CN105562172A - Improved vibrating crusher - Google Patents

Abstract

The invention discloses an improved vibrating crusher. The improved vibrating crusher comprises a supporting frame, a supporting beam installed on the supporting frame, a tank body installed on the supporting beam through an elastic assembly, vibrating assemblies, a rotating shaft installed in the tank body in an inserted mode, a plurality of crushing cutters fixedly installed on the rotating shaft and a first motor; a feed pipe is arranged on the top of the tank body, and a discharge pipe is arranged on the bottom of the tank body; each vibrating assembly comprises a second motor, a shell, a transmission column, a vibrating cylinder in threaded connection with the transmission column, a guide pin installed on the vibrating cylinder, a fixing sleeve installed on the vibrating cylinder in a sleeving mode and a guide bolt installed on the fixing sleeve in an inserted mode, a first guide cavity accepting insertion of the end part of the guide bolt is formed in the vibrating cylinder, a second the guide cavity accepting insertion of the end part of the guide pin is formed in the shell, and the vibrating cylinder is connected to the top of the tank body. According to the crusher, ore can be fully crushed, and material is effectively prevented from adhering to the inner wall of the tank body.

Description

A kind of modified oscillatory type disintegrating machine

Technical field

The present invention relates to a kind of disintegrating machine, be specifically related to a kind of modified oscillatory type disintegrating machine.

Background technology

In ore processing base, often need larger ore to carry out fragmentation processing.At present, generally carry out fragmentation by disintegrating machine to ore, this disintegrating machine carries out fragmentation mainly through the crushing cutter rotated to the ore in tank body.Between the crushing cutter rotated and the inwall of tank body, there is certain gap, make the ore near inner tank wall cannot obtain good fragmentation, and easy generating portion material sticks is in the phenomenon of inner tank wall.

Summary of the invention

In order to overcome the deficiencies in the prior art, the object of the present invention is to provide a kind of modified oscillatory type disintegrating machine, ore can be made to obtain sufficient fragmentation, effectively avoiding material sticks in the phenomenon of inner tank wall.

Object of the present invention adopts following technical scheme to realize:

A kind of modified oscillatory type disintegrating machine, comprising bracing frame, the brace summer be arranged on bracing frame, the tank body be arranged on by elastic parts on brace summer, the vibration component for driving tank body relative support beam to move up and down, the rotating shaft be inserted in tank body, fixed installation multiple crushing cutters on the rotary shaft, to be arranged on bracing frame and for driving the first motor of rotating shaft rotary work, the top of described tank body is provided with feed pipe, and the bottom of described tank body is provided with discharge nozzle;

Described vibration component comprises the second motor, the shell be arranged on the second motor, be positioned at shell and be connected with the output shaft of the second motor take off post, with the vibrating barrel be threaded, the guide finger be arranged on vibrating barrel, the fixed cover be sleeved on vibrating barrel, the guide blot be inserted on fixed cover of taking off post, described vibrating barrel is formed with the first directed cavity of the end head plug-in mounting for guide blot, described shell is formed with the second directed cavity of the end head plug-in mounting for guide finger, described vibrating barrel is connected with the top of tank body.

The lower end of described discharge nozzle is provided with tube connector, described tube connector is set with sleeve, elastic tube is fitted with in described tube connector, upper end and the discharge nozzle of described elastic tube socket-connect, the lower end of described elastic tube is connected with multiple regulating block, the edge of every adjacent regulating block is overlapped, described sleeve has been threaded adjusting bolt, each regulating block is fixedly connected with installation sleeve, the inwall of described installation sleeve is formed with the internal thread be threaded for adjusting bolt, described adjusting bolt is set with the first spring, the top of described adjusting bolt is formed with limiting section, the upper end of described first spring is connected on limiting section, the lower end of described first spring is connected on regulating block.

The end of described tube connector is connected with casing, described casing is connected with fixed mount, the top of described casing is formed with charging aperture, described charging aperture is connected with tube connector, the bottom of described casing is formed with magnetic material outlet, the relative both sides of described casing are formed with the first non-magnetic material outlet and the outlet of the second non-magnetic material respectively, be provided with in being arranged side by side and contrary the first conveying device of throughput direction and the second conveying device in described casing, the input of described first conveying device is positioned at immediately below charging aperture, non-magnetic material can get rid of to the first non-magnetic material outlet by the output of described first conveying device, the backhaul turning of the output of described first conveying device is installed with roughly selects magnet, the input of described second conveying device can be used for accepting the thick magnetic material dropped from the output of the first conveying device, non-magnetic material can get rid of to the second non-magnetic material outlet by the output of described second conveying device, the backhaul turning of the output of described second conveying device is installed with carefully selects magnet, can be used for accepting the thin magnetic material dropped from the output of the second conveying device immediately below the output that the outlet of described magnetic material is positioned at the second conveying device.

The quantity of described vibration component is four, and the center line circumference along tank body is arranged.

Described elastic parts comprises the second spring, the spring(-supported) mount be fixedly mounted on tank wall, and one end of described second spring is fixedly mounted on brace summer, and the other end of described second spring is connected on spring(-supported) mount.

The quantity of described spring(-supported) mount is four, and the center line circumference along tank body is arranged, and the quantity of described second spring is also four, these four corresponding being connected on spring(-supported) mount of the second spring.

Compared to existing technology, beneficial effect of the present invention is: ore to be broken enters in tank body from feed pipe, then the first motor is started, the rotation of driven rotary axle and crushing cutter, ore is broken under the rotational shear effect of crushing cutter, then the second motor is started, drive the rotation taken off post, at guide finger, second directed cavity, under the common limit of guide blot and the first directed cavity transfers to and uses, thus drive moving up and down of vibrating barrel, and then drive the up-down vibration of tank body, ore can be made to obtain sufficient fragmentation, effectively avoid material sticks in the phenomenon of inner tank wall.

Accompanying drawing explanation

Fig. 1 is schematic front view of the present invention;

Fig. 2 is the decomposition texture schematic diagram of vibration component of the present invention;

Fig. 3 is the structural representation of adjusting bolt of the present invention, sleeve, regulating block, the first spring, installation sleeve and limiting section.

In figure: 1, bracing frame; 2, brace summer; 3, tank body; 4, rotating shaft; 5, vibration component; 51, the second motor; 52, take off post; 53, fixed cover; 54, vibrating barrel; 55, guide finger; 56, shell; 57, the second directed cavity; 58, the first directed cavity; 59, guide blot; 6, crushing cutter; 7, the first motor; 8, feed pipe; 9, discharge nozzle; 10, the second spring; 11, spring(-supported) mount; 12, tube connector; 13, adjusting bolt; 14, sleeve; 15, regulating block; 16, the first spring; 17, installation sleeve; 18, limiting section; 19, casing; 20, charging aperture; 21, the first conveying device; 22, the second conveying device; 23, magnet is roughly selected; 24, carefully magnet is selected; 25, the second non-magnetic material outlet; 26, the first non-magnetic material outlet; 27, magnetic material outlet; 28, fixed mount.

Detailed description of the invention

Below, with detailed description of the invention, the present invention is described in further detail by reference to the accompanying drawings.

A kind of modified oscillatory type disintegrating machine as Figure 1-3, comprising bracing frame 1, the brace summer 2 be arranged on bracing frame 1, tank body 3, the vibration component 5 for driving tank body 3 relative support beam 2 to move up and down, the rotating shaft 4 be inserted in tank body 3, the multiple crushing cutters 6 be fixedly mounted on rotating shaft 4 be arranged on by elastic parts on brace summer 2, to be arranged on bracing frame 1 and for driving the first motor 7 of rotating shaft 4 rotary work, the top of described tank body 3 is provided with feed pipe 8, and the bottom of described tank body 3 is provided with discharge nozzle 9;

Described vibration component 5 comprises the second motor 51, be arranged on the shell 56 on the second motor 51, be positioned at shell 56 and be connected with the output shaft of the second motor 51 take off post 52, with 52 vibrating barrels be threaded 54 that take off post, be arranged on the guide finger 55 on vibrating barrel 54, be sleeved on the fixed cover 53 on vibrating barrel 54, be inserted into the guide blot 59 on fixed cover 53, described vibrating barrel 54 is formed with the first directed cavity 58 of the end head plug-in mounting for guide blot 59, described shell 56 is formed with the second directed cavity 57 of the end head plug-in mounting for guide finger 55, described vibrating barrel 54 is connected with the top of tank body 3.

The operation principle of vibration component 5: by the second motor 51 can drive take off post 52 rotary motion, because vibrating barrel 54 and 52 employings that take off post are threaded, and the common limit of guide blot 59 and the first directed cavity 58, guide finger 55 and the second directed cavity 57 transfer to under, so take off post, the rotary motion of 52 will drive moving up and down of vibrating barrel 54, thus drives the up-down vibration of tank body 3.And, by controlling the rotating speed of the second motor 51 accurately, the distance that moves up and down of vibrating barrel 54 can be controlled very accurately, thus control the vibration intensity of tank body 3 preferably.

The lower end of described discharge nozzle 9 is provided with tube connector 12, described tube connector 12 is set with sleeve 14, elastic tube (not shown) is fitted with in described tube connector 12, upper end and the discharge nozzle 9 of described elastic tube socket-connect, the lower end of described elastic tube is connected with multiple regulating block 15, the edge of every adjacent regulating block 15 is overlapped, described sleeve 14 has been threaded adjusting bolt 13, each regulating block 15 is fixedly connected with installation sleeve 17, the inwall of described installation sleeve 17 is formed with the internal thread be threaded for adjusting bolt 13, described adjusting bolt 13 is set with the first spring 16, the top of described adjusting bolt 13 is formed with limiting section 18, the upper end of described first spring 16 is connected on limiting section 18, the lower end of described first spring 16 is connected on regulating block 15.Under the bounce effect of the first spring 16, regulating block 15 conveniently can be driven to move towards the position of center line of tube connector 12, and facilitate the reset work of adjusting bolt 13.

By turning adjusting bolt 13, adjusting bolt 13 is moved towards near the direction of regulating block 15, when the end head of adjusting bolt 13 is connected to the bottom of installation sleeve 17, continue to turn adjusting bolt 13, the position of center line driving regulating block 15 towards tube connector 12 moves by the adjusting bolt 13 continuing to move towards regulating block 15, and the flow that the ore after fragmentation flows out is diminished; When oppositely turning adjusting bolt 13, the flow that the ore after fragmentation is flowed out is become large.Turn adjusting bolt 13 by positive and negative, regulating block 15 just can be driven to move along close or away from tube connector 12 centerline direction, and then the uninterrupted that the ore after adjustment fragmentation flows out, operation is very easy.

When actual fabrication, the quantity of regulating block 15 can be three, and its distributing position can be as shown in Figure 3.

The end of described tube connector 12 is connected with casing 19, described casing 19 is connected with fixed mount 28, the top of described casing 19 is formed with charging aperture 20, described charging aperture 20 is connected with tube connector 12, the bottom of described casing 19 is formed with magnetic material outlet 27, the relative both sides of described casing 19 are formed with the first non-magnetic material outlet 26 and the second non-magnetic material outlet 25 respectively, be provided with in being arranged side by side and contrary the first conveying device 21 and the second conveying device 22 of throughput direction in described casing 19, the input of described first conveying device 21 is positioned at immediately below charging aperture 20, non-magnetic material can get rid of to the first non-magnetic material outlet 26 by the output of described first conveying device 21, the backhaul turning of the output of described first conveying device 21 is installed with roughly selects magnet 23, the input of described second conveying device 22 can be used for accepting the thick magnetic material dropped from the output of the first conveying device 21, non-magnetic material can get rid of to the second non-magnetic material outlet 25 by the output of described second conveying device 22, the backhaul turning of the output of described second conveying device 22 is installed with carefully selects magnet 24, can be used for accepting the thin magnetic material dropped from the output of the second conveying device 22 immediately below the output that described magnetic material outlet 27 is positioned at the second conveying device 22.

Ore after the fragmentation that tube connector 12 drops can enter from charging aperture 20, then fall in the first conveying device 21, output is delivered to from the input of the first conveying device 21, at the backhaul turning of the first conveying device 21, non-magnetic material and roughly select between magnet 23 and do not have magnetic attraction, got rid of under the motional inertia of the first conveying device 21 and deliver to the first non-magnetic material and export 26 places, magnetic material due to and roughly select between magnet 23 and have magnetic attraction, thus thick magnetic material can be delivered to the lower surface of output from the upper surface of the output of the first conveying device 21, magnet 23 is roughly selected owing to only having the backhaul turning of the first conveying device 21, so thick magnetic material still can fall on the input of the second conveying device 22, then under the effect of the second conveying device 22, output is delivered to from the input of the second conveying device 22, carry out thin magnetic separation, the material that in last thick magnetic material, magnetic is less is transported to the second non-magnetic material and exports 25 places, and the stronger thin magnetic material of magnetic is finally transported to magnetic material and exports 27 places.First conveying device 21 of the present invention and the second conveying device 22 can be crawler belt conveying devices of the prior art, preferably material can be carried out lateral transport by the crawler belt that it is arranged.

The above-mentioned magnet 24 that carefully selects can be 2/3 fan-shaped rare-earth permanent magnet, and its remanent magnetism nominal value is 8.6KGS, and above-mentioned magnet 23 of roughly selecting can be 2/3 fan-shaped rare-earth permanent magnet, and its remanent magnetism nominal value is 14.5KGS.

The quantity of described vibration component 5 is four, fully can ensure that tank body 3 is subject to the larger vibration of numerical value, and vibration component 5 is arranged along the center line circumference of tank body 3, fully can ensure that tank body 3 is vibrated equably.

Described elastic parts comprises the second spring 10, the spring(-supported) mount 11 be fixedly mounted on tank body 3 outer wall, and one end of described second spring 10 is fixedly mounted on brace summer 2, and the other end of described second spring 10 is connected on spring(-supported) mount 11.Under the effect of the second spring 10 and spring(-supported) mount 11, the support installment work of tank body 3 can be facilitated, also make vibration component 5 operationally simultaneously, facilitate the up-down vibration of tank body 3.

The quantity of described spring(-supported) mount 11 is four, and the center line circumference along tank body 3 is arranged, and the quantity of described second spring 10 is also four, being connected on spring(-supported) mount 11 of these four the second spring 10 correspondences.

Above-mentioned embodiment is only the preferred embodiment of the present invention; can not limit the scope of protection of the invention with this, change and the replacement of any unsubstantiality that those skilled in the art does on basis of the present invention all belong to the present invention's scope required for protection.

Claims (1)

1. a modified oscillatory type disintegrating machine, it is characterized in that: comprising bracing frame, the brace summer be arranged on bracing frame, the tank body be arranged on by elastic parts on brace summer, the vibration component for driving tank body relative support beam to move up and down, the rotating shaft be inserted in tank body, fixed installation multiple crushing cutters on the rotary shaft, to be arranged on bracing frame and for driving the first motor of rotating shaft rotary work, the top of described tank body is provided with feed pipe, and the bottom of described tank body is provided with discharge nozzle;

Described vibration component comprises the second motor, the shell be arranged on the second motor, be positioned at shell and be connected with the output shaft of the second motor take off post, with the vibrating barrel be threaded, the guide finger be arranged on vibrating barrel, the fixed cover be sleeved on vibrating barrel, the guide blot be inserted on fixed cover of taking off post, described vibrating barrel is formed with the first directed cavity of the end head plug-in mounting for guide blot, described shell is formed with the second directed cavity of the end head plug-in mounting for guide finger, described vibrating barrel is connected with the top of tank body;

The lower end of described discharge nozzle is provided with tube connector, described tube connector is set with sleeve, elastic tube is fitted with in described tube connector, upper end and the discharge nozzle of described elastic tube socket-connect, the lower end of described elastic tube is connected with multiple regulating block, the edge of every adjacent regulating block is overlapped, described sleeve has been threaded adjusting bolt, each regulating block is fixedly connected with installation sleeve, the inwall of described installation sleeve is formed with the internal thread be threaded for adjusting bolt, described adjusting bolt is set with the first spring, the top of described adjusting bolt is formed with limiting section, the upper end of described first spring is connected on limiting section, the lower end of described first spring is connected on regulating block,

The end of described tube connector is connected with casing, described casing is connected with fixed mount, the top of described casing is formed with charging aperture, described charging aperture is connected with tube connector, the bottom of described casing is formed with magnetic material outlet, the relative both sides of described casing are formed with the first non-magnetic material outlet and the outlet of the second non-magnetic material respectively, be provided with in being arranged side by side and contrary the first conveying device of throughput direction and the second conveying device in described casing, the input of described first conveying device is positioned at immediately below charging aperture, non-magnetic material can get rid of to the first non-magnetic material outlet by the output of described first conveying device, the backhaul turning of the output of described first conveying device is installed with roughly selects magnet, the input of described second conveying device can be used for accepting the thick magnetic material dropped from the output of the first conveying device, non-magnetic material can get rid of to the second non-magnetic material outlet by the output of described second conveying device, the backhaul turning of the output of described second conveying device is installed with carefully selects magnet, can be used for accepting the thin magnetic material dropped from the output of the second conveying device immediately below the output that the outlet of described magnetic material is positioned at the second conveying device.