CN219377242U - Integrated tower type production structure based on cone crusher - Google Patents

Abstract

The utility model provides an integrated turret-type production structure based on a cone crusher, which comprises a turret main body, a storage bin, a bar gate valve, a discharge hopper, a quantitative conveyor and the cone crusher, wherein the storage bin is arranged on the storage bin; the tower main body is divided into two vertical spaces from left to right, the cone crusher is arranged in the first vertical space, the storage bin, the bar gate valve and the discharge hopper are arranged in the second vertical space, and the main body part of the quantitative conveyor is arranged in the second vertical space; the feed bin is located the top in the vertical space of second, the stick gate valve is installed in the bottom of feed bin, the below in the stick gate valve is installed to the ejection of compact fill, quantitative conveyor's entrance side is installed in the below of ejection of compact fill, exit side is installed in cone crusher's top feed inlet department. The device has the advantages of higher integration level, shortened feeding span, guaranteed feeding uniformity and convenience in maintenance of the cone crusher.

Description

Integrated tower type production structure based on cone crusher

Technical Field

The utility model relates to the technical field of mining machinery, in particular to an integrated turret type production structure based on a cone crusher.

Background

Cone crushers are important equipment widely used in industrial departments such as mines, metallurgy, chemical industry, electric power, ceramics, cement, buildings, road construction and the like, and a large amount of hard materials and tailings need to be crushed by the cone crushers every year.

In the prior art cone crushers, when the cone crusher is used in mines, a silo is built underground, incoming materials are supplied to the top inlet of the cone crusher through a conveying device, specifically, as shown in fig. 3, an underground silo 21 is supplied to a large-span conveyor 23 (usually more than 40 m) through a feeding conveyor 22 at the bottom end, and the large-span conveyor 23 lifts the incoming materials to the top inlet of a cone crusher 24 for crushing treatment.

The defect is that the mode occupation area of the underground storage bin and feeding through the large-span conveyor is overlarge, the path is overlong, the feeding uniformity is not easy to control, the working condition of the cone crusher is changed according to the change of the feeding amount, and the method is remarkable in that: when the cone crusher runs with materials, the crushing cone part rotates clockwise; when the air machine is running, the crushing cone rotates anticlockwise. If the temperature rise in the conical part is too high due to uneven feeding and frequent switching, functional components such as copper sleeves are burnt out.

Moreover, once the cone crusher fails, it is not very easy to repair due to the interference of the positions of the large-span conveyor 3.

In order to solve the above problems, an ideal technical solution is always sought.

Disclosure of Invention

The utility model aims at overcoming the defects of the prior art, thereby providing an integrated turret type production structure based on a cone crusher, which has higher integration level, shortens the feeding span, ensures the feeding uniformity and is convenient for the maintenance of the cone crusher.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: an integrated turret-type production structure based on a cone crusher comprises a turret main body, a storage bin, a bar gate valve, a discharge hopper, a quantitative conveyor and the cone crusher;

the tower main body is divided into two vertical spaces from left to right, the cone crusher is arranged in the first vertical space, the storage bin, the bar gate valve and the discharge hopper are arranged in the second vertical space, and the main body part of the quantitative conveyor is arranged in the second vertical space;

the feed bin is located the top in the vertical space of second, the stick gate valve is installed in the bottom of feed bin, the below in the stick gate valve is installed to the ejection of compact fill, quantitative conveyor's entrance side is installed in the below of ejection of compact fill, exit side is installed in cone crusher's top feed inlet department.

Based on the above, the bottom surface of feed bin is the bucket form, the outer boundary of bucket form extends to the edge in second vertical space department.

Basically, the bottom surface of play hopper is inclined along horizontal off-set direction downwards, the discharge gate department of play hopper is provided with adjustable inclination's guide board, guide board corresponds quantitative conveyor's conveyer belt setting.

Based on the above, the quantitative conveyor is a rotary belt conveyor, and a plurality of partition plates perpendicular to the rotary belt are arranged on the rotary belt of the quantitative conveyor at equal intervals.

Based on the above, fixed pin joint and preceding activity pin joint after well back end and the well front end of ration conveyer set up respectively, fixed pin joint is articulated with tower main part fixed position after, correspond preceding activity pin joint in the second vertical space and set up first supporting point and second supporting point, preceding activity pin joint switchably articulates in first supporting point or second supporting point, the height of second supporting point is less than first supporting point.

Based on the above, a lifting device is arranged in the tower main body corresponding to the quantitative conveyor.

And based on the above, a pedestrian passageway is arranged in the second vertical space.

Based on the above, the main body of the tower is a metal frame structure.

The hoisting device is an electric hoist.

Based on the above, dust collection equipment is arranged in the tower main body.

Compared with the prior art, the utility model has substantial characteristics and progress, and in particular has the following advantages:

1. the feeding and crushing are integrated in one tower, the feeding paths are shortened by left and right display, different-force materials are controlled to enter the quantitative conveyor through the discharging hopper by adjusting the rod gate valve, the quantitative conveyor can better control the uniformity of the incoming materials in the cone crusher, and particularly, the quantitative materials to be crushed can be uniformly conveyed into the cone crusher according to the output, the feeding granularity requirement and the like of the cone crusher, so that the full-bin operation is achieved, the running efficiency of the crusher is higher, and the discharging granularity is higher.

2. The whole bottom of feed bin designs to fight the form, forms the lining material more easily, avoids the feed bin wearing and tearing.

3. The uniformity of the material conveyed to the quantitative conveyor by the horizontal downward inclination of the discharge hopper is easier to control, and the quantitative conveyor belt can timely change the feeding speed through the frequency converter.

4. The quantitative conveyor is designed into a form with changeable inclination angle, when the maintenance is needed, the quantitative conveyor is rotated to the second supporting point position, so that maintenance space is provided for replacing vulnerable parts of the cone crusher, and maintenance difficulty is reduced.

5. The whole system has reasonable layout, small occupied area, higher utilization rate of three-dimensional distribution space and land resource saving.

6. The electric lifting equipment is specially used for lifting the quantitative conveyor, is not shared with other lifting equipment, and prevents damage caused by different loads.

Drawings

Fig. 1 is a schematic view of the structure of the cone crusher-based integrated turret-type production structure of the present utility model in a production state.

Fig. 2 is a schematic view of the structure of the cone crusher-based integrated turret-type production structure of the present utility model in a maintenance state.

Fig. 3 is a schematic view of an application scenario of a cone crusher in the prior art.

In the figure: 1. a turret body; 2. a storage bin; 3. a bar gate valve; 4. discharging a hopper; 5. a quantitative conveyor; 6. a cone crusher; 7. a guide plate; 8. a lifting device;

11. a first vertical space; 12. a second vertical space;

51. fixing the hinge point at the rear; 52. a front movable hinge point; 53. a first support point; 54. and a second supporting point.

Detailed Description

The technical scheme of the utility model is further described in detail through the following specific embodiments.

As shown in fig. 1 and 2, an integrated turret-type production structure based on a cone crusher comprises a turret main body 1, a storage bin 2, a bar gate valve 3, a discharge hopper 4, a quantitative conveyor 5 and the cone crusher 6.

The tower main body 1 is divided into two vertical spaces from left to right, the cone crusher 6 is arranged in the first vertical space 11, the storage bin 2, the bar gate valve 3 and the discharge hopper 4 are arranged in the second vertical space 12, and the main body part of the quantitative conveyor 5 is arranged in the second vertical space 12;

the feed bin 2 is located the top in the vertical space 12 of second, stick gate valve 3 is installed in the bottom of feed bin 2, the below in stick gate valve 3 is installed to ejection of compact fill 4, the entry side of quantitative conveyor 4 is installed in the below of ejection of compact fill 4, the exit side is installed in the top feed inlet department of cone crusher 6.

Specifically, the bottom surface of the bin 2 is bucket-shaped, and the outer boundary of the bucket extends to the edge of the second vertical space 12, so as to increase the inclined area, so as to form a lining material and protect the inner side surface of the bin.

The bottom surface of the discharge hopper 4 inclines along the horizontal deviation downward direction, a guide plate 7 with an adjustable inclination angle is arranged at the discharge port of the discharge hopper 4, the guide plate 7 corresponds to the conveying belt of the quantitative conveyor 5, and the design purpose of the discharge hopper 4 is to buffer materials and smoothly and stably enter the quantitative conveyor 5.

The quantitative conveyor 5 is a rotary belt conveyor, a plurality of partition plates perpendicular to the rotary belt are arranged on the rotary belt of the quantitative conveyor 5 at equal intervals so as to realize quantitative determination, a rear fixed hinge point 51 and a front movable hinge point 52 are respectively arranged at the middle rear section and the middle front section of the quantitative conveyor 5, the rear fixed hinge point 51 is hinged with the fixed position of the main body of the turret, a first supporting point 53 and a second supporting point 54 are arranged in the second vertical space corresponding to the front movable hinge point, the front movable hinge point 52 is hinged with the first supporting point 53 or the second supporting point 54 in a switchable manner, the height of the second supporting point 54 is lower than that of the first supporting point 53, the quantitative conveyor 5 plays a role in conveying materials when the current movable hinge point 52 is hinged with the first supporting point 53, the quantitative conveyor 5 is standby when the current movable hinge point 52 is hinged with the second supporting point 54, the rear section is turned upwards, and a maintenance space of the cone crusher is provided for workers to temporarily maintain. For convenience of switching, the front movable hinge point 52 is designed into a pin shaft and cotter pin connection mode, lifting can be separated, and corresponding matching structures are respectively arranged at the first supporting point 53 and the second supporting point 54.

For saving effort, the hoisting device 8 is arranged in the tower main body 1 corresponding to the quantitative conveyor 5, and the hoisting device 8 is an electric hoist, namely, the overturning action of the quantitative conveyor 5 is not carried out by means of the hoisting equipment of the cone crusher, so that equipment damage caused by inconsistent loads is prevented.

Be provided with the pedestrian passageway in the vertical space of second, make things convenient for the pedestrian to overhaul, tower main part 1 is metal frame structure, and the be convenient for build and stability is more sufficient, and area is littleer, and the cost is lower.

In order to solve the dust in the tower main body, dust collection equipment is arranged in the tower main body.

Working principle:

under normal work, hopper 2 is discharged from the bottom, passes through the discharge hopper through adjustment stick gate valve 3 with the material of different granularities and gets into quantitative conveyer, and quantitative conveyer is according to the output of cone crusher and requirement such as feeding dynamics, in evenly transporting the cone crusher with quantitative material of waiting to break, reaches full storehouse work, makes breaker efficiency higher, and the ejection of compact dynamics is better.

When the cone crusher is damaged, for example, vulnerable parts such as a crushing wall rolling mortar wall and the like need to be replaced, the quantitative conveyor 5 is inclined through the electric winch, the front movable hinge point 52 is switched from the first supporting point 53 to the second supporting point 54, space is vacated, the replacement of the vulnerable parts is not affected, and after the replacement is completed, the quantitative conveyor is lifted again to return to the position of the first supporting point 53.

Finally, it should be noted that the above-mentioned embodiments are only for illustrating the technical scheme of the present utility model and are not limiting; while the utility model has been described in detail with reference to the preferred embodiments, those skilled in the art will appreciate that: modifications may be made to the specific embodiments of the present utility model or equivalents may be substituted for part of the technical features thereof; without departing from the spirit of the utility model, it is intended to cover the scope of the utility model as claimed.

Claims (10)

1. An integrated tower formula production structure based on cone crusher, its characterized in that: comprises a tower main body, a stock bin, a bar gate valve, a discharge hopper, a quantitative conveyor and a cone crusher;

the tower main body is divided into two vertical spaces from left to right, the cone crusher is arranged in the first vertical space, the storage bin, the bar gate valve and the discharge hopper are arranged in the second vertical space, and the main body part of the quantitative conveyor is arranged in the second vertical space;

the feed bin is located the top in the vertical space of second, the stick gate valve is installed in the bottom of feed bin, the below in the stick gate valve is installed to the ejection of compact fill, quantitative conveyor's entrance side is installed in the below of ejection of compact fill, exit side is installed in cone crusher's top feed inlet department.

2. The cone crusher-based integrated turret-type production structure of claim 1, wherein: the bottom surface of feed bin is the bucket form, the outer boundary of bucket form extends to the edge in second vertical space.

3. The cone crusher-based integrated turret-type production structure of claim 2, wherein: the bottom surface of play hopper is inclined along the horizontal off-set direction downwards, the discharge gate department of play hopper is provided with adjustable inclination's guide board, guide board corresponds quantitative conveyor's conveyer belt setting.

4. A cone crusher based integrated turret-type production structure according to claim 3, characterized in that: the quantitative conveyor is a rotary belt conveyor, and a plurality of partition plates perpendicular to the rotary belt are arranged on the rotary belt of the quantitative conveyor at equal intervals.

5. The cone crusher-based integrated turret-type production structure of any one of claims 1-4, wherein: the fixed hinge point of back and preceding section of ration conveyer sets up back fixed hinge point and preceding activity hinge point respectively, back fixed hinge point is articulated with tower main part fixed position, correspond preceding activity hinge point in the second vertical space and set up first supporting point and second supporting point, preceding activity hinge point is changeable articulates in first supporting point or second supporting point, the height of second supporting point is less than first supporting point.

6. The cone crusher-based integrated turret-type production structure of claim 5, wherein: and a lifting device is arranged in the tower main body corresponding to the quantitative conveyor.

7. The cone crusher-based integrated turret-type production structure of claim 6, wherein: and a pedestrian passageway is arranged in the second vertical space.

8. The cone crusher-based integrated turret-type production structure of claim 7, wherein: the main body of the tower is of a metal frame structure.

9. The cone crusher-based integrated turret-type production structure of claim 6, wherein: the hoisting device is an electric hoist.

10. The cone crusher-based integrated turret production structure of any one of claims 6-9, wherein: and dust collection equipment is arranged in the tower main body.