CN219193426U - Zero-crushing elevator - Google Patents

Abstract

The utility model provides a zero-crushing elevator, which relates to the field of elevators and comprises a bucket elevator and a feed hopper positioned at one side of the bucket elevator, wherein an anti-blocking assembly is arranged in the feed hopper, a quantitative bin is arranged at the bottom of the feed hopper, a first quantitative pipe is arranged in the quantitative bin, a first quantitative disc is arranged at the bottom of the first quantitative pipe, a second quantitative pipe is rotatably arranged below the first quantitative pipe, and the first quantitative pipe and the second quantitative pipe are rotatably connected; according to the utility model, the second quantitative pipe is driven to rotate by the driving assembly, so that the first quantitative plate and the discharging opening on the second quantitative plate discharge the materials, but the discharging opening is staggered along with the rotation of the second quantitative pipe, so that the discharging is prevented, the purpose of single quantitative discharging is achieved, and the problem that the materials flow into the elevator and are crushed by the elevator due to the fact that the traditional elevator does not have the quantitative function is solved.

Description

A zero broken hoist

technical field

The utility model relates to the technical field of hoists, in particular to a zero-breakage hoist.

Background technique

A hoist is a large-scale mechanical device that is transported by changing potential energy, such as a mine hoist, a dam crossing hoist, etc. Broadly speaking, elevators, cranes, winches, stabilizers, cranes, hoists, etc. can all be called hoisting machines. Machines, hoists generally refer to large-scale mechanical equipment with large power and strong lifting capacity, and the transportation process is completed by dragging the flexible steel wire rope and the transported goods up and down through the power machinery;

In the production and transportation of seeds, a zero-breakage elevator is required, and a zero-breakage elevator generally refers to a bucket elevator, and when a bucket elevator is used, it often causes the seed to The backlog is inside the bucket elevator, and it is inconvenient to take out the seeds, and when the hopper moves to the bottom, there is a risk of the seeds being crushed, so the utility model proposes a zero-broken elevator to solve the problems existing in the prior art question.

Utility model content

In view of the above problems, the utility model proposes a zero-breakage hoist, the zero-breakage hoist through the rotation of the second quantitative tube, the feeding port is misplaced, thereby preventing the feeding and achieving the purpose of single quantitative feeding, thereby solving the problem of It solves the problem that the traditional elevator does not quantify, which causes the material to flow into the interior of the elevator and be crushed by both.

In order to achieve the purpose of the utility model, the utility model is achieved through the following technical solutions: a zero-breakage elevator, including a bucket elevator and a feeding hopper located on one side of the bucket elevator, the interior of the feeding hopper is set There is an anti-clogging component, the bottom of the feed hopper is provided with a quantitative bin, the interior of the quantitative bin is provided with a first quantitative tube, the bottom of the first quantitative tube is provided with a first quantitative plate, and the first quantitative tube is provided with a first quantitative plate. A second quantitative tube is rotatably installed below a certain quantitative tube, and the first quantitative tube is connected to the second quantitative tube by rotation, and the top of the second quantitative tube is provided with a second quantitative plate. The quantitative plate and the second quantitative plate are attached, and the first quantitative plate and the second quantitative plate are provided with a feeding port, and the feeding ports on the first quantitative plate and the second quantitative plate are Misplacement setting, one side of the second metering tube is provided with a drive assembly, the bottom of the second metering tube is provided with a connecting pipe, the connecting pipe is rotatably connected with the second metering pipe, and the connecting pipe is provided with a dust removal device. Assemblies, the lower end of the connecting pipe communicates with the bucket elevator.

A further improvement is that: the feeding openings are distributed in multiple groups in a circular array, and the feeding openings are fan-shaped.

A further improvement is: the anti-clogging assembly includes a first motor, a rotating shaft and a stirring blade, the inside of the feed hopper is installed with a first motor through an assembly assembly, the output end of the first motor is provided with a rotating shaft, and the rotating shaft There are stirring blades on it.

A further improvement is that: the assembly assembly includes a support rod and a mounting plate, the inside of the feed hopper is provided with a mounting plate, both sides of the mounting plate are provided with support rods, and one end of the support rod is connected to the feed hopper The inner wall of the mounting plate is fixedly connected, and the top of the mounting plate is fixedly connected with the first motor.

A further improvement is that: the drive assembly includes a second motor, a gear and a gear ring, a second motor is fixed on a side wall of the quantitative chamber, a gear is provided at the output end of the second motor, and the second A gear ring is fixedly arranged on the outer wall of the quantitative tube, and the gear is meshed with the gear ring.

A further improvement is that: the dust removal assembly includes a ventilation hole, a fan and a dust removal pipe, a fan is provided on one side of the connecting pipe, a plurality of sets of ventilation holes are provided on the side of the quantitative chamber close to the fan, and a set of ventilation holes is provided on the other side. Dust removal tube.

A further improvement is that: a dust collection bag is detachably installed on the dust removal pipe through a hoop, and the material of the dust collection bag is cloth.

The beneficial effects of the utility model are: the utility model drives the second quantitative tube to rotate through the drive assembly, so that the first quantitative plate and the second quantitative The rotation of the tube and the misalignment of the feeding port prevent the feeding and achieve the purpose of single quantitative feeding, thus solving the problem that the traditional elevator does not have a fixed amount and the material flows into the inside of the elevator and is crushed by both, and prevents clogging at the same time The components are set so that the material will not block the feed hopper. At the same time, the dust removal component removes dust from the seeds entering the elevator to prevent the dust from being stored together with the seeds.

Description of drawings

Fig. 1 is the schematic diagram of the utility model.

Fig. 2 is a schematic diagram of the driving assembly of the utility model.

Fig. 3 is a structural schematic diagram of the first metering tube and the second metering tube of the present invention.

Fig. 4 is a sectional view of the quantitative chamber of the present invention.

Among them: 1. Bucket elevator; 2. Feed hopper; 3. Quantitative bin; 4. The first quantitative tube; 5. The first quantitative plate; 6. The second quantitative tube; 7. The second quantitative plate; 8. Feeding port; 9. Connecting pipe; 10. First motor; 11. Rotating shaft; 12. Stirring blade; 13. Support rod; 14. Mounting plate; 15. Second motor; 16. Gear; 17. Gear ring ; 18, ventilation hole; 19, fan; 20, dust removal pipe; 21, dust bag.

Detailed ways

In order to deepen the understanding of the utility model, the utility model will be further described below in conjunction with the examples. The examples are only used to explain the utility model, and do not constitute a limitation to the protection scope of the utility model.

As shown in Figures 1, 2, 3, and 4, this embodiment proposes a zero-break elevator, including a bucket elevator 1 and a feed hopper 2 positioned on one side of the bucket elevator 1, the feed hopper 2 is provided with an anti-clogging assembly, the bottom of the feed hopper 2 is provided with a quantitative chamber 3, the interior of the quantitative chamber 3 is provided with a first quantitative tube 4, and the bottom of the first quantitative tube 4 is provided with The first quantitative disc 5, the second quantitative tube 6 is rotatably installed below the first quantitative tube 4, the first quantitative tube 4 is connected to the second quantitative tube 6, and the second quantitative The top of the tube 6 is provided with a second quantitative plate 7, the first quantitative plate 5 is attached to the second quantitative plate 7, and the first quantitative plate 5 and the second quantitative plate 7 are provided with a blanking plate. port 8, and the first quantitative plate 5 and the second quantitative plate 7 on the dislocation of the discharge port 8, a side of the second quantitative tube 6 is provided with a drive assembly, the second quantitative tube 6 A connecting pipe 9 is provided at the bottom, and the connecting pipe 9 is rotationally connected with the second metering pipe 6. A dust removal assembly is arranged on the connecting pipe 9. The lower end of the connecting pipe 9 communicates with the bucket elevator 1, and the The bucket 2 adds material, and the material is loaded through the bucket elevator 1, and at the same time, the second quantitative tube 6 at the feeding hopper 2 is driven to rotate through the drive assembly, so that the discharge port 8 on the second quantitative disk 7 is aligned with the first The feeding port 8 on the quantitative plate 5 is slowly overlapped for feeding, and then the feeding is stopped by dislocation to achieve the purpose of quantification, thereby solving the problem that the traditional elevator is often piled up at the bottom of the elevator when adding materials. The problem of being easily crushed by the elevator reduces the crushing rate of the material and ensures the quality of the material.

The feeding ports 8 are distributed in multiple groups in a circular array, and the feeding ports 8 are fan-shaped.

The anti-clogging assembly includes a first motor 10, a rotating shaft 11 and a stirring blade 12, the inside of the feed hopper 2 is equipped with a first motor 10 through an assembly assembly, and the output end of the first motor 10 is provided with a rotating shaft 11, The rotating shaft 11 is provided with a stirring blade 12, and the first motor 10 drives the rotating shaft 11 to rotate, thereby driving the stirring blade 12 to rotate, preventing the material from blocking the feeding hopper 2, and ensuring the normal operation of the device.

The assembly assembly includes a support rod 13 and a mounting plate 14, the inside of the feed hopper 2 is provided with a mounting plate 14, and both sides of the mounting plate 14 are provided with a support rod 13, and one end of the support rod 13 is connected to the The inner wall of the feed hopper 2 is fixedly connected, the top of the mounting plate 14 is fixedly connected to the first motor 10, the mounting plate 14 is supported by the support rod 13, and the first motor 10 on the mounting plate 14 is installed and fixed.

The drive assembly includes a second motor 15, a gear 16 and a gear ring 17, the side wall of the quantitative bin 3 is fixed with a second motor 15, and the output end of the second motor 15 is provided with a gear 16, so The outer wall of the second quantitative tube 6 is fixed with a gear ring 17, and the gear 16 is meshed with the gear ring 17. By starting the second motor 15, the gear 16 is driven to rotate, and the gear 16 drives the gears on the outside of the second quantitative tube 6. The ring 17 rotates, thereby driving the second quantitative tube 6 to rotate.

Described dedusting assembly comprises ventilation hole 18, blower fan 19 and dust removal pipe 20, and one side of described connecting pipe 9 is provided with blower fan 19, and the side of described quantitative warehouse 3 near fan 19 is provided with multiple groups and ventilation hole 18, and another One side is provided with a dust removal pipe 20, and by starting the fan 19, the dust in the material is blown into the dust removal pipe 20, thereby ensuring the quality of the material.

A dust collection bag 21 is detachably installed on the dust removal pipe 20 through a hoop. The material of the dust collection bag 21 is cloth, and the dust and sundries are collected through the dust collection bag 21. At the same time, the dust collection bag 21 is easy to disassemble and replace. .

The zero-break hoist drives the gear 16 to rotate by starting the second motor 15, and the gear 16 drives the gear ring 17 on the outside of the second quantitative tube 6 to rotate, thereby driving the second quantitative tube 6 to rotate, and then the second quantitative tube 7 is driven to rotate. The feeding port 8 and the feeding port 8 on the first quantitative plate 5 are slowly overlapped for feeding, and then dislocated to stop the feeding to achieve the purpose of quantification, thus solving the problem that the traditional elevator is often used when adding materials. The problem of accumulating at the bottom of the elevator and being easily crushed by the elevator reduces the crushing rate of materials and ensures the quality of materials.

The basic principles, main features and advantages of the present utility model have been shown and described above. Those skilled in the industry should understand that the utility model is not limited by the above-mentioned embodiments. The above-mentioned embodiments and descriptions only illustrate the principles of the utility model. Without departing from the spirit and scope of the utility model, the utility model The new model also has various changes and improvements, and these changes and improvements all fall within the scope of the claimed utility model. The scope of protection required by the utility model is defined by the appended claims and their equivalents.

Claims (7)

1. The utility model provides a zero crushing lifting machine, includes bucket elevator (1) and is located feeder hopper (2) of bucket elevator (1) one side, its characterized in that: the inside of feeder hopper (2) is equipped with anti-blocking assembly, the bottom of feeder hopper (2) is equipped with quantitative storehouse (3), the inside of quantitative storehouse (3) is equipped with first quantitative dish (4), the bottom of first quantitative dish (4) is equipped with first quantitative dish (5), second quantitative pipe (6) are installed in the below rotation of first quantitative dish (4), rotate between first quantitative dish (4) and second quantitative pipe (6) and be connected, the top of second quantitative pipe (6) is equipped with second quantitative dish (7), first quantitative dish (5) are laminated with second quantitative dish (7) mutually, all be equipped with feed opening (8) on first quantitative dish (5) and the second quantitative dish (7), just feed opening (8) dislocation set on first quantitative dish (5) and the second quantitative dish (7), one side of second quantitative dish (6) is equipped with drive assembly, the bottom of second quantitative pipe (6) is equipped with connecting pipe (9), connecting pipe (9) are equipped with down in rotation of connecting pipe (9), connecting pipe (9) are equipped with down in connection with connecting pipe (9), connecting pipe (9).

2. A zero-crushing elevator according to claim 1, characterized in that: the blanking openings (8) are distributed in a ring-shaped array, and the blanking openings (8) are fan-shaped.

3. A zero-crushing elevator according to claim 2, characterized in that: the anti-blocking assembly comprises a first motor (10), a rotating shaft (11) and stirring blades (12), wherein the first motor (10) is installed in the feed hopper (2) through an assembly, the rotating shaft (11) is arranged at the output end of the first motor (10), and the stirring blades (12) are arranged on the rotating shaft (11).

4. A zero-crushing elevator according to claim 3, characterized in that: the assembly comprises a supporting rod (13) and a mounting plate (14), wherein the mounting plate (14) is arranged in the feed hopper (2), the supporting rods (13) are arranged on two sides of the mounting plate (14), one end of each supporting rod (13) is fixedly connected with the inner wall of the feed hopper (2), and the top of the mounting plate (14) is fixedly connected with the first motor (10).

5. A zero-crushing elevator according to claim 2, characterized in that: the driving assembly comprises a driving assembly body and is characterized in that the driving assembly body comprises a second motor (15), a gear (16) and a toothed ring (17), the second motor (15) is fixedly arranged on one side wall of the quantitative bin (3), the gear (16) is arranged at the output end of the second motor (15), the toothed ring (17) is fixedly arranged on the outer wall of the second quantitative tube (6), and the gear (16) is meshed with the toothed ring (17).

6. A zero-crushing elevator according to claim 2, characterized in that: the dust removal assembly comprises a vent hole (18), a fan (19) and a dust removal pipe (20), wherein the fan (19) is arranged on one side of the connecting pipe (9), a plurality of groups of vent holes (18) are arranged on one side, close to the fan (19), of the quantitative bin (3), and the dust removal pipe (20) is arranged on the other side.

7. The zero-crushing elevator of claim 6 wherein: the dust removal pipe (20) is detachably provided with a dust collection bag (21) through a hoop, and the dust collection bag (21) is made of cloth.

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