CN112317106A

CN112317106A - Movable crushing station frame

Info

Publication number: CN112317106A
Application number: CN202011114087.7A
Authority: CN
Inventors: 刘湘; 刘忻涛
Original assignee: Hunan Shanrui Heavy Industry Technology Co ltd
Current assignee: Hunan Shanrui Heavy Industry Technology Co ltd
Priority date: 2020-10-19
Filing date: 2020-10-19
Publication date: 2021-02-05

Abstract

In the movable crushing station rack, a feeder support, a crusher support, a belt conveyor support and a vibrating screen support are respectively arranged on a frame and are arranged at intervals from the head to the tail of a vehicle; the belt conveyor support comprises a chassis, a rotary table, a central column, a support rod and a pull rope; the chassis is fixedly connected with the frame; the rotary table is movably connected to the chassis, and a driving mechanism for driving the rotary table to rotate relative to the chassis is arranged in the rotary table; the central column is vertically fixed at the center of the rotary table; the support rod is vertically fixed on the rotary table and is positioned around the central column; the first belt conveyor and the second belt conveyor are arranged on two sides of the central column in a crossed and inclined mode; the lower part of the first belt conveyor and the lower part of the second belt conveyor are fixedly connected to the supporting rod; the upper parts of the first belt conveyor and the second belt conveyor are connected to the upper part of the central column through pull ropes in a traction manner. The movable crushing station frame is more convenient to maintain, and the belt conveyor does not need to be disassembled during maintenance.

Description

Movable crushing station frame

Technical Field

The invention relates to a movable crushing station frame.

Background

The movable crushing station can be moved to a designated position for crushing operation through the crushing station loaded by the movable frame, and the movable crushing station is compact in structure, flexible and convenient. The mobile crushing station generally comprises a vehicle frame, a feeder, a crusher, a vibrating screen and a belt conveyor, wherein the belt conveyor is used for conveying crushed materials of the crusher to the vibrating screen and conveying coarse materials screened by the vibrating screen to the crusher for crushing. One end of the belt conveyor is arranged on the frame, and the other end of the belt conveyor is arranged on the crusher or the vibrating screen. When carrying out dismouting maintenance to shale shaker and breaker, because band conveyer's hindrance, the inconvenient dismouting of shale shaker and breaker is changed, all need earlier to dismantle band conveyer at every turn, and the maintenance is inconvenient.

Disclosure of Invention

The invention aims to provide a movable crushing station rack which is more convenient to maintain.

In order to solve the technical problem, the movable crushing station rack comprises a trailer, a feeder support, a crusher support, a belt conveyor support, a vibrating screen support, a first belt conveyor and a second belt conveyor; the trailer comprises a frame, wheels at the bottom of the frame, a weight box, a supporting leg and a traction piece; the feeding machine support, the crusher support, the belt conveyor support and the vibrating screen support are sequentially arranged on the frame and are arranged at intervals from the vehicle head to the vehicle tail; the belt conveyor support comprises a chassis, a rotary table, a central column, a support rod and a pull rope; the chassis is fixedly connected with the frame; the rotary table is movably connected to the chassis, and a driving mechanism for driving the rotary table to rotate relative to the chassis is arranged in the rotary table; the central column is vertically fixed at the center of the rotary table; the supporting rod is vertically fixed on the rotary table and is positioned around the central column; the first belt conveyor and the second belt conveyor are arranged on two sides of the central column in a crossed and inclined mode; the lower part of the first belt conveyor and the lower part of the second belt conveyor are fixedly connected to the supporting rod; the upper parts of the first belt conveyor and the second belt conveyor are connected to the upper part of the central column through the pull rope in a traction manner; the bottom end of the first belt conveyor is arranged between the crusher support and the rotary table, and the top end of the first belt conveyor is arranged above the vibrating screen support and used for conveying crushed materials of the crusher to a vibrating screen for screening; the second belt conveyor bottom end set up in between revolving platform and the shale shaker support and the top set up in breaker support top for send the coarse fodder of shale shaker screening back to the breaker and carry out the recrushage.

A first auxiliary column and a second auxiliary column are respectively arranged on two sides of the central column, the first auxiliary column and the second auxiliary column are respectively parallel to the central column, and the bottom end of the first auxiliary column and the bottom end of the second auxiliary column are fixedly connected with the rotary table; the first belt conveyor is arranged between the central column and the first auxiliary column; the second floor conveyor is arranged between the central column and the second auxiliary column; one side of the upper part of the first belt conveyor is connected with the central column through a pull rope in a traction manner, and the other side of the upper part of the first belt conveyor is connected with the first auxiliary column through a pull rope in a traction manner; one side of the upper part of the second belt conveyor is connected with the central column through a pull rope in a traction manner, and the other side of the upper part of the second belt conveyor is connected with the second auxiliary column through a pull rope in a traction manner.

The central column is fixedly connected with the first auxiliary column through a first cross beam, and the central column is fixedly connected with the second auxiliary column through a second cross beam.

The support rods are fixedly connected through a third cross beam; the bottom of the first belt conveyor and the bottom of the second belt conveyor are fixedly connected with the third cross beam.

The first belt conveyor and the second belt conveyor are respectively provided with a plurality of pull rope connection points at intervals, and the pull rope connection points are respectively connected with the central column through pull ropes in a traction manner.

The upper end of the pull rope is fixedly connected with the hoop, the hoop is connected with the upper part of the central column in a sleeved mode, and the hoops are arranged in an up-and-down mode and are provided with a plurality of hoops.

The interval top between breaker support and the feeding machine support is provided with breaker motor protective cover, breaker motor protective cover is arch stainless steel safety cover, the roof of arch stainless steel safety cover is from one end hunch mouth to the slope of other end hunch mouth, arch stainless steel safety cover is provided with the multilayer that the interval is parallel each other.

And a box door is arranged on the side part of the weight box, and a plurality of balancing weights are stacked in the weight box.

According to the movable crushing station rack, the belt conveyor support can horizontally rotate, so that when the vibrating screen and the crusher need to be maintained, the belt conveyor can be moved away from the upper portions of the vibrating screen and the crusher through the rotation of the belt conveyor support, and after the maintenance is finished, the belt conveyor can be rotated back to the vibrating screen and the crusher through the rotation of the belt conveyor support, so that the belt conveyor does not need to be detached, and the maintenance is more convenient.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

FIG. 2 is another schematic structural diagram of the present invention.

Description of reference numerals: 1-vehicle frame, 2-traction piece, 3-supporting leg, 4-weight box, 5-first belt conveyor, 6-chassis, 7-rotary table, 8-supporting rod, 9-second belt conveyor, 10-wheel, 11-vibration screen support, 12-vibration screen, 13-central column, 14-hoop, 15-pull rope, 16-crusher, 17-crusher support, 18-crusher motor protective cover, 19-crusher motor, 20-feeder support, 21-feeder motor and 22-feeder.

Detailed Description

The invention is described in detail below with reference to the following figures and detailed description:

as shown in fig. 1 and 2, the mobile crushing station frame of the invention comprises a trailer, a feeder support, a crusher support, a belt conveyor support, a vibrating screen support, a first belt conveyor and a second belt conveyor.

The trailer comprises a frame, wheels at the bottom of the frame, a weight box, supporting legs and a traction piece. The weight box is arranged between the wheels and the supporting legs and is fixedly connected with the bottom of the frame. The supporting legs are telescopic supporting legs.

The feeding machine support, the crusher support, the belt conveyor support and the vibrating screen support are sequentially arranged on the frame and are arranged at intervals from the vehicle head to the vehicle tail. An interval is arranged between the feeding machine support and the crusher support, so that a crusher motor is convenient to mount, and a space at the bottom of the crusher support is reserved for mounting a discharge hopper at the bottom of the crusher. Set up the interval between breaker and the band conveyer support, the band conveyer of being convenient for receives the broken material of breaker lower side portion discharge. An interval is arranged between the vibrating screen support and the belt conveyor support, so that the belt conveyor can receive coarse materials discharged from the lower side of the vibrating screen conveniently.

The belt conveyor support comprises a chassis, a rotary table, a central column, a support rod and a pull rope. The chassis is fixedly connected with the frame. The rotary table is movably connected to the chassis, and a driving mechanism for driving the rotary table to rotate relative to the chassis is arranged in the rotary table. The rotary table and the chassis are both of a two-stage circular table structure and are mutually sleeved, and a bearing is arranged between the rotary table and the chassis. The periphery of the chassis is provided with a gear ring, a speed reducing motor is arranged in the rotary table, and a gear on a rotating shaft of the speed reducing motor is meshed with the gear ring and is in transmission connection. The center post is vertically fixed in the revolving platform center. The support rod is vertically fixed on the rotary table and is positioned around the central column. The pull rope is a steel wire rope.

The first belt conveyor and the second belt conveyor are arranged on two sides of the central column in a crossed and inclined mode. The lower part of the first belt conveyor and the lower part of the second belt conveyor are fixedly connected to the supporting rod. The bracing piece is provided with four pairs at least, and every band conveyer bottom all supports and connects two pairs of bracing pieces. The support bar bears the weight of the lower part of the belt conveyor. The upper parts of the first belt conveyor and the second belt conveyor are connected to the upper part of the central column through pull ropes in a traction manner. The pull rope and the central column bear the weight of the upper part of the belt conveyor. The bottom end of the first belt conveyor is arranged between the crusher support and the rotary table, and the top end of the first belt conveyor is arranged above the vibrating screen support and used for conveying crushed materials of the crusher to the vibrating screen for screening. The bottom end of the second belt conveyor is arranged between the rotary table and the vibrating screen support, and the top end of the second belt conveyor is arranged above the crusher support and used for sending the coarse materials screened by the vibrating screen back to the crusher for re-crushing. A space for installing the vibrating screen is reserved between the first belt conveyor and the vibrating screen support. A space for installing the crusher is reserved between the second belt conveyor and the crusher support.

When the movable crushing station is assembled, the feeder and a motor thereof are arranged on a feeder bracket; the crusher is arranged on a crusher support below the second belt conveyor, a discharge port at the bottom of the crusher is connected with a discharge hopper, the discharge hopper is arranged in the crusher support, and an outlet of the discharge hopper faces the bottom end of the first belt conveyor; the crusher motor is arranged on the frame between the feeder bracket and the crusher bracket; the vibrating screen is arranged on the vibrating screen support below the first belt conveyor, and the vibrating screen motor is arranged on the side portion of the vibrating screen.

When carrying out dismouting maintenance to shale shaker or breaker, start the actuating mechanism of revolving platform, rotate the revolving platform level 45, drive first band conveyer and second band conveyer level and rotate 45, rotate frame one side with first band conveyer from the shale shaker top, rotate frame opposite side with second band conveyer from the breaker top to the convenience is hoisted shale shaker and breaker, is dismantled and is maintained.

After the vibrating screen or the crusher is dismounted and repaired, the driving mechanism of the rotary table is started to horizontally rotate the rotary table by 45 degrees to drive the first belt conveyor and the second belt conveyor to return to the original position, the belt conveyors do not need to be dismounted and reloaded, and the repairing is convenient.

As shown in fig. 1 and 2, a first auxiliary column and a second auxiliary column are respectively arranged on two sides of the central column, the first auxiliary column and the second auxiliary column are respectively parallel to the central column, and the bottom end of the first auxiliary column and the bottom end of the second auxiliary column are fixedly connected with the rotary table. The first belt conveyor is arranged between the central column and the first auxiliary column. The second floor conveyor is disposed between the center column and the second secondary column. One side of the upper part of the first belt conveyor is connected with the upper part of the central column through a pull rope in a traction manner, and the other side of the upper part of the first belt conveyor is connected with the upper part of the first auxiliary column through a pull rope in a traction manner. One side of the upper part of the second belt conveyor is connected with the upper part of the central column through a pull rope in a traction manner, and the other side of the upper part of the second belt conveyor is connected with the upper part of the second auxiliary column through a pull rope in a traction manner. The pull ropes are respectively connected with the two sides of the belt conveyor in a traction manner, so that the two sides of the belt conveyor are both subjected to traction force, and the deflection damage of the belt conveyor can be reduced. The stay cord of band conveyer one side is pull and is connected the center post, and the stay cord of band conveyer opposite side is pull and is connected the auxiliary post, can avoid the independent atress of center post, reduces the band conveyer of both sides to the torsion that the center post produced, reduce the center post deformation damage.

As shown in fig. 1 and 2, the central column is fixedly connected with the first auxiliary column through the first cross beam, and the central column is fixedly connected with the second auxiliary column through the second cross beam, so that the swinging of the first auxiliary column and the second auxiliary column on two sides of the central column after the first auxiliary column and the second auxiliary column are subjected to the pulling force of the pull rope is reduced, and the stability is improved.

As shown in fig. 1 and 2, the support rods are fixedly connected with each other through a third cross beam, so that the firmness and stability of the support rods are improved. First band conveyer bottom and second band conveyer bottom all with third crossbeam fixed connection for be connected more firmly between bracing piece and the band conveyer, the band conveyer is more firm.

As shown in fig. 1 and 2, a plurality of pull rope connection points are arranged at intervals on the first belt conveyor and the second belt conveyor, and the pull rope connection points are respectively connected with the central column or the auxiliary column through pull ropes in a traction manner. The rope clip is installed at the stay cord tie point, locks the stay cord tip through the rope clip. Through setting up a plurality of stay cord tie points to the pulling force of dispersion stay cord to band conveyer makes the band conveyer atress more even, reduces deformation damage.

As shown in fig. 1 and 2, the upper ends of the pull ropes are fixedly connected with the hoops one by one, the hoops are connected with the upper part of the central column in a sleeved mode, and a plurality of hoops are arranged up and down. The hoop is locked with the opening through the bolt and then fastened outside the central column. The stay cord still passes through the staple bolt and is connected with first vice post, the vice post of second respectively. Because the staple bolt is tightened at the post surface, it is less to the sub inner structure influence of post, can reduce the damage to center post, first pair post and the vice post of second, increase the tightness of post. Through setting up a plurality of staple bolts of arranging from top to bottom, connect the stay cord respectively, the pulling force of dispersion stay cord to the post reduces the damage of center post, first pair post and the vice post of second. The staple bolt makes things convenient for the dismouting more.

As shown in fig. 1 and 2, a crusher motor protecting cover is arranged at the top of the interval between the crusher support and the feeder support, one side of the crusher motor protecting cover is fixedly connected with the crusher support, and the other side of the crusher motor protecting cover is fixedly connected with the feeder support. The crusher motor protective cover is used for protecting the crusher motor and preventing ores from falling and smashing the crusher motor. The crusher motor protective cover is an arched stainless steel protective cover, has better buffering performance, can absorb the impact force of falling ores, and reduces the destructive power of falling ores. The roof of arch stainless steel safety cover slopes from one end hunch mouth to the other end hunch mouth, and the automatic landing of the ore of being convenient for drop on arch stainless steel safety cover reduces the ore and is detained on breaker motor protection cover. The arched stainless steel protective cover is provided with the multilayer that separates the parallel each other, forms multiple buffering, and the cushioning nature is better, and support intensity is bigger, and life is longer, can protect the breaker motor better.

As shown in fig. 1 and 2, a box door is arranged at the side part of the weight box, and a plurality of counter weights are stacked in the weight box. The weight box is arranged at the bottom of the frame, so that the gravity center of the frame can be lowered. The balancing weight is stacked in the weight box, is convenient to install and take out, avoids sliding and is convenient to use.

Claims

1. A movable crushing station rack is characterized by comprising a trailer, a feeder support, a crusher support, a belt conveyor support, a vibrating screen support, a first belt conveyor and a second belt conveyor;

the trailer comprises a frame, wheels at the bottom of the frame, a weight box, a supporting leg and a traction piece;

the feeding machine support, the crusher support, the belt conveyor support and the vibrating screen support are sequentially arranged on the frame and are arranged at intervals from the vehicle head to the vehicle tail;

the belt conveyor support comprises a chassis, a rotary table, a central column, a support rod and a pull rope; the chassis is fixedly connected with the frame; the rotary table is movably connected to the chassis, and a driving mechanism for driving the rotary table to rotate relative to the chassis is arranged in the rotary table; the central column is vertically fixed at the center of the rotary table; the supporting rod is vertically fixed on the rotary table and is positioned around the central column;

the first belt conveyor and the second belt conveyor are arranged on two sides of the central column in a crossed and inclined mode; the lower part of the first belt conveyor and the lower part of the second belt conveyor are fixedly connected to the supporting rod; the upper parts of the first belt conveyor and the second belt conveyor are connected to the upper part of the central column through the pull rope in a traction manner; the bottom end of the first belt conveyor is arranged between the crusher support and the rotary table, and the top end of the first belt conveyor is arranged above the vibrating screen support and used for conveying crushed materials of the crusher to a vibrating screen for screening; the second belt conveyor bottom end set up in between revolving platform and the shale shaker support and the top set up in breaker support top for send the coarse fodder of shale shaker screening back to the breaker and carry out the recrushage.

2. The mobile crushing station rack of claim 1, wherein a first auxiliary column and a second auxiliary column are respectively arranged on two sides of the central column, the first auxiliary column and the second auxiliary column are respectively parallel to the central column, and the bottom ends of the first auxiliary column and the second auxiliary column are fixedly connected with the rotary table;

the first belt conveyor is arranged between the central column and the first auxiliary column; the second floor conveyor is arranged between the central column and the second auxiliary column;

one side of the upper part of the first belt conveyor is connected with the central column through a pull rope in a traction manner, and the other side of the upper part of the first belt conveyor is connected with the first auxiliary column through a pull rope in a traction manner; one side of the upper part of the second belt conveyor is connected with the central column through a pull rope in a traction manner, and the other side of the upper part of the second belt conveyor is connected with the second auxiliary column through a pull rope in a traction manner.

3. The mobile crushing station rack of claim 2 wherein the central column is further fixedly connected to the first secondary column by a first cross member and the central column is further fixedly connected to the second secondary column by a second cross member.

4. The mobile crushing station rack of claim 1 wherein the support bars are further fixedly connected by a third cross beam; the bottom of the first belt conveyor and the bottom of the second belt conveyor are fixedly connected with the third cross beam.

5. The mobile crushing station rack of claim 1, wherein the first belt conveyor and the second belt conveyor are each provided with a plurality of pull rope connection points at intervals, and the pull rope connection points are respectively connected with the central column through pull ropes in a traction manner.

6. The mobile crushing station rack of claim 1, wherein the upper end of the pull rope is fixedly connected with an anchor ear, the anchor ear is connected with the upper part of the central column in a sleeved mode, and a plurality of anchor ears are arranged up and down.

7. The mobile crushing station frame of claim 1 wherein the top of the space between the crusher frame and the feeder frame is provided with a crusher motor protective cover, wherein the crusher motor protective cover is an arched stainless steel protective cover, the top wall of the arched stainless steel protective cover is inclined from one arch to the other arch, and the arched stainless steel protective cover is provided with a plurality of layers which are parallel and spaced from each other.

8. The mobile crushing station rack of claim 1 wherein the side of the weight box has a box door and a plurality of weights are stacked in the weight box.