CN116197034A - Feeding device of crawler-type mobile crusher - Google Patents

Abstract

The invention discloses a feeding device of a crawler-type mobile crusher, which comprises a feeding mechanism fixedly arranged on the crawler-type mobile mechanism and used for feeding a crushing mechanism, wherein the crawler-type mobile mechanism is provided with a delivery mechanism used for delivering materials crushed by the crushing mechanism, and the feeding mechanism comprises a dust treatment mechanism and a material delivery mechanism; the dust treatment mechanism is arranged on the material feeding mechanism and is connected with the material feeding mechanism in a linkage way, and when the dust treatment mechanism removes dust from a feeding hole of the crushing mechanism, the material feeding mechanism is connected with the material feeding mechanism in a linkage way under the action of the dust treatment mechanism to feed the material into the crushing mechanism. The whole device not only can convey low-level materials to high positions, but also can automatically feed the crushing mechanism, so that the crushing mechanism is convenient to crush. Secondly, when the feeding, can also absorb the dust that produces when the feeding voluntarily, be convenient for handle the dust, avoid the raise dust.

Description

Feeding device of crawler-type mobile crusher

Technical Field

The invention relates to the field of accessories of mining devices, in particular to a feeding device of a crawler-type mobile crusher.

Background

The crawler-type crusher can be divided into four series, namely a cone-broken crawler-type crusher, a jaw-broken crawler-type crusher and a counterattack crawler-type crusher station, and a screening crawler-type crusher. At present, when ore materials are crushed, a crawler-type crusher is often used. The crawler crusher has good maneuvering performance and can automatically move the position according to the needs.

Prior art patent document 1 discloses a mobile crusher device having a support frame that includes at least a crusher device, a feed conveyor and a discharge conveyor device, and that can be repositioned by crawler landing gear. In order to minimize the construction height and weight, the support frame and the running gear are configured as one unit, with parts of the support frame being parts of the running gear, and the tracks of the tracked vehicle extending into recesses of the support frame.

The top of the box body of the upper crusher device is in an open type design, dust can be raised when materials fall into the box body of the crusher from the feeding conveyor, the air quality is not controlled, and the box body is externally connected with a dust falling device in the prior art, but the position of the box body is fixed and cannot be changed. In addition, the lower end of the upper feeding conveyor is fixed in height, so that the upper feeding conveyor cannot be flexibly avoided when encountering high obstacles, and the lower feeding conveyor is easy to collide with the obstacles to cause damage, so that the use of the device is affected. For this purpose, a feeder device for a crawler-type mobile crusher is needed.

Disclosure of Invention

Object of the invention

In view of the above, the present invention is directed to a feeding device for a crawler-type mobile crusher, which solves the problems in the prior art.

(II) technical scheme

In order to achieve the technical aim, the invention provides a feeding device of a crawler-type mobile crusher, which comprises:

the device comprises a feeding mechanism fixedly arranged on a crawler-type moving mechanism and used for feeding a crushing mechanism, wherein the crawler-type moving mechanism is provided with a delivery mechanism used for delivering materials crushed by the crushing mechanism, and the feeding mechanism comprises a dust treatment mechanism and a material delivery mechanism;

the dust treatment mechanism is arranged on the material feeding mechanism and is connected with the material feeding mechanism in a linkage way, and when the dust treatment mechanism removes dust from a feeding hole of the crushing mechanism, the material feeding mechanism is connected with the material feeding mechanism in a linkage way under the action of the dust treatment mechanism to feed the material into the crushing mechanism.

Preferably, the material feeding mechanism comprises two supporting frames and supporting plates, wherein the supporting frames and the supporting plates are fixed on the crawler-type moving mechanism, the supporting frames are longitudinally distributed, an installation box is fixed at the upper end of each supporting plate, two parallel connecting plates are arranged below one side of each installation box, a fixing rod is fixed between the end parts of the two connecting plates, a plurality of rotating shaft rods are rotatably arranged between the two connecting plates along the length direction, belt pulleys are fixedly sleeved on each rotating shaft rod, and a conveying belt is connected between the belt pulleys in a transmission manner;

the mounting box is provided with a first mounting cavity and a second mounting cavity with lower ends open,

the first installation cavity is positioned at the left side of the second installation cavity, a longitudinal rotating rod is rotatably installed in the first installation cavity, two ends of the rotating rod penetrate out of the first installation cavity and are in transmission connection with a rotating shaft rod positioned above through a chain wheel assembly, and two ends of the rotating shaft rod positioned above are respectively in rotation connection with the upper ends of the two supporting frames;

the dust treatment mechanism is connected with the right end of the transverse worm in a transmission way, the left end of the transverse worm stretches into the first installation cavity and is meshed with a left worm wheel fixed on a rotating rod, and the dust treatment mechanism is connected with the transverse worm in a linkage way.

Preferably, the dust treatment mechanism comprises a first motor and a cylindrical air guide box which are fixed on one side of the supporting plate, a vertical worm is rotationally arranged in the cylindrical air guide box, the lower end of the vertical worm is fixed with the output end of the first motor, and the upper end of the vertical worm penetrates out of the cylindrical air guide box and is meshed with a right worm wheel which is fixed on the right end of the transverse worm.

Preferably, the dust treatment mechanism further comprises a longitudinal chute arranged on the bottom wall of the second installation cavity, a movable sliding block is slidably matched in the longitudinal chute, a hollow dust collection plate is fixed at the bottom of the movable sliding block, dust collection holes are uniformly distributed at the bottom of the hollow dust collection plate, a rectangular driving frame slidably matched in the second installation cavity is fixed at the top of the movable sliding block, a cam is fixed on a rod body of the second installation cavity, and the cam is positioned at the inner side of the rectangular driving frame and can touch the rectangular driving frame to longitudinally move.

Preferably, the dust treatment mechanism further comprises a plurality of fan blades fixed at the lower end of the vertical worm and positioned in the cylindrical air guide box, the upper end of the cylindrical air guide box is communicated with the hollow dust collection plate through a connecting hose, the bottom of the cylindrical air guide box is fixed and communicated with an exhaust pipe, and the other end of the exhaust pipe is connected into the dust treatment device.

Preferably, the crawler-type moving mechanism is fixedly provided with a hinging seat, the hinging seat is hinged with two longitudinally arranged hydraulic cylinders which are obliquely arranged, and piston rods of the hydraulic cylinders are rotationally connected with corresponding connecting plates through rotating shafts.

Preferably, the delivery mechanism comprises a feeding cylinder fixed on the crawler-type moving mechanism, the right end of the feeding cylinder is obliquely arranged, a flexible rod is rotatably arranged on the inner side of the feeding cylinder, a spiral conveying blade is fixed on the flexible rod along the length direction, a second motor is fixed at the left end of the feeding cylinder, the output end of the second motor is fixed with one end of the flexible rod, and the top of the left end of the feeding cylinder is communicated with the discharge end of the crushing mechanism.

From the above technical scheme, the application has the following beneficial effects:

the whole device not only can convey low-level materials to high positions, but also can automatically feed the crushing mechanism, so that the crushing mechanism is convenient to crush. Secondly, when the feeding, can also absorb the dust that produces when the feeding voluntarily, be convenient for handle the dust, avoid the raise dust. And the dust absorption and feeding actions are linked, complement each other, the synergistic effect has the effect that 1+1 is more than 2, and secondly, when the transverse worm rotates, the hollow dust collection plate can move in a linkage and back and forth mode, and further dust is dynamically collected, and the dust collection range is large.

The angle of the conveyor belt arranged in the whole device can be adjusted as required, so that the lower end height of the conveyor belt can be adjusted as required, the normal use of the whole device is not affected after the adjustment, further more complex feeding environments can be dealt with, and the universality of the device is improved.

The whole device can also be used for conveying the material cylinder, the second motor, the spiral conveying blade and the flexible rod in a matched manner to convey the material flow crushed by the crushing mechanism to a transportation vehicle in a closed manner, so that the leakage of the crushed material is reduced to a great extent, and the dust is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present invention, and that other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic view showing the installation of a feeder device for a crawler-type mobile crusher according to the present invention.

Fig. 2 is a schematic structural view of a feeding device for a crawler-type mobile crusher according to the present invention.

Fig. 3 is a schematic top view of a belt pulley arrangement of a feeder device for a crawler-type mobile crusher according to the present invention.

Fig. 4 is a schematic view of a left worm gear arrangement of a feeder device for a crawler-type mobile crusher according to the present invention.

Fig. 5 is a schematic side view of a moving slide of a feeder device for a crawler-type moving crusher according to the present invention.

Fig. 6 is a schematic view of the three-dimensional structure of fig. 2.

Fig. 7 is a schematic diagram of the arrangement of a connecting plate of a feeding device of a crawler-type mobile crusher.

Fig. 8 is a schematic view of a driven sprocket arrangement of a feeder apparatus for a crawler-type mobile crusher according to the present invention.

Fig. 9 is a schematic top view of fig. 6.

Description of the drawings: the device comprises a crawler-type moving mechanism 1, a feeding mechanism 2, a crushing mechanism 3, a dust treatment mechanism 4, a moving slide block 41, a hollow dust collection plate 42, a connecting hose 43, a cylindrical air guide box 44, a first motor 45, a vertical worm 46, a right worm wheel 47, a fan blade 48, an exhaust pipe 49, a cam 410, a rectangular driving frame 411, a material feeding mechanism 5, a supporting frame 51, a supporting plate 52, a mounting box 53, a transverse worm 54, a rotating rod 55, a connecting plate 56, a fixed rod 57, a rotating shaft 58, a belt pulley 59, a left worm wheel 510, a 511 conveying belt 512 hydraulic cylinder 513, a driven chain wheel 513, a feeding mechanism 6, a feeding cylinder 61, a second motor 62 and a screw conveying blade 63.

Detailed Description

The following description is merely exemplary in nature and is not intended to limit the present disclosure, application, or uses. It should be understood that throughout the drawings, the same or similar reference numerals indicate the same or similar parts and features. The drawings merely schematically illustrate the concepts and principles of embodiments of the disclosure and do not necessarily illustrate the specific dimensions and proportions of the various embodiments of the disclosure. Specific details or structures may be shown in exaggerated form in particular figures to illustrate related details or structures of embodiments of the present disclosure.

Referring to fig. 1-9:

example 1

The utility model provides a with feeder of crawler-type mobile crusher, includes the feed mechanism 2 that is used for carrying out the feed to broken mechanism 3 on fixed mounting on crawler-type mobile mechanism 1, is provided with on the crawler-type mobile mechanism 1 and is used for carrying the delivery mechanism 6 of broken back material of broken mechanism 3, and feed mechanism 2 includes dust processing mechanism 4 and material delivery mechanism 5. The dust treatment mechanism 4 is arranged on the material feeding mechanism 5 and is connected with the material feeding mechanism 5 in a linkage manner, and when the dust treatment mechanism 4 removes dust from a feed inlet of the crushing mechanism 3, the material feeding mechanism 5 feeds the material into the crushing mechanism 3 in a linkage manner under the action of the dust treatment mechanism 4.

It should be noted that, the material feeding mechanism 5 includes two supporting frames 51 and supporting plates 52 fixed on the crawler-type moving mechanism 1, the number of the supporting frames 51 is two and is longitudinally arranged, an installation box 53 is fixed at the upper end of the supporting plates 52, two parallel connection plates 56 are arranged below one side of the installation box 53, a fixing rod 57 is fixed between the ends of the two connection plates 56, a plurality of rotation shafts 58 are rotatably installed between the two connection plates 56 along the length direction, belt pulleys 59 are fixedly sleeved on each rotation shaft 58, and a transmission belt 511 is connected between the plurality of belt pulleys 59.

Specifically, a first installation cavity and a second installation cavity with lower ends open are arranged on the installation box 53, the first installation cavity is located on the left side of the second installation cavity, a longitudinal rotating rod 55 is installed in the first installation cavity in a rotating mode, two ends of the rotating rod 55 penetrate out of the first installation cavity and are in transmission connection with a rotating shaft rod 58 located above through a sprocket assembly, and two ends of the rotating shaft rod 58 located above are respectively in rotation connection with the upper ends of the two supporting frames 51. Further, the sprocket assembly includes a driven sprocket 513 fixed to an end of the corresponding rotating shaft 58, and a driving sprocket fixed to an end of the rotating shaft 55, and the driving sprocket is connected to the driven sprocket 513 through a chain transmission. It should be noted that the structures of the corresponding sprocket, chain, etc. shown in the drawings are schematic, and are not true structural diagrams.

In this embodiment, the first installation cavity is rotatably provided with a transverse worm 54, the dust handling mechanism 4 is in transmission connection with the right end of the transverse worm 54, the left end of the transverse worm 54 extends into the first installation cavity and is engaged with a left worm wheel 510 fixed on a rotating rod 55, and the dust handling mechanism 4 is in linkage connection with the transverse worm 54. A hinging seat is fixed on the crawler-type moving mechanism 1, two longitudinally arranged hydraulic cylinders 512 which are obliquely arranged are hinged on the hinging seat, and piston rods of the hydraulic cylinders 512 are rotatably connected with corresponding connecting plates 56 through rotating shafts.

Example two

The dust treatment mechanism 4 comprises a first motor 45 fixed on one side of a supporting plate 52 and a cylindrical air guide box 44, a vertical worm 46 is rotatably installed in the cylindrical air guide box 44, the lower end of the vertical worm 46 is fixed with the output end of the first motor 45, and the upper end of the vertical worm 46 penetrates out of the cylindrical air guide box 44 and is meshed with a right worm wheel 47 fixed on the right end of a transverse worm 54. A controller is fixed to the front side of the mounting box 53, and the output end of the controller is electrically connected to the first motor 45, the hydraulic cylinder 512, and the second motor 62.

In addition, the dust handling mechanism 4 further includes a longitudinal chute disposed on the bottom wall of the second installation cavity, a moving slide block 41 is slidably matched in the longitudinal chute, a hollow dust collection plate 42 is fixed at the bottom of the moving slide block 41, dust collection holes are uniformly distributed at the bottom of the hollow dust collection plate 42, a rectangular driving frame 411 is fixed at the top of the moving slide block 41 and slidably matched in the second installation cavity, a cam 410 is fixed on the rod body of the second installation cavity, and the cam 410 is located at the inner side of the rectangular driving frame 411 and can touch the rectangular driving frame 411 to move longitudinally. The dust treatment mechanism 4 further comprises a plurality of fan blades 48 which are fixed at the lower end of the vertical worm 46 and are positioned in the cylindrical air guide box 44, the upper end of the cylindrical air guide box 44 is communicated with the hollow dust collection plate 42 through a connecting hose 43, the bottom of the cylindrical air guide box 44 is fixed and communicated with an exhaust pipe 49, and the other end of the exhaust pipe 49 is connected into the dust treatment device.

In particular, the dust handling apparatus includes, but is not limited to, an air filtration apparatus or a water tank, including, but not limited to, a PP cotton filtration apparatus, an activated carbon filtration apparatus, or a nylon mesh air filtration apparatus.

Further, the feeding mechanism 6 comprises a feeding barrel 61 fixed on the crawler-type moving mechanism 1, the right end of the feeding barrel 61 is obliquely arranged, a flexible rod is rotatably arranged on the inner side of the feeding barrel 61, a spiral conveying blade 63 is fixed on the flexible rod along the length direction, a second motor 62 is fixed on the left end of the feeding barrel 61, the output end of the second motor 62 is fixed with one end of the flexible rod, and the top of the left end of the feeding barrel 61 is communicated with the discharging end of the crushing mechanism 3.

Working principle: when the invention is used, the first motor 45 is controlled to work through the operation controller, the first motor 45 works to drive the vertical worm 46 to rotate so as to drive the fan blades 48 and the right worm wheel 47 to rotate, the rotating fan blades 48 can generate air flow, so that the bottom of the hollow dust suction plate 42 sucks air, dust generated during feeding is sucked away, the sucked dust is discharged into the filtering treatment device through the exhaust pipe 49 for filtering treatment, and the dust can be directly discharged into water for water absorption and purification.

When the right worm wheel 47 rotates, the transverse worm 54 rotates, when the transverse worm 54 rotates, the cam 410 rotates to further touch the rectangular driving frame 411 to longitudinally move, and when the rectangular driving frame 411 and the movable sliding block 41 integrally longitudinally move, the arranged hollow dust collection plate 42 longitudinally moves to further realize dynamic dust collection, so that the dust collection range is larger, and the dust collection effect is good.

Secondly, when the transverse worm 54 rotates, the left worm wheel 510 also rotates, and then drives the rotating rod 55, the driven sprocket 513 and the rotating shaft rod 58 to rotate, so that at the moment, the belt pulley 59 rotates to drive the conveying belt 511 to rotate, and low-level materials can be conveyed into the crushing mechanism 3 through the rotating conveying belt 511, so that the crushing mechanism 3 is convenient to crush. The hydraulic cylinder 512 can drive the connecting plate 56 to rotate, so that the supporting plate 52 rotates around the rotating shaft rod 58, and the inclination angle of the conveying belt 511 can be adjusted by a person, and the normal operation of the whole device is still not affected after the adjustment is finished.

The flexible rod can be driven to rotate through the second motor 62, and then the spiral conveying blade 63 is driven to rotate to convey the crushed materials, the crushed materials are conveyed in the conveying mechanism 6 in a closed mode, dust can be reduced, and under the action of the spiral conveying blade 63, the crushed materials are discharged from the upper end of the conveying cylinder 61 into the conveying vehicle, so that the conveying is convenient.

The exemplary implementation of the solution proposed by the present disclosure has been described in detail hereinabove with reference to the preferred embodiments, however, it will be understood by those skilled in the art that various modifications and adaptations can be made to the specific embodiments described above and that various combinations of the technical features, structures proposed by the present disclosure can be made without departing from the scope of the present disclosure, which is defined by the appended claims.

Claims (7)

1. The feeding device of the crawler-type mobile crusher comprises a feeding mechanism (2) fixedly arranged on a crawler-type mobile mechanism (1) and used for feeding a crushing mechanism (3), and a delivery mechanism (6) used for conveying materials crushed by the crushing mechanism (3) is arranged on the crawler-type mobile mechanism (1), and is characterized in that the feeding mechanism (2) comprises a dust treatment mechanism (4) and a material delivery mechanism (5);

the dust treatment mechanism (4) is arranged on the material feeding mechanism (5) and is connected with the material feeding mechanism (5) in a linkage way, and when the dust treatment mechanism (4) removes dust from a feeding hole of the crushing mechanism (3), the material feeding mechanism (5) is in linkage with the material feeding mechanism (3) under the action of the dust treatment mechanism (4).

2. The feeding device of the crawler-type mobile crusher according to claim 1, wherein the material feeding mechanism (5) comprises two supporting frames (51) and supporting plates (52) which are fixed on the crawler-type mobile mechanism (1), the supporting frames (51) are longitudinally distributed, an installation box (53) is fixed at the upper end of each supporting plate (52), two connecting plates (56) which are arranged in parallel are arranged below one side of each installation box (53), a fixed rod (57) is fixed between the ends of the two connecting plates (56), a plurality of rotating shafts (58) are rotatably arranged between the two connecting plates (56) along the length direction, belt pulleys (59) are fixedly sleeved on each rotating shaft (58), and a conveying belt (511) is in transmission connection between the plurality of belt pulleys (59);

the mounting box (53) is provided with a first mounting cavity and a second mounting cavity with lower ends open, the first mounting cavity is positioned on the left side of the second mounting cavity, a longitudinal rotating rod (55) is rotatably arranged in the first mounting cavity, two ends of the rotating rod (55) penetrate out of the first mounting cavity and are in transmission connection with a rotating shaft rod (58) positioned above through a chain wheel assembly, and two ends of the rotating shaft rod (58) positioned above are respectively in rotational connection with the upper ends of two supporting frames (51);

the dust treatment mechanism (4) is connected with the right end of the transverse worm (54) in a transmission mode, the left end of the transverse worm (54) stretches into the first installation cavity and is meshed with a left worm wheel (510) fixed on a rotating rod (55), and the dust treatment mechanism (4) is connected with the transverse worm (54) in a linkage mode.

3. A feeder for a crawler-type mobile crusher according to claim 2, characterized in that the dust handling mechanism (4) comprises a first motor (45) fixed to one side of a supporting plate (52) and a cylindrical air guide box (44), a vertical worm (46) is rotatably installed in the cylindrical air guide box (44), the lower end of the vertical worm (46) is fixed to the output end of the first motor (45), and the upper end of the vertical worm (46) penetrates out of the cylindrical air guide box (44) and engages with a right worm wheel (47) fixed to the right end of a horizontal worm (54).

4. A feeder for a crawler-type mobile crusher according to claim 3, wherein the dust handling mechanism (4) further comprises a longitudinal chute arranged on the bottom wall of the second installation cavity, a movable slide block (41) is slidably fitted in the longitudinal chute, a hollow dust collection plate (42) is fixed at the bottom of the movable slide block (41), dust collection holes are uniformly distributed at the bottom of the hollow dust collection plate (42), a rectangular driving frame (411) slidably fitted in the second installation cavity is fixed at the top of the movable slide block (41), a cam (410) is fixed on the rod body of the second installation cavity, and the cam (410) is positioned at the inner side of the rectangular driving frame (411) and can touch the rectangular driving frame (411) to longitudinally move.

5. A feeder for a crawler-type mobile crusher according to claim 3 or 4, characterized in that the dust handling mechanism (4) further comprises a plurality of blades (48) fixed at the lower end of a vertical worm (46) and positioned in a cylindrical air guide box (44), the upper end of the cylindrical air guide box (44) is communicated with a hollow dust collection plate (42) through a connecting hose (43), an exhaust pipe (49) is fixed at the bottom of the cylindrical air guide box (44) and communicated with the bottom of the cylindrical air guide box, and the other end of the exhaust pipe (49) is connected into the dust handling device.

6. The feeding device for the crawler-type mobile crusher according to claim 2, wherein a hinge seat is fixed on the crawler-type mobile mechanism (1), two longitudinally arranged hydraulic cylinders (512) which are obliquely arranged are hinged on the hinge seat, and piston rods of the hydraulic cylinders (512) are rotatably connected with corresponding connecting plates (56) through rotating shafts.

7. A feeder for a crawler-type mobile crusher according to any one of claims 1 to 4, wherein the delivering mechanism (6) comprises a feeding barrel (61) fixed on the crawler-type mobile mechanism (1), the right end of the feeding barrel (61) is obliquely arranged, a flexible rod is rotatably mounted on the inner side of the feeding barrel (61), a spiral conveying blade (63) is fixed on the flexible rod along the length direction, a second motor (62) is fixed on the left end of the feeding barrel (61), the output end of the second motor (62) is fixed with one end of the flexible rod, and the top of the left end of the feeding barrel (61) is communicated with the discharge end of the crushing mechanism (3).

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