angle adjustment mechanism according to an embodiment of the present invention;

FIG. 14 is a schematic view of an embodiment of the utility model with the front spout open;

fig. 15 is a schematic view of the opening of the rear discharge hole in the embodiment of the present invention.

In the figure: a frame 1; a rotary drum 2; a drive roller 3; a reduction motor 4; a conveyor belt 5; supporting the roller assembly 6; 6-1 of a left roller; 6-2 parts of intermediate rollers; 6-3 of a right roller; 6-4 of a roller bracket; a material distributing support plate 7; a vertical plate 7-1; a pin 7-2; 7-3 of an ear seat; a material distributing roller 8; a guide roller 9; a gantry 10; a left guide pinch roller 11; a right guide pinch roller 12; a pinch roller bracket 13; an adjusting plate 14; a distributing chute 15; a rear discharge port 15-1; a front discharge port 15-2; 15-3 of a material baffle plate; a side discharge pipe 16; a front discharge pipe 17; a rotary inserting plate 18; a rotating shaft 19; a swing cylinder 20; a support 21; an adjusting screw 22; an adjustment sleeve 23; a U-shaped fork 24; a connecting pin 25; an ear plate 26; a protective cover 27.

Detailed Description

The utility model is further described in detail below with reference to the figures and examples.

Referring to fig. 1-4, the present embodiment is a belt conveyor for multi-point salt distribution, which is composed of a frame 1, a rotary drum 2, a driving drum 3, a conveyor belt 5, a distribution support plate 7, a distribution drum 8, a distribution trough 15, and the like. The machine frame 1 is a rectangular welding component, a feed end and a discharge end of the machine frame are respectively provided with a rotary roller 2 and a driving roller 3, a closed conveying belt 5 is sleeved on the rotary roller 2 and the driving roller 3, the driving roller 3 is driven by a speed reducing motor 4, a supporting roller assembly 6 is arranged in the machine frame 1, the supporting roller assembly 6 comprises a left roller 6-1, a middle roller 6-2, a right roller 6-3, a roller bracket 6-4 and the like, the left roller 6-1, the middle roller 6-2 and the right roller 6-3 are arranged on the roller bracket 6-4, the left roller 6-1, the middle roller 6-2 and the right roller 6-3 are in a groove shape, and the supporting roller assembly 6 supports the conveying belt 5.

Two pairs of material distributing support plates 7 are welded above the rack 1, three-point material distribution of the two pairs of material distributing support plates 7 and the driving roller 3 is realized, the material distributing support plates 7 are obliquely arranged towards the conveying direction, the included angle between the material distributing support plates 7 and the rack 1 is 15-25 degrees, and the salt content is 19 degrees according to the characteristics of salt in the embodiment. Two material distributing support plates of each pair of material distributing support plates 7 are respectively positioned on two sides of the machine frame 1, the multiple pairs of material distributing support plates 7 and the machine frame 1 form a sawtooth shape, a material distributing roller 8 is installed between the upper ends of each pair of material distributing support plates 7, a guide roller 9 is installed on the machine frame 1 below the material distributing support plates 7, the guide roller 9 is positioned on the machine frame 1 at the included angle between the material distributing support plates 7 and the machine frame 1, and the guide roller 9 is rotatably connected with the machine frame 1 through the support plates. The material distributing support plates 7 are arranged according to the number of the bins, and the four pairs of material distributing support plates 7 are arranged to realize five-point material distribution (shown in figure 5) of the four pairs of material distributing support plates 7 and the driving roller 3, and so on.

The conveying belt 5 behind the root of the material distributing support plate 7 is provided with a guide compression roller assembly, and the guide compression roller assembly comprises a door frame 10, a left guide compression roller 11, a right guide compression roller 12, a compression roller support 13, an adjusting plate 14 and the like. The lower extreme of the perpendicular roof beam in portal 10 both sides welds respectively in the both sides of frame 1, the limit portion in 5 both sides of conveyer belt is pressed respectively to left direction pinch roller 11 and right direction pinch roller 12, the draw-in groove of the lower extreme of pinch roller support 13 is installed respectively at the both ends of the shaft of left side direction pinch roller 11, pinch roller support 13's upper end is passed through the bolt and is connected with regulating plate 14, regulating plate 14's upper end and portal 10's crossbeam welding, regulating plate 14 sets up a plurality of regulation holes, the regulation hole is used for adjusting the height of right direction pinch roller 12, thereby adjust the pressure to the conveyer belt, right direction pinch roller 12's mounting structure is the same with left direction pinch roller 11. The conveyer belt 5 moves obliquely upwards after passing through the left guide pinch roller 11 and the right guide pinch roller 12, moves to the guide roller 9 after passing through the material distribution roller 8, and moves horizontally after passing through the guide roller 9, and the included angle between the inclined part and the horizontal part of the conveyer belt 5 is 19 degrees.

A distributing groove 15 (shown in figures 6-10) is arranged below the distributing roller 8, the cross section of the distributing groove 15 is J-shaped, and a horizontal part of the distributing groove is provided with a transverse rear discharging hole 15-1 and a transverse front discharging hole 15-2 along the conveying direction. Vertical side discharging pipes 16 are arranged on two sides of the rack 1, a rear discharging port 15-1 is communicated with the upper ends of the two side discharging pipes 16, the upper ends of the two side discharging pipes 16 are inclined inwards, and the upper ends of the two side discharging pipes 16 are splayed. The front discharge hole 15-2 is communicated with the upper end of the front discharge pipe 17, the lower end of the front discharge pipe 17 is provided with a closing structure, and the discharge hole of the front discharge pipe 17 is opposite to the conveying belt 5. The side discharging pipes 16 are fixed on two sides of the frame 1, and the side discharging pipes 16 simultaneously support the material distributing grooves 15. And a protective cover 27 is arranged above the material distributing support plate 7 and the material distributing groove 15.

The upper end of a partition plate between a rear discharge hole 15-1 and a front discharge hole 15-2 of the distributing groove 15 is arranged in a forward inclining mode, a transverse rotary inserting plate 18 (shown in figures 11 and 12) is arranged above the partition plate, the section of the rotary inserting plate 18 is fan-shaped, a transverse rotating shaft 19 is welded at the corner of a fan-shaped angle of the rotary inserting plate 18, two ends of the rotating shaft 19 are respectively connected with side plates of the distributing groove 15 through bearing seats, the right end of the rotating shaft 19 is connected with an output shaft of a swing cylinder 20 through a coupler, the swing cylinder 20 is located outside the side plates of the distributing groove 15, the swing cylinder 20 is installed on a support 21, and the support 21 is welded with the distributing groove 15. The swing cylinder 20 drives the rotary inserting plate 18 to swing back and forth, the rotary inserting plate 18 swings backwards to close the rear discharge hole 15-1 (shown in figure 14), and the swing cylinder 20 drives the rotary inserting plate 18 to swing forwards to close the front discharge hole 15-2 (shown in figure 15). The rear part of the horizontal part of the material distributing groove 15 is provided with a material baffle plate 15-3 which is inclined backwards and upwards, and the swing cylinder 20 can also adopt a rotary cylinder.

In order to adapt the angle of the material distributing support plate 7 to different materials, the lower end of the material distributing support plate 7 is welded with a vertical plate 7-1, and the vertical plate 7-1 is hinged with the rack 1 through a pin shaft 7-2 and an ear seat 7-3. An angle adjusting mechanism is arranged between the material distributing support plate 7 and the rack 1 and comprises an adjusting screw rod 22, an adjusting sleeve 23, a U-shaped fork 24, a connecting pin 25, an ear plate 26 and the like, the connecting pin 25 is welded at the lower end of the adjusting screw rod 22, the connecting pin 25 is hinged with the ear plate 26, the adjusting sleeve 23 is screwed at the upper end of the adjusting screw rod 22, the U-shaped fork 24 is welded at the upper end of the adjusting sleeve 23, the U-shaped fork 24 is connected with an adjusting hole of the material distributing support plate 7 through a bolt, and the material distributing support plate 7 is provided with a plurality of adjusting holes for adjusting the angle of the material distributing support plate 7.

The working process of the embodiment is as follows: the salt bin which needs to be divided is provided with a dividing support plate 7, a dividing roller 8 and dividing grooves 15 in number, salt enters a conveyer belt 5 from a rotary roller 3, enters the dividing grooves 15 through the dividing support plate 7, a rotary inserting plate 18 rotates forwards to close a front discharge port 15-2, salt enters a side discharge pipe 16 through a rear discharge port 15-1, and enters the bin (not shown in the figure) through a side discharge pipe 16, after the bin is full, the rotary inserting plate 18 rotates backwards to close the rear discharge port 15-1, and the salt enters the conveyer belt 5 through the front discharge port 15-2 to be fed to the next salt bin. The rotary inserting plate 18 can also open the rear discharge hole 15-1 and the front discharge hole 15-2 at the same time to feed materials to a plurality of bins at the same time.

The utility model has simple structure and low cost, can feed a plurality of vertical bins, reduces the number of conveyors and lowers the equipment acquisition cost. The utility model can also distribute materials to a plurality of conveyors.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the present invention, which is defined in the appended claims.

Claims (10)

1. The utility model provides a belt conveyor for salt multiple spot divides material, includes frame, driving roller, rotary drum, supports the roller subassembly, divides the silo, and the both ends of frame are rotated and are connected driving roller and rotary drum, and on closed conveyer belt suit driving roller and rotary drum, the supporting roller subassembly supports the conveyer belt, its characterized in that:

the machine frame is provided with a plurality of distribution support plates which incline to the conveying direction, the distribution support plates and the machine frame form a sawtooth shape, the distribution roller is rotatably connected to the upper end of each pair of distribution support plates, the machine frame below the distribution support plates is rotatably connected with the guide roller, the conveying belt enters the guide roller from the distribution roller, and the conveying belt behind the root of the distribution support plates is provided with a guide compression roller assembly;

the material distributing groove is positioned below the material distributing roller, the bottom of the material distributing groove is provided with a rear discharge hole and a front discharge hole along the conveying direction, the rear discharge hole is communicated with a side discharge pipe outside the rack, and the front discharge hole is communicated with a front discharge pipe opposite to the conveying belt; a rotary inserting plate is arranged between a rear discharge hole and a front discharge hole of the distributing groove, and a driving mechanism drives the rotary inserting plate to rotate so as to switch materials between the rear discharge hole and the front discharge hole.

2. The belt conveyor for multi-point salt distribution according to claim 1, characterized in that: the included angle between the material distributing support plate and the rack is 15-25 degrees.

3. The belt conveyor for multi-point salt distribution according to claim 1, characterized in that: the material distributing support plate is hinged to the rack, an angle adjusting mechanism is arranged between the material distributing support plate and the rack and comprises an adjusting screw rod, an adjusting sleeve and a U-shaped fork, the lower end of the adjusting screw rod is hinged to the rack in front of the material distributing support plate, the adjusting sleeve is screwed on the adjusting screw rod, the outer end of the adjusting sleeve is fixedly connected with the U-shaped fork, the U-shaped fork is connected with an adjusting hole of the material distributing support plate, and the adjusting holes are multiple.

4. The belt conveyor for multi-point salt distribution according to claim 1, characterized in that: the guide compression roller component comprises a portal frame, a left guide compression roller, a right guide compression roller and a compression roller support, the lower ends of vertical beams on two sides of the portal frame are fixedly connected with the frame respectively, the left guide compression roller and the right guide compression roller are pressed on the edge parts on two sides of the conveying belt respectively, the left guide compression roller and the right guide compression roller are installed at the lower end of the compression roller support, and the upper end of the compression roller support is connected with the portal frame.

5. The belt conveyor for multi-point salt distribution according to claim 4, characterized in that: the upper end of the pinch roller support is connected with an adjusting plate, the adjusting plate is provided with a plurality of adjusting holes, and the adjusting plate is fixedly connected with a cross beam of the portal frame.

6. The belt conveyor for multi-point salt distribution according to claim 1, characterized in that: the section of the rotary inserting plate is fan-shaped, the corner of a fan-shaped angle of the rotary inserting plate is fixedly connected with an axial rotating shaft, two ends of the rotating shaft are rotatably connected with side plates of the distributing groove, and one end of the rotating shaft is connected with a driving mechanism outside the side plates.

7. The belt conveyor for multi-point salt distribution according to claim 1 or 6, characterized in that: the driving mechanism is a swing cylinder or a rotating cylinder.

8. The belt conveyor for multi-point salt distribution according to claim 1, characterized in that: the two side discharging pipes are respectively arranged on two sides of the rack, the upper parts of the two side discharging pipes are arranged in an inward inclined mode, and the upper ends of the two side discharging pipes are in a splayed shape.

9. The belt conveyor for multi-point salt distribution according to claim 1, characterized in that: the upper part of the partition plate between the side discharging pipe and the front discharging pipe inclines towards the front discharging pipe.

10. The belt conveyor for multi-point salt distribution according to claim 1, characterized in that: the rear part of the material distributing groove is provided with a material blocking plate which is inclined backwards.

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