CN213293699U - Bucket elevator capable of automatically taking and discharging materials - Google Patents

Abstract

The utility model relates to the technical field of a lifter, and discloses a bucket type lifter capable of automatically taking and discharging materials, which comprises a frame, a hopper, a feeding mechanism and a discharging channel, wherein the frame comprises a base, a pair of support frames symmetrically arranged front and back are fixed on the base, and a guide groove is formed on each support frame; the hopper comprises a hopper body, two pairs of roller bases which are symmetrically arranged in front and back are fixed on the hopper body, rollers are hinged on the roller bases, two roller inserting sleeves on the rear side are inserted in the guide grooves of the supporting frame on the rear side, and two roller inserting sleeves on the front side are inserted in the guide grooves of the supporting frame on the front side; the discharging channel is obliquely arranged in a left-high and right-low manner and is positioned between the two supporting frames; the feeding mechanism comprises a feeding channel which is arranged at the left lower end of the rack and is high at the left and low at the right; the frame is provided with a driving mechanism for driving the hopper to move. It can carry out automatic ration reinforced to the hopper, and the hopper can overturn automatically and pour out the material in the hopper, can effectively improve the promotion quality and the lifting efficiency of waste residue.

Description

Bucket elevator capable of automatically taking and discharging materials

The technical field is as follows:

the utility model relates to a lifting machine technical field, concretely relates to automatic get bucket elevator of material blowing.

Background art:

the bucket elevator is a main unit for industrial waste residue transportation work, and is used for conveying waste residues at a low position to a high position for later processing; however, the existing bucket elevator can not automatically take and discharge materials, and the problem of sprinkling is easy to occur in the lifting process; meanwhile, the amount of the materials taken by the hopper at each time is large or small, the control is not good, and the lifting quality and the lifting efficiency of the waste residues are low.

The utility model has the following contents:

the utility model aims at overcoming prior art not enough, providing an automatic get bucket elevator of material blowing, it can carry out automatic ration reinforced to the hopper, and the hopper can overturn automatically and pour out the material in the hopper automatically, can effectively improve the promotion quality and the lifting efficiency of waste residue.

The utility model provides a technical problem's scheme is:

a bucket elevator capable of automatically taking and discharging materials comprises a rack, a hopper, a feeding mechanism and a discharging channel, wherein the rack comprises a base, a pair of supporting frames which are symmetrically arranged in front and back are fixed on the base, and a 7-shaped guide groove is formed in each supporting frame;

the hopper comprises a hopper body, two pairs of roller bases which are symmetrically arranged in the front and back are fixed on the hopper body, rollers are hinged to the roller bases, two roller inserting sleeves on the rear side are inserted in guide grooves of a supporting frame on the rear side, and two roller inserting sleeves on the front side are inserted in guide grooves of a supporting frame on the front side;

the discharging channel is obliquely arranged in a left-high-right manner and is positioned between the two supporting frames;

the feeding mechanism comprises a feeding channel which is arranged at the left lower end of the rack in a high-right low mode;

and the frame is provided with a driving mechanism for driving the hopper to move.

The driving mechanism comprises a steel wire rope winding shaft, a steel wire rope, a first guide wheel arranged on the lower side of the guide groove, a second guide wheel arranged at the bending part of the guide groove, a third guide wheel arranged on the outer side of the upper end of the guide groove and a steel wire rope end fixing rod;

the end part fixing rod of the steel wire rope is fixedly connected with the hopper, and the steel wire rope winds the lower extending end of the steel wire rope winding shaft and sequentially winds the extending ends of the first guide wheel and the second guide wheel to be fixed on the end part fixing rod of the steel wire rope; the steel wire rope rounds the upper extending end of the steel wire rope winding shaft and rounds the extending end of the third guide wheel to be fixed on the fixed rod at the end part of the steel wire rope;

the steel wire rope winding shaft, the first guide wheel, the second guide wheel and the third guide wheel are hinged to the rack, the steel wire rope winding shaft is connected with a first motor driving the steel wire rope winding shaft to rotate forwards or reversely, and the first motor is fixed to the rack.

And an inclined groove which is obliquely arranged in a left-high-right manner is formed on the outer side of the upper end of the guide groove.

The feeding mechanism also comprises a cylinder arranged above the feeding channel, a rotating shaft which is coaxial with the cylinder is sleeved in the cylinder, a plurality of partition plates which are uniformly distributed on the circumference are fixed on the rotating shaft, and the partition plates are pressed on the side wall and the bottom surfaces of the two sides of the cylinder; a discharge opening is formed in the right lower end of the cylinder and is opposite to the feeding channel;

the right upper end of the cylinder is provided with a feeding notch, and the feeding notch is communicated with the lower port part of the funnel-shaped temporary storage box;

the outer extending end of the rotating shaft penetrating through the bottom surface of one side of the cylinder is connected with a second motor for driving the rotating shaft to rotate in a clearance mode, and the second motor is fixedly connected with the cylinder;

the cylinder and the temporary storage box are fixed on the frame.

The capacity of a temporary storage cavity formed by the adjacent two partition plates, the cylinder and the rotating shaft is smaller than that of the hopper body.

The distance between the outer ends of two adjacent clapboards is larger than the width of the discharging opening.

A plurality of shock attenuation supporting legs are fixed with to the bottom of hopper body.

The outer wall of the steel wire rope winding shaft is formed with a spiral groove, and the steel wire ropes sequentially pass around the spiral groove.

The utility model discloses an outstanding effect is:

compared with the prior art, it can carry out automatic ration reinforced to the hopper, and the hopper can overturn automatically and pour out the material in the hopper automatically, can effectively improve the promotion quality and the lifting efficiency of waste residue.

Description of the drawings:

fig. 1 is a schematic structural view of the present invention (the hopper shown by the dotted line on the lower side of the figure represents the initial position of the hopper;

FIG. 2 is an enlarged view of a portion of FIG. 1;

FIG. 3 is a schematic view of the end fixing rod and the hopper of the steel wire rope of the present invention;

fig. 4 is a schematic view of the wire winding of the steel wire rope on the steel wire rope winding shaft of the present invention.

The specific implementation mode is as follows:

in the embodiment, as shown in fig. 1 to 4, a bucket elevator for automatically taking and discharging materials comprises a frame 1, a hopper 2, a feeding mechanism 3 and a discharging channel 4, wherein the frame 1 comprises a base 11, a pair of support frames 12 symmetrically arranged in front and back are fixed on the base 11, and a guide groove 13 shaped like a Chinese character '7' is formed on each support frame 12;

the hopper 2 comprises a hopper body 21, two pairs of roller bases 22 which are symmetrically arranged in the front-back direction are fixed on the hopper body 21, rollers 23 are hinged to the roller bases 22, the two rollers 23 on the rear side are inserted and sleeved in the guide grooves 13 of the supporting frame 12 on the rear side, and the two rollers 23 on the front side are inserted and sleeved in the guide grooves 13 of the supporting frame 12 on the front side;

the discharging channel 4 is obliquely arranged in a left-high-right direction and is positioned between the two supporting frames 12;

the feeding mechanism 3 comprises a feeding channel 31 which is arranged at the left lower end of the frame 1 and is arranged in a high-right mode;

and a driving mechanism 5 for driving the hopper 2 to move is arranged on the frame 1.

Furthermore, the driving mechanism 5 comprises a wire rope winding shaft 51, a wire rope 52, a first guide wheel 53 arranged on the lower side of the guide groove 13, a second guide wheel 54 arranged at the bending part of the guide groove 13, a third guide wheel 55 arranged on the outer side of the upper end of the guide groove 13 and a wire rope end fixing rod 56;

the steel wire rope end fixing rod 56 is fixedly connected with the hopper 2, and the steel wire rope 52 bypasses the lower extending end of the steel wire rope winding shaft 51 and sequentially bypasses the extending ends of the first guide wheel 53 and the second guide wheel 54 to be fixed on the steel wire rope end fixing rod 56; the steel wire rope 52 rounds the upper extending end of the steel wire rope winding shaft 51 and rounds the extending end of the third guide wheel 55 to be fixed on a steel wire rope end fixing rod 56;

the steel wire rope winding shaft 51, the first guide wheel 53, the second guide wheel 54 and the third guide wheel 55 are hinged to the frame 1, the steel wire rope winding shaft 51 is connected with a first motor driving the steel wire rope winding shaft to rotate forwards or backwards, and the first motor is fixed on the frame 1.

Further, an inclined groove 14 is formed at the outer side of the upper end of the guide groove 13 and is inclined in a left-to-right direction.

Furthermore, the feeding mechanism 3 further comprises a cylinder 32 arranged above the feeding channel 31, a rotating shaft 33 coaxially arranged with the cylinder 32 is sleeved in the cylinder 32, a plurality of partition plates 34 uniformly distributed on the circumference are fixed on the rotating shaft 33, and the partition plates 34 are pressed on the side wall and the bottom surfaces of the two sides of the cylinder 32; a discharge opening 321 is formed in the right lower end of the cylinder 32, and the discharge opening 321 is opposite to the feeding channel 31;

a feeding notch 322 is formed in the upper right end of the cylinder 32, and the feeding notch 322 is communicated with the lower port of the funnel-shaped temporary storage box 35;

the outer extending end of the rotating shaft 33 penetrating through the bottom surface of one side of the cylinder 32 is connected with a second motor for driving the rotating shaft to rotate in a clearance manner, and the second motor is fixedly connected with the cylinder 32;

the cylinder 32 and the temporary storage bin 35 are fixed to the frame 1.

Further, the capacity of the temporary storage chamber 300 enclosed by two adjacent partitions 34, the cylinder 32 and the rotating shaft 33 is smaller than the capacity of the hopper body 21.

Furthermore, the distance between the outer ends of two adjacent baffles 34 is larger than the width of the discharge gap 321.

More specifically, a plurality of shock-absorbing support legs 25 are fixed to the bottom of the hopper body 21.

Further, a spiral groove 511 is formed on an outer wall of the wire rope winding shaft 51, and the wire rope 52 sequentially passes around the spiral groove 511.

The working principle is as follows: firstly, the waste slag is stored in a temporary storage box 35 and enters the cylinder 32 through a feeding notch 322;

secondly, performing secondary drying; the second motor drives the rotating shaft 33 to rotate clockwise intermittently, the rotating shaft 33 drives the partition boards 34 to rotate, when one partition board 34 rotates through the discharging opening 322, waste slag in the temporary storage cavity 300 defined by the partition board 34 and the adjacent partition board on the right side of the partition board flows out of the discharging channel from the discharging opening 322, then the waste slag continues to slide down into the hopper body 21 along the discharging channel until the waste slag in the temporary storage cavity 300 is poured, and the second motor stops rotating for a period of time;

thirdly, the first motor rotates forwards and drives the steel wire rope 52 to transmit clockwise through the steel wire rope winding shaft 51, the steel wire rope 52 drives the hopper 2 and the roller 23 of the hopper 2 to move upwards along the corresponding guide groove 13 through the steel wire rope end fixing rod 56, when the hopper moves to the bending part at the upper end of the guide groove 13, the hopper automatically turns over, dregs in the hopper body are poured onto the discharging channel 4, and the dregs are conveyed to the next working procedure through the discharging channel 4;

fourthly, after the dregs are poured out, the first motor rotates reversely, and the hopper moves downwards to reset.

Finally, the above embodiments are only used for illustrating the present invention, and not for limiting the present invention, and those skilled in the relevant art can make various changes and modifications without departing from the spirit and scope of the present invention, so that all equivalent technical solutions also belong to the scope of the present invention, and the protection scope of the present invention should be defined by the claims.

Claims (8)

1. The utility model provides an automatic get bucket elevator of material blowing, includes frame (1), hopper (2), feed mechanism (3) and discharging channel (4), its characterized in that: the rack (1) comprises a base (11), a pair of support frames (12) which are symmetrically arranged in front and back are fixed on the base (11), and a 7-shaped guide groove (13) is formed in each support frame (12);

the hopper (2) comprises a hopper body (21), two pairs of roller bases (22) which are symmetrically arranged in the front-back direction are fixed on the hopper body (21), rollers (23) are hinged to the roller bases (22), two rollers (23) on the rear side are inserted in guide grooves (13) of a supporting frame (12) on the rear side, and two rollers (23) on the front side are inserted in guide grooves (13) of the supporting frame (12) on the front side;

the discharging channel (4) is obliquely arranged in a left-high-right manner and is positioned between the two supporting frames (12);

the feeding mechanism (3) comprises a feeding channel (31) which is arranged at the left lower end and the right lower end of the rack (1) in a high-right mode;

and a driving mechanism (5) for driving the hopper (2) to move is arranged on the rack (1).

2. The bucket elevator capable of automatically taking and discharging materials as claimed in claim 1, wherein: the driving mechanism (5) comprises a steel wire rope winding shaft (51), a steel wire rope (52), a first guide wheel (53) arranged on the lower side of the guide groove (13), a second guide wheel (54) arranged at the bending part of the guide groove (13), a third guide wheel (55) arranged on the outer side of the upper end of the guide groove (13) and a steel wire rope end fixing rod (56);

the steel wire rope end fixing rod (56) is fixedly connected with the hopper (2), and the steel wire rope (52) rounds the lower extending end of the steel wire rope winding shaft (51) and sequentially rounds the extending ends of the first guide wheel (53) and the second guide wheel (54) to be fixed on the steel wire rope end fixing rod (56); the upper extending end of the steel wire rope (52) which bypasses the steel wire rope winding shaft (51) bypasses the extending end of the third guide wheel (55) and is fixed on a steel wire rope end fixing rod (56);

the steel wire rope winding shaft (51), the first guide wheel (53), the second guide wheel (54) and the third guide wheel (55) are hinged to the rack (1), the steel wire rope winding shaft (51) is connected with a first motor driving the steel wire rope winding shaft to rotate forwards or backwards, and the first motor is fixed on the rack (1).

3. The bucket elevator capable of automatically taking and discharging materials as claimed in claim 1, wherein: an inclined groove (14) which is obliquely arranged in a left-high-right manner is formed on the outer side of the upper end of the guide groove (13).

4. The bucket elevator capable of automatically taking and discharging materials as claimed in claim 1, wherein: the feeding mechanism (3) further comprises a cylinder (32) arranged above the feeding channel (31), a rotating shaft (33) which is coaxial with the cylinder (32) is sleeved in the cylinder (32), a plurality of partition plates (34) which are uniformly distributed on the circumference are fixed on the rotating shaft (33), and the partition plates (34) are pressed on the side wall and the bottom surfaces of the two sides of the cylinder (32); a discharge opening (321) is formed in the right lower end of the cylinder (32), and the discharge opening (321) is opposite to the feeding channel (31);

a feeding notch (322) is formed in the upper right end of the cylinder (32), and the feeding notch (322) is communicated with the lower end opening of the funnel-shaped temporary storage box (35);

the rotating shaft (33) penetrates through the outer extending end of the bottom surface of one side of the cylinder (32) and is connected with a second motor for driving the rotating shaft to rotate in a clearance mode, and the second motor is fixedly connected with the cylinder (32);

the cylinder (32) and the temporary storage box (35) are fixed on the frame (1).

5. The bucket elevator capable of automatically taking and discharging materials as claimed in claim 4, wherein: the capacity of a temporary storage cavity (300) enclosed by two adjacent partition plates (34), the cylinder (32) and the rotating shaft (33) is smaller than that of the hopper body (21).

6. The bucket elevator capable of automatically taking and discharging materials as claimed in claim 4, wherein: the distance between the outer ends of two adjacent clapboards (34) is larger than the width of the discharging notch (321).

7. The bucket elevator capable of automatically taking and discharging materials as claimed in claim 1, wherein: a plurality of shock absorption supporting legs (25) are fixed at the bottom of the hopper body (21).

8. The bucket elevator capable of automatically taking and discharging materials as claimed in claim 2, wherein: a spiral groove (511) is formed in the outer wall of the steel wire rope winding shaft (51), and the steel wire rope (52) sequentially bypasses the spiral groove (511).

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