CN222369293U - Movable cone type crushing and screening station with three-layer screening system - Google Patents

Abstract

The utility model discloses a movable cone crushing and screening station with a three-layer screening system, and relates to the technical field of engineering machinery. The utility model optimizes the cavity of the crushing main machine and adopts the design of the high-strength wear-resistant lining plate, and the whole machine can simultaneously output three finished products through crushing and screening. Meanwhile, the method is not limited in stone processing of mines, can be applied to other crushing and screening actions, and is conveyed out through different conveyors, so that unnecessary equipment investment can be greatly reduced, the whole crushing and screening operation is compact and the whole movement is more convenient, the problems that equipment distribution is loose and not integrated and unqualified semi-finished product materials cannot be efficiently processed when materials with three particle sizes are required to be processed are solved, and maintenance cost increase, labor cost increase and energy waste caused by the increase of machines are relatively reduced.

Description

Movable cone type crushing and screening station with three-layer screening system

Technical Field

The utility model relates to the technical field of engineering machinery, in particular to a movable cone crushing and screening station with a three-layer screening system.

Background

In the fixed station exploitation application of mine sand aggregates, when the high requirement is made on the grain type after the sand aggregates are crushed, a fixed cone crushing station is generally used on site for working as secondary crushing or terminal crushing, and crushed sand aggregates need to be transported and screened simultaneously, so that equipment related to the mine sand aggregates is trivial and scattered, the equipment is relatively complex and complicated when the whole equipment is transported and installed, meanwhile, the investment of infrastructure cost is high, the maintenance cost is high, the discharging efficiency is low, the inconvenience and the movement are more obvious, the ore distance is long, and the adjustment is not convenient if the equipment is applied to occasions requiring multistage crushing, and the equipment is required to be provided with more kinds of crushers. Therefore, some parts of the fixed cone crushing station are integrated on a frame, and a moving mechanism is arranged at the lower part of the fixed cone crushing station to move.

However, the above-mentioned mobile crushing station can't realize screening and feed back in the occasion that the user needs the granule type to require more, carry out the secondary crushing, lead to the stone granule type that exports in the occasion that the granule type requires more is not good, and the size is uneven, and the quarry must dispose a screening host computer again, and big material or the stone that does not accord with the requirement that wherein screen out is transported to the feeder hopper of crushing station or other crushers through the loader again and carries out the secondary crushing, carries out the plastic, has increased the consumption of energy, has increased the cost of maintenance yet. Even if reshaping is not needed, when the building department needs to output products in a classified mode according to the particle size, especially when materials with three particle sizes are needed, the materials can not be screened according to the three particle sizes, and therefore, a stone quarry also needs to be additionally provided with a screening host machine with two layers or three layers of screens for screening operation, and finally needed products can be obtained. The existing movable crushing screening station with screening function has the defects that the whole machine structure is limited, only a screening host with one layer or two layers of screens can be installed, the screening effect is poor, and resources are wasted too.

Disclosure of utility model

The utility model aims to provide a movable cone crushing and screening station with a three-layer screening system, which aims to solve the problem that the existing market provided by the background technology is relatively complicated when unqualified materials are crushed for the second time, and meanwhile, when the materials with three particle sizes are screened, the screening station can be obtained only by externally matching a screening host machine.

In order to achieve the purpose, the utility model provides the following technical scheme that the mobile cone crushing and screening station with the three-layer screening system comprises:

The main frame is provided with a traveling mechanism for moving at the bottom;

the feeding mechanism is arranged on the main frame and used for feeding raw materials;

The cone crushing host is arranged on the main frame, and the outlet of the feeding mechanism is connected with the inlet of the cone crushing host;

The screening system is provided with four groups of discharge ports for respectively discharging four types of granular materials with different specifications, wherein one group of discharge ports is a material returning mechanism, and the outlet is connected to the inlet of a feeding mechanism for returning the semi-finished product to secondary crushing;

The engine assembly is arranged on the main frame at one side of the cone crusher main machine and is used for providing power for the whole machine;

the electric system assembly is arranged on the main frame and is used for providing electric power for the whole electric device;

The hydraulic system is arranged in the main frame, and oil outlets of the hydraulic system are respectively connected with oil inlets of all parts of the feeding mechanism, the cone crushing main machine and the screening system;

And the lubricating system is arranged in the main frame, and an oil outlet of the lubricating system is connected with an oil inlet of a lubricating oil way of the cone crusher main machine.

Preferably, the feeding mechanism comprises a feeding conveyor, the feeding conveyor is hinged to the main frame through a feeding lifting support, the other end of the feeding lifting support is hinged to a feeding lifting oil cylinder, the feeding lifting oil cylinder is hinged to the main frame, the feeding lifting oil cylinder is used for adjusting the height of the feeding conveyor, which is close to one end of the cone crushing main frame, and the feeding conveyor is far away from one end of the feeding lifting oil cylinder and is further provided with a feeding hopper.

Preferably, the screening system comprises a main conveyor with one end hinged to the main frame and close to a discharge port of the cone crusher, the other end of the main conveyor is close to a feed port of the screening main machine, the screening main machine is connected with a screening frame through vibration reduction connection, the folding mechanism is arranged on the screening frame, and the screening frame is turned around the hinged position of the main frame through the folding mechanism;

The coarse material discharging port of the screening host is provided with a coarse material conveyer, the middle material discharging port of the screening host is provided with a middle material conveyer, and the fine material discharging port of the screening host is provided with a screening conveyer;

The middle material conveyor, the coarse material conveyor and the screening conveyor are all hinged with the screening frame.

Preferably, the screening system further comprises a supporting mechanism, wherein the supporting mechanism is respectively a supporting oil cylinder hinged to one end of the screening frame, which is close to the main frame, and a screening supporting leg hinged to the other end of the screening frame.

Preferably, the material returning mechanism comprises a transfer conveyor arranged at the discharge port of the semi-finished product of the screening main machine, the other end of the transfer conveyor is connected with a material returning conveyor, the tail end of the material returning conveyor is positioned on the feeding conveyor, and the material returning conveyor is arranged on the main frame through an adjusting and supporting structure.

Preferably, the adjusting support structure comprises a transverse support, the main frame is close to the returning material conveyor, the returning material conveyor is hinged to the main frame through the transverse support, an adjusting oil cylinder is hinged to the returning material conveyor, the other end of the adjusting oil cylinder is hinged to the main frame, the returning material conveyor is made to do circular motion around a transverse support hinge point through adjusting the adjusting oil cylinder, and an inclined support serving as a support is further arranged between the returning material conveyor and the main frame.

Preferably, the folding mechanism comprises a connecting pin shaft used for hinging the main frame to the screening frame and a pull rod used for pulling and adjusting the screening frame, the pull rod is hinged to the main frame and the screening frame through a pulling pin shaft, a pulling oil cylinder is further installed between the main frame and the screening frame, the screening frame is driven to do circular motion around a hinge shaft of the connecting pin shaft through the stretching of the pulling oil cylinder, and a limiting pin shaft used for limiting the circular motion of the screening frame is further installed between the main frame and the screening frame and close to the connecting pin shaft.

Preferably, the folding mechanism further comprises a folding cylinder for folding the middle material conveyor, the coarse material conveyor and/or the screening conveyor, wherein the middle material conveyor, the coarse material conveyor and/or the screening conveyor are/is hinged with the folding cylinder, and the other end of the folding cylinder is hinged on the screening rack.

Preferably, the screening host is connected with the screening frame through a spring.

Preferably, an electromagnetic iron remover is also arranged on the feeding conveyor and is used for removing metal objects in the raw materials.

Preferably, the cone crusher main frame and/or the electrical system assembly is/are connected to the main frame by means of a shock absorber.

Preferably, the travelling mechanism is a travelling crawler, and the crawler beam is welded with the bottom of the main frame.

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

The utility model adopts a cone crushing main machine, the cavity of the crushing main machine is optimized, and adopts a high-strength wear-resistant lining board design, and the whole machine can simultaneously output three finished products through crushing and screening. Energy-conservation, green, but also can be applied to other crushing screening actions in the stone processing of not being limited to the mine simultaneously, reduced the waste of resource, carry away through different conveyer, can significantly reduce unnecessary equipment input like this for crushing screening operation is whole compacter and the bulk movement is more convenient, the equipment that leads to when needs processing the material of three kinds of particle diameters that appears in the prior art distributes loosely not integrated and the unqualified semi-manufactured goods material can't obtain high-efficient processing's problem, and the cost of maintenance that increases the machine and increase, the cost of labor increases and the waste of energy have also relatively less.

Drawings

FIG. 1 is a schematic perspective view of a mobile cone crushing and screening station with a three-layer screening system according to the present utility model;

FIG. 2 is a schematic diagram of the overall structure of a mobile cone crushing and screening station with a three-layer screening system according to the present utility model;

FIG. 3 is a schematic diagram of a mobile cone crushing and screening station screening system with a three-layer screening system according to the present utility model;

Fig. 4 is a schematic structural view of a material returning mechanism of a movable cone crushing and screening station with a three-layer screening system.

In the figure, 1, a main frame, 2, a feed hopper, 3, a feeding conveyor, 4, a cone crushing main machine, 5, an engine assembly, 6, a main conveyor, 7, a screening main machine, 8, a middle-rotating conveyor, 9, a middle-material conveyor, 10, a coarse material conveyor, 11, a screening conveyor, 12, a return material conveyor, 13, an electric system assembly, 14, an electromagnetic iron remover, 15, a walking crawler, 16, a feeding lifting oil cylinder, 17, a feeding lifting bracket, 18, a supporting oil cylinder, 19, a screening supporting leg, 20, a connecting pin shaft, 21, a traction pin shaft, 22, a traction oil cylinder, 23, a pull rod, 24, a lubrication system, 25, a hydraulic system, 26, a screening frame, 27, a folding oil cylinder, 28, a transverse support, 29, an adjusting oil cylinder, 30, an inclined support, 31 and a limiting pin shaft.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Examples

Referring to fig. 1-4, a mobile cone crushing and screening station with a three-layer screening system is shown in fig. 1 and 2, and is composed of a main frame 1, a feeding mechanism, a cone crushing main frame 4, a screening system, an engine assembly 5, an electrical system assembly 13, a lubrication system 24 and a hydraulic system 25;

The bottom of the main frame 1 is provided with a walking track 15 for the movement of the whole machine by welding with a track beam.

The feeding mechanism is arranged on the main frame 1 and is used for feeding raw materials;

In specific implementation, the feeding conveyor 3 of the feeding mechanism is hinged with the main frame 1 through a feeding lifting bracket 17, the other end of the feeding lifting bracket 17 is hinged with a feeding lifting oil cylinder 16, the feeding lifting oil cylinder 16 is hinged with the main frame 1, the height of the feeding conveyor 3, which is close to one end of the cone crusher 4, is adjusted through the feeding lifting oil cylinder 16, and the feeding hopper 2 is installed at one end, which is far away from the feeding lifting oil cylinder 16, of the feeding conveyor 3. The feeding conveyor 3 is also fixedly provided with an electromagnetic iron remover 14 through bolts for removing metal matters in the raw materials.

The cone crushing main machine 4 is arranged below a discharge hole on the right side of the feeding conveyor 3 and is fixed on the main frame 1 through a shock absorber;

One end of a main conveyor 6 of the screening system is hinged to a discharge hole of the main frame 1, which is close to a cone crushing main machine 4, the other end of the main conveyor is close to a feed hole of a screening main machine 7, the screening main machine 7 is connected with a screening frame 26 through a spring, a folding mechanism is arranged on the screening frame 26, the screening frame 26 is turned around the hinged position of the main frame 1 through the folding mechanism, a supporting oil cylinder 18 is hinged to the bottom of one end of the screening frame 26, which is close to the main frame 1, and a screening supporting leg 19 is hinged to the other end of the screening frame 26, which is used for supporting the screening system after the screening system is unfolded.

In specific implementation, the folding mechanism is hinged with the main frame 1 and the screening frame 26 through the connecting pin shaft 20, the pull rod 23 pulls one end of the screening frame 26 away from the connecting pin shaft 20 to enable the screening frame 26 to tilt, the pull rod 23 is hinged with the main frame 1 and the screening frame 26 through the pulling pin shaft 21, the pulling oil cylinder 22 is further installed between the main frame 1 and the screening frame 26, the screening frame 26 is driven to do circular motion around the hinge shaft of the connecting pin shaft 20 through the stretching of the pulling oil cylinder 22, and the limiting pin shaft 31 for limiting the circular motion of the screening frame 26 is further installed between the main frame 1 and the screening frame 26 and close to the connecting pin shaft 20.

As shown in fig. 3, the folding mechanism further comprises a folding cylinder 27 for folding the intermediate material conveyor 9, the coarse material conveyor 10 and/or the screening conveyor 11, wherein the intermediate material conveyor 9, the coarse material conveyor 10 and/or the screening conveyor 11 are hinged to the folding cylinder 27, and the other end of the folding cylinder 27 is hinged to the screening frame 26.

The screening host 7 of the screening system is provided with four groups of discharge ports for respectively discharging four granular materials with different specifications, wherein one group of discharge ports is a returning mechanism, and an outlet is connected to an inlet of the feeding mechanism for returning the semi-finished product to secondary crushing;

In specific implementation, as shown in fig. 4, a middle-rotating conveyor 8 of the returning mechanism is installed at a semi-finished product discharge hole of a screening host 7, the other end of the middle-rotating conveyor 8 is connected with a returning conveyor 12, the tail end of the returning conveyor 12 is positioned on a feeding conveyor 3, the returning conveyor 12 is hinged with a main frame 1 through a transverse support 28, an adjusting cylinder 29 is hinged at the position, close to the other end, of the returning conveyor 12, the other end of the adjusting cylinder 29 is hinged with the main frame 1, the returning conveyor 12 circularly moves around a hinge point of the transverse support 28 through adjusting the adjusting cylinder 29, and an inclined support 30 is installed between the returning conveyor 12 and the main frame 1 as a support.

The other three output ports are respectively provided with a coarse material conveyer 10 at the coarse material discharge port of the screening host 7 for transferring coarse materials after screening, a middle material conveyer 9 at the middle material discharge port of the screening host 7 for transferring middle materials after screening, a screening conveyer 11 at the fine material discharge port of the screening host 7 for transferring fine materials after screening, and the middle material conveyer 9, the coarse material conveyer 10 and the screening conveyer 11 are all hinged with a screening frame 26.

The engine assembly 5 is arranged on the main frame 1 at the right side of the cone crusher main frame 4 and is used for providing power for the whole machine;

The electric system assembly 13 is arranged on the main frame 1 below the engine assembly 5 through a shock absorber and is used for providing power for the whole electric device;

the hydraulic system 25 is arranged in the main frame 1, and oil outlets are respectively connected with oil inlets of all parts of the feeding mechanism, the cone crusher main frame 4 and the screening system;

the lubrication system 24 is arranged in the main frame 1, and an oil outlet of the lubrication system 24 is connected with an oil inlet of a lubrication oil way of the cone crusher main frame 4.

In this embodiment, for the layout and installation of the electrical system assembly 13, the hydraulic system 25 and the lubrication system 24 in the present device, those skilled in the art may select and set according to actual working conditions, which will not be described in detail herein.

It should be noted that:

When the movable cone crushing and screening station with the three-layer screening system is used for operation, sand aggregates or ores are fed into the feed hopper 2 by the upper-stage crushing equipment or the excavator, and are conveyed into the cone crushing host 4 by the feeding conveyor 3, so that the movable cone crushing and screening station is not limited to the raw materials. In this process, the electromagnetic iron remover 14 is used for sucking out the metal substances in the raw materials, so as to prevent unnecessary damage to the cone crusher main machine 4, and then after the raw materials after impurity removal are crushed by the cone crusher main machine 4, the crushed raw materials are discharged onto the main conveyor 6 through the discharge port of the cone crusher main machine 4 and transferred to the screening main machine 7 for screening, wherein the particle type requirement of the screen is selected and set by a person skilled in the art according to the actual particle type requirement, and detailed description is omitted herein.

The screening host 7 screens the crushed raw materials into four different specifications of semi-finished materials, coarse materials, medium materials and fine materials, wherein the semi-finished materials are returned to the feeding conveyor 3 for secondary crushing through the transfer conveyor 8 and the return conveyor 12, and the coarse materials, the medium materials and the fine materials are transferred from the medium material conveyor 9, the coarse material conveyor 10 and the screening conveyor 11 respectively, so that the whole crushing screening, semi-finished product returning and transferring operations are completed.

It should be noted that:

When the screening system needs to be disassembled, the supporting oil cylinder 18 is retracted, the traction pin shaft 21 on the pull rod 23 is removed to release the traction of the pull rod 23, the limit pin shaft 31 between the main frame 1 and the screening frame 26 is removed, meanwhile, the traction oil cylinder 22 is extended to enable the screening supporting leg 19 to be in contact with the ground for supporting, the connecting pin shaft 20 is disassembled, the traction oil cylinder 22 is started to continue to extend to enable the screening frame 26 to be separated from the main frame 1, the traction oil cylinder 22 is retracted after the separation, the folding oil cylinder 27 is started to drive the middle material conveyor 9, the coarse material conveyor 10 and the screening conveyor 11 to turn around a hinge point for folding, the quick joint between the screening system and the hydraulic system 25 and the electric system assembly 13 is pulled out, the whole machine moves towards the direction of the feed hopper 2 through the walking track 15, the whole screening system is separated from the main machine, and when the screening system needs to be installed, a person skilled in the art can complete the installation according to the reverse operation of the process, and detailed details are omitted.

It should be noted that:

The cone crusher 4 of the present embodiment is operated by using a high-strength abrasion-resistant material, and is not limited to the processing operation of mine stones, but can be used for crushing and screening operations such as recycling of municipal construction waste.

While embodiments of the present utility model have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the utility model, and that variations, modifications, alternatives and variations may be made to the above embodiments by one of ordinary skill in the art within the scope of the utility model.

Claims (12)

1. A mobile cone crushing and screening station comprising a three-layer screening system, comprising:

The device comprises a main frame (1), wherein a travelling mechanism for moving is arranged at the bottom of the main frame (1);

the feeding mechanism is arranged on the main frame (1) and is used for feeding raw materials;

The cone crushing main machine (4), the cone crushing main machine (4) is arranged on the main frame (1), and the outlet of the feeding mechanism is connected with the inlet of the cone crushing main machine (4);

The screening system is provided with four groups of discharge ports for respectively discharging four types of granular materials with different specifications, wherein one group of discharge ports is a material returning mechanism, and the outlet is connected to the inlet of the feeding mechanism for returning the semi-finished product to secondary crushing;

The engine assembly (5) is arranged on the main frame (1) at one side of the cone crusher main machine (4) and is used for providing power for the whole machine;

An electrical system assembly (13), wherein the electrical system assembly (13) is arranged on the main frame (1) and is used for providing power for the whole electrical device;

The hydraulic system (25) is arranged in the main frame (1), and oil outlets of the hydraulic system (25) are respectively connected with oil inlets of the feeding mechanism, the cone crushing main machine (4) and all parts of the screening system;

The lubricating system (24), the lubricating system (24) is installed in the main frame (1), and the oil outlet of the lubricating system (24) is connected with the oil inlet of the lubricating oil way of the cone crusher main machine (4).

2. The mobile cone crushing and screening station with a three-layer screening system according to claim 1, wherein the feeding mechanism comprises a feeding conveyor (3), the feeding conveyor (3) is hinged with the main frame (1) through a feeding lifting support (17), the other end of the feeding lifting support (17) is hinged with a feeding lifting oil cylinder (16), the feeding lifting oil cylinder (16) is hinged with the main frame (1), the height of the feeding conveyor (3) close to one end of the cone crushing main frame (4) is adjusted through the feeding lifting oil cylinder (16), and a feed hopper (2) is further installed at one end, far away from the feeding lifting oil cylinder (16), of the feeding conveyor (3).

3. The mobile cone crushing and screening station with three-layer screening system according to claim 2, characterized in that the screening system comprises a main conveyor (6) with one end hinged to the main frame (1) near the discharge port of the cone crushing main frame (4), the other end of the main conveyor (6) near the feed port of the screening main frame (7), the screening main frame (7) is connected with a screening frame (26) through vibration reduction connection, the folding mechanism is mounted on the screening frame (26), and the screening frame (26) is turned around the hinged position of the main frame (1) through the folding mechanism;

The coarse material discharging port of the screening host machine (7) is provided with a coarse material conveyer (10), the middle material discharging port of the screening host machine (7) is provided with a middle material conveyer (9), and the fine material discharging port of the screening host machine (7) is provided with a screening conveyer (11);

The middle material conveyor (9), the coarse material conveyor (10) and the screening conveyor (11) are all hinged with the screening frame (26).

4. A mobile cone crushing and screening station with a three-layer screening system according to claim 3, characterized in that the screening system further comprises supporting means, which are respectively a supporting cylinder (18) hinged to the screening frame (26) near one end of the main frame (1) and a screening leg (19) hinged near the other end of the screening frame (26).

5. The movable cone crushing and screening station with a three-layer screening system according to claim 4, wherein the returning mechanism comprises a transit conveyor (8) arranged at a semi-finished product outlet of the screening host machine (7), the other end of the transit conveyor (8) is connected with a returning conveyor (12), the tail end of the returning conveyor (12) is positioned on the feeding conveyor (3), and the returning conveyor (12) is arranged on the main frame (1) through an adjusting and supporting structure.

6. The mobile cone crushing and screening station with a three-layer screening system according to claim 5, wherein the adjusting support structure comprises a transverse support (28) at a position, close to the return conveyor (12), of the main frame (1), the return conveyor (12) is hinged with the main frame (1) through the transverse support (28), an adjusting oil cylinder (29) is hinged at a position, close to the other end, of the return conveyor (12), the other end of the adjusting oil cylinder (29) is hinged on the main frame (1), the return conveyor (12) is made to move circularly around a hinge point of the transverse support (28) through adjusting the adjusting oil cylinder (29), and an inclined support (30) is further installed between the return conveyor (12) and the main frame (1) to serve as a support.

7. The movable cone crushing and screening station with the three-layer screening system according to claim 6, wherein the folding mechanism comprises a connecting pin shaft (20) for hinging the main frame (1) to the screening frame (26) and a pull rod (23) for pulling and adjusting the screening frame (26), the pull rod (23) is hinged to the main frame (1) and the screening frame (26) through a pulling pin shaft (21), a pulling oil cylinder (22) is further arranged between the main frame (1) and the screening frame (26), the screening frame (26) is driven to do circular motion around the hinge shaft of the connecting pin shaft (20) through the telescopic action of the pulling oil cylinder (22), and a limiting pin shaft (31) for limiting the circular motion of the screening frame (26) is further arranged between the main frame (1) and the screening frame (26) and close to the connecting pin shaft (20).

8. The mobile cone crushing and screening station with three-layer screening system according to claim 7, characterized in that the folding mechanism further comprises a folding cylinder (27) for folding the middle material conveyor (9), the coarse material conveyor (10) and/or the screening conveyor (11), wherein the middle material conveyor (9), the coarse material conveyor (10) and/or the screening conveyor (11) are hinged to the folding cylinder (27), and the other end of the folding cylinder (27) is hinged to the screening frame (26).

9. The mobile cone crushing and screening station with three-layer screening system according to claim 8, characterized in that the screening master (7) is connected to the screening frame (26) by springs.

10. The mobile cone crushing and screening station with three-layer screening system according to any of the claims 2-9, characterized in that an electromagnetic iron remover (14) is also mounted on the feed conveyor (3) for removing metal objects from the raw material.

11. The mobile cone crushing and screening station with three-layer screening system according to claim 10, characterized in that the cone crushing main machine (4) and/or the electrical system assembly (13) are connected to the main frame (1) by means of shock absorbers.

12. The mobile cone crushing and screening station with three-layer screening system according to claim 11, characterized in that the travelling mechanism is a travelling crawler (15) and is welded and connected with the bottom of the main frame (1) through a crawler beam.