CN105797808A - High-efficiency ore crushing device with shock absorption function - Google Patents

Abstract

A high-efficiency ore crushing device with a shock absorption function comprises a crushing device body, a baffle device, a shock absorption device, rolling wheel devices, a support device, a supporting plate device, a recovery device and a grinding device. The crushing device comprises a first frame, a feed hopper, a first rolling wheel, a transfer block, a second rolling wheel, crushing teeth and first diagonal rods. The baffle device comprises a first cylinder, a first push rod, a first push plate, first springs, a first baffle, a first support, a second spring and a second baffle. The shock absorption device comprises a first transverse plate, first vertical rods, a second transverse plate, second supports, third springs, a first bent rod, fourth springs, fifth springs, sixth springs and seventh springs. Each rolling wheel device comprises a second bent rod and a second cross rod. The support device comprises a third support, a second diagonal rod, a first bent plate, a third cross rod, a fourth support, a third diagonal rod, a fifth support and a second vertical rod. The high-efficiency ore crushing device can crush ores rapidly and effectively and is high in crushing efficiency.

Description

A kind of efficient ore pulverizer with shock-absorbing function

Technical field

The present invention relates to ore grinding technical field, particularly relate to a kind of efficient ore pulverizer with shock-absorbing function.

Background technology

Reducing mechanism is equipment very common in chemical industry, and mineral powder can be broken into the size of needs.But existing ore pulverizer is when pulverizing Ore, owing to driving device can drive rotating shaft to rotate, thus whole reducing mechanism can be driven to shake, and then influence whether being smoothed out of whole comminution process, even also result in the generation of production accident, threaten the safety of workman.

Accordingly, it is desirable to provide a kind of new technical scheme solves above-mentioned technical problem.

Summary of the invention

It is an object of the invention to provide a kind of efficient ore pulverizer with shock-absorbing function that can effectively solve above-mentioned technical problem.

In order to solve above-mentioned technical problem, the present invention adopts the following technical scheme that

nullA kind of efficient ore pulverizer with shock-absorbing function，The described efficient ore pulverizer with shock-absorbing function includes reducing mechanism、It is positioned at the retaining device on the right side of described reducing mechanism、It is positioned at the damping device below described retaining device、It is positioned at the roller devices below described damping device、It is positioned at the holder device above described damping device、It is positioned at the support plate device on the left of described holder device、It is positioned at the retracting device on the right side of described support plate device and is positioned at the lapping device above described support plate device，Described reducing mechanism includes the first framework、It is positioned at the feed hopper above described first framework、It is contained in the first roller in described first framework、It is positioned at the batch turning block below described first roller、It is positioned at the second roller on the left of described batch turning block、It is arranged at the crushing tooth on described second roller and is positioned at the first brace of the described first framework left and right sides，Described retaining device includes the first cylinder、It is positioned at the first catch bar on the left of described first cylinder、It is positioned at the first push pedal on the left of described first catch bar、It is positioned at the first spring on the left of described first push pedal、It is positioned at the first baffle plate below described first spring、It is positioned at the first support above described first cylinder、It is positioned at the second spring on the left of described first baffle plate and is positioned at the second baffle on the left of described second spring，Described damping device includes the first transverse slat、It is positioned at the first montant of the left and right sides below described first transverse slat、The second transverse slat between described first montant、It is positioned at the second support of the left and right sides below described second transverse slat、It is positioned at the 3rd spring above described second support、It is positioned at the first bent stick above described second transverse slat、It is positioned at the 4th spring above described first bent stick、It is positioned at the 5th spring below described first bent stick、It is positioned at the 6th spring above described second transverse slat and is positioned at the 7th spring below described first montant，Described roller devices includes the second bent stick、It is arranged at the second cross bar in described second bent stick、It is arranged at the 3rd roller on described second cross bar and the 8th spring，Described holder device includes the 3rd support、It is arranged at the second brace on described 3rd support、It is positioned at the first twisted plate on the left of described 3rd support、It is arranged at the 3rd cross bar on described first twisted plate、It is positioned at the 4th support above described 3rd cross bar、It is positioned at the 3rd brace above described 4th support、It is positioned at the 5th support above described 3rd support、It is positioned at the second montant on the left of described 3rd brace、It is positioned at the bracer on the left of described second montant and is positioned at the 3rd montant above described 5th support，Described support plate device includes gripper shoe、It is positioned at the first support bar below described gripper shoe、It is positioned at the first fixed block above described first support bar、It is positioned at the first swash plate on the left of described gripper shoe、It is positioned at the 9th spring below described gripper shoe、Second fixed block、It is positioned at the second catch bar below described second fixed block and is positioned at the second cylinder below described second catch bar，Described retracting device includes collection box、It is positioned at the second twisted plate on the left of described collection box、It is positioned at the tenth spring below described second twisted plate、It is positioned at the head rod on the left of described second twisted plate、It is positioned at the 11st spring below described head rod、It is positioned at the second connecting rod below described second twisted plate、It is positioned at the 3rd catch bar below described second connecting rod and is positioned at the 3rd cylinder below described 3rd catch bar，Described lapping device includes the 4th cylinder、It is positioned at the 6th support above described 4th cylinder、It is positioned at the 7th support on the left of described 6th support、It is positioned at the 3rd connecting rod on the right side of described 4th cylinder、It is positioned at the 4th catch bar on the left of described 4th cylinder、It is positioned at the 4th montant on the left of described 4th catch bar、It is positioned at the 4th brace below described 4th montant、It is arranged at the abrasive wheel on described 4th brace and is arranged at the 12nd spring on described 4th brace.

nullDescribed first framework is hollow cuboid，Described first framework is vertically placed，The lower surface of described feed hopper is fixing with the upper surface of described first framework to be connected，The cross section of described first roller is ellipticity，The cross section of described batch turning block is triangular in shape，The right surface of described batch turning block is fixing with the inner surface of described first framework to be connected，The inclined shape of upper surface of described batch turning block，Described second roller is cylinder，Described second roller water placing flat，Described second roller turns with described first framework axle and is connected，Described crushing tooth is provided with several and is evenly distributed on described second roller，Described crushing tooth is fixing with described second roller to be connected，Described first brace is provided with two and lays respectively at the left and right sides of described first framework，The described first inclined shape of brace，The upper end of described first brace is fixing with the side of described first framework to be connected.

nullDescribed first catch bar is cuboid，Described first catch bar horizontal positioned，The right-hand member of described first catch bar is connected with described first cylinder，The left end of described first catch bar is fixing with the right surface of described first push pedal to be connected，Described first push pedal is cuboid，Described first push pedal is vertically placed，The lower surface of the lower surface of described first push pedal and described first framework is in same plane，The lower surface of described first push pedal is fixing with the upper surface of described first baffle plate to be connected，Described first spring is provided with two，Described first spring is horizontal，The right-hand member of described first spring is fixing with described first push pedal to be connected，The left end of described first spring is fixing with described first framework to be connected，Described first baffle plate is cuboid，Described first gear plate level is placed，The lower surface of described first framework is connected with the upper surface slide of described first baffle plate，The lower surface of the upper surface of described first baffle plate and described batch turning block is slidably connected，Described first support is L-shaped，One end of described first support is fixing with the side of described first framework to be connected，The other end of described first support is fixing with the upper surface of described first cylinder to be connected，Described second spring is horizontal，The right-hand member of described second spring is fixing with described first baffle plate to be connected，The left end of described second spring is fixing with described second baffle to be connected，Described second baffle is bending，The upper end of described second baffle is fixing with the left surface of described first framework to be connected.

nullDescribed first transverse slat is cuboid，Described first transverse slat horizontal positioned，Described first montant is cuboid，Described first montant is vertically placed，The upper end of described first montant is fixing with the lower surface of described first transverse slat to be connected，Described second transverse slat is cuboid，Described second transverse slat horizontal positioned，The side of described second transverse slat is connected with the side slip of described first montant，Described second support is L-shaped，One end of described second support is fixing with the lower surface of described second transverse slat to be connected，The other end of described second support is horizontal，Described 3rd spring is provided with two，Described 3rd spring is vertical shape，The lower end of described 3rd spring is fixing with described second support to be connected，The upper end of described 3rd spring is fixing with the lower surface of described first transverse slat to be connected，Described first bent stick is bending，The two ends of described first bent stick are fixing with the upper surface of described second transverse slat to be connected，Described first bent stick acts against on described first transverse slat，Described first bent stick is provided with the first cross bar，Described first cross bar is horizontal，The two ends of described first cross bar are fixing with described first bent stick to be connected，Described 4th spring is provided with two and lays respectively at the left and right sides of described first bent stick，Described 4th spring is vertical shape，The upper end of described 4th spring is fixing with described first transverse slat to be connected，The lower end of described 4th spring is fixing with described first bent stick to be connected，Described 5th spring is provided with two，Described 5th spring is vertical shape，The lower end of described 5th spring is fixing with described second transverse slat to be connected，The upper end of described 5th spring is fixing with the lower surface of described first cross bar to be connected，The lower end of described 5th spring is fixing with the upper surface of described second transverse slat to be connected，Described 6th spring is provided with two，Described 6th spring is vertical shape，The lower end of described 6th spring is fixing with described second transverse slat to be connected，The upper end of described 6th spring is fixing with described first transverse slat to be connected，Described 7th spring is provided with two，Described 7th spring is vertical shape，The lower end of described 7th spring is fixing with described second support to be connected，The upper end of described 7th spring is fixing with the lower surface of described first montant to be connected.

Described second bent stick is bending, the upper end of described second bent stick is fixing with the lower surface of described second transverse slat to be connected, described second cross bar is horizontal, one end of described second cross bar is fixing with the lower end of described second bent stick to be connected, described second cross bar is provided with through the first through hole of its upper and lower surface, described 3rd roller is cylinder, described 3rd roller is contained in described first through hole and turns with described second cross bar axle and is connected, described 8th spring is vertical shape, the upper end of described 8th spring is fixing with the lower surface of described second transverse slat to be connected, the lower end of described 8th spring is fixing with described second cross bar to be connected.

nullDescribed 3rd support is zigzag，The lower end of described 3rd support is fixing with the upper surface of described first transverse slat to be connected，The upper end of described 3rd support is fixing with described 5th support to be connected，The described second inclined shape of brace，The two ends of described second brace are fixing with described 3rd support to be connected，Described 3rd cross bar is horizontal，The right-hand member of described 3rd cross bar is fixing with described 3rd support to be connected，The left end of described 3rd cross bar is fixing with described first twisted plate to be connected，Described first twisted plate is bending，Described 4th support is L-shaped，One end of described 4th support is fixing with described 3rd support to be connected，The other end of described 4th support is fixing with the lower surface of described bracer to be connected，The described 3rd inclined shape of brace，The lower end of described 3rd brace is fixing with described 3rd support to be connected，The upper end of described 3rd brace is fixing with described 5th support to be connected，Described 5th support is L-shaped，One end of described 5th support is fixing with the lower surface of described first cylinder to be connected，The other end of described 5th support is fixing with the right surface of described bracer to be connected，Described second montant is vertical shape，The upper end of described second montant is fixing with described 5th support to be connected，The lower end of described second montant is fixing with described 4th support to be connected，The lower surface of the upper surface of described bracer and described first baffle plate is slidably connected，The inclined shape in left surface of described bracer，Described 3rd montant is cuboid，Described 3rd montant is vertically placed，The lower end of described second montant is fixing with described 5th support to be connected，The upper end of described second montant acts against on the lower surface of described first baffle plate and is slidably connected with it.

nullDescribed gripper shoe is cuboid，Described first support bar is cuboid，Described first support bar is vertically placed，The lower end of described first support bar is fixing with the upper surface of described first transverse slat to be connected，Described first fixed block is cuboid，The upper surface of described first fixed block is fixing with the lower surface of described gripper shoe to be connected，The upper end of described first support bar turns with described first fixed block axle and is connected，The described first inclined shape of swash plate，The lower end of described first swash plate is fixing with the left end of described gripper shoe to be connected，Described 9th spring is vertical shape，The lower end of described 9th spring is fixing with the upper surface of described first transverse slat to be connected，The upper end of described 9th spring is fixing with described gripper shoe to be connected，Described second fixed block is cuboid，The upper surface of described second fixed block is fixing with the lower surface of described gripper shoe to be connected，Described second catch bar is cuboid，The upper end of described second catch bar turns with described second fixed block axle and is connected，The lower end of described second catch bar is connected with described second cylinder，The lower surface of described second cylinder is fixing with the upper surface of described first transverse slat to be connected.

nullDescribed collection box is hollow cuboid，Described collection box is placed on described first transverse slat，Described second twisted plate is bending，Described second twisted plate is positioned at the lower section of described gripper shoe right-hand member，The right-hand member of described second bent stick is positioned at the top of described collection box，Described tenth spring is vertical shape，The lower end of described tenth spring is fixing with described first transverse slat to be connected，The upper end of described tenth spring is fixing with described second twisted plate to be connected，The right-hand member of described head rod is fixing with described second twisted plate to be connected，Described 11st spring is vertical shape，The lower end of described 11st spring is fixing with described first transverse slat to be connected，The upper end of described 11st spring is fixing with described head rod to be connected，The upper end of described second connecting rod is fixing with described second twisted plate to be connected，Described 3rd catch bar is cuboid，The upper end of described 3rd catch bar turns with the lower end axle of described second connecting rod and is connected，The lower end of described 3rd catch bar is connected with described 3rd cylinder，The lower surface of described 3rd cylinder is fixing with the upper surface of described first transverse slat to be connected.

nullDescribed 6th support is L-shaped，One end of described 6th support is fixing with the side of described first framework to be connected，The other end of described 6th support is fixing with described 4th cylinder to be connected，The right-hand member of described 3rd connecting rod is fixing with described second baffle to be connected，The left end of described 3rd connecting rod is fixing with described 4th cylinder to be connected，Described 7th support is L-shaped，One end of described 7th support is fixing with described 6th support to be connected，The other end of described 7th support acts against on the upper surface of described 4th catch bar that it is slidably connected with it，Described 4th catch bar is cuboid，Described 4th catch bar horizontal positioned，The right-hand member of described 4th catch bar is connected with described 4th cylinder，The left end of described 4th catch bar is fixing with the right surface of described 4th montant to be connected，Described 4th montant is vertical shape，The upper end of described 4th brace is fixing with the lower end of described 4th montant to be connected，The lower end of described 4th brace is provided with groove，Described abrasive wheel is cylinder，Described abrasive wheel is contained in described groove and turns with described 4th brace axle and is connected，Described abrasive wheel acts against in described gripper shoe，The described 12nd inclined shape of spring，The upper end of described 12nd spring is fixing with described 4th brace to be connected，The lower end of described 12nd spring is fixing with described first swash plate to be connected.

After adopting technique scheme, present invention have the advantage that

The present invention has the efficient ore pulverizer simple in construction of shock-absorbing function, easy to use, it is possible to Ore is pulverized fast and effectively, and crush efficiency is high；And good damping, buffering operation can be played during the broken operation of conducting powder so that comminution process can carry out smoothly, it is prevented that the generation of security incident；Ore after pulverizing can be carried out grinding repeatedly simultaneously, and then make crushing effect better..

Accompanying drawing explanation

The detailed description of the invention of the efficient ore pulverizer that the present invention has shock-absorbing function below in conjunction with accompanying drawing is described further:

Fig. 1 is the structural representation that the present invention has the efficient ore pulverizer of shock-absorbing function；

Detailed description of the invention

As it is shown in figure 1, the efficient ore pulverizer that the present invention has shock-absorbing function includes reducing mechanism 1, is positioned at the retaining device 2 on the right side of described reducing mechanism 1, is positioned at the damping device 3 below described retaining device 2, is positioned at the roller devices 4 below described damping device 3, is positioned at the holder device 5 above described damping device 3, is positioned at the support plate device 6 on the left of described holder device 5, is positioned at the retracting device 7 on the right side of described support plate device 6 and is positioned at the lapping device 8 above described support plate device 6.

As it is shown in figure 1, described reducing mechanism 1 include the first framework 11, be positioned at the feed hopper 12 above described first framework 11, be contained in described first framework 11 the first roller 13, be positioned at the batch turning block 14 below described first roller 13, be positioned at the second roller 15 on the left of described batch turning block 14, the crushing tooth 16 that is arranged on described second roller 15 and the first brace 17 being positioned at described first framework 11 left and right sides.Described first framework 11 is in hollow cuboid, and described first framework 11 is vertically placed, and the upper and lower surface of described first framework 11 communicates.Described feed hopper 12 is in hollow shape, and the lower surface of described feed hopper 12 is fixing with the upper surface of described first framework 11 to be connected so that the inside of described feed hopper 12 communicates with the inside of described first framework 11, is conveniently focused in the first framework 11 by Ore.The cross section of described first roller 13 is ellipticity, and when described first roller 13 is in horizontal, the two ends of described first roller 13 act against on the inner surface of described first framework 11.The cross section of described batch turning block 14 is triangular in shape, the right surface of described batch turning block 14 is fixing with the inner surface of described first framework 11 to be connected, the inclined shape of upper surface of described batch turning block 14, the lower surface of described batch turning block 14 is horizontal, and the Ore in the first framework 11 can be focused on the left of it by described batch turning block 14.Described second roller 15 is in cylinder, and described second roller 15 horizontal positioned, described second roller 15 turns with described first framework 11 axle and is connected, and described second roller 15 is connected with motor, and then drives described second rotating shaft 15 to rotate in described first framework 11.Described crushing tooth 16 is provided with several and is evenly distributed on described second roller 15, and described crushing tooth 16 is fixing with described second roller 15 to be connected.Described first brace 17 is provided with two and lays respectively at the left and right sides of described first framework 11, the described first inclined shape of brace 17, and the upper end of described first brace 17 is fixing with the side of described first framework 11 to be connected.

As it is shown in figure 1, described retaining device 2 includes the first cylinder 21, is positioned at the first catch bar 22 on the left of described first cylinder 21, is positioned at the first push pedal 23 on the left of described first catch bar 22, is positioned at the first spring 24 on the left of described first push pedal 23, is positioned at the first baffle plate 25 below described first spring 24, is positioned at the first support 26 above described first cylinder 21, is positioned at the second spring 27 on the left of described first baffle plate 25 and is positioned at the second baffle 28 on the left of described second spring 27.Described first catch bar 22 is in cuboid, described first catch bar 22 horizontal positioned, the right-hand member of described first catch bar 22 is connected with described first cylinder 21, making described first cylinder 21 drive described first catch bar 22 to move left and right, the left end of described first catch bar 22 is fixing with the right surface of described first push pedal 23 to be connected.Described first push pedal 23 is in cuboid, described first push pedal 23 is vertically placed, the lower surface of the lower surface of described first push pedal 23 and described first framework 11 is in same plane, and the lower surface of described first push pedal 23 is fixing with the upper surface of described first baffle plate 25 to be connected.Described first spring 24 is provided with two, and described first spring 24 is horizontal, and the right-hand member of described first spring 24 is fixing with described first push pedal 23 to be connected, and the left end of described first spring 24 is fixing with described first framework 11 to be connected.Described first baffle plate 25 is in cuboid, and described first baffle plate 25 horizontal positioned, the lower surface of described first framework 11 is connected with the upper surface slide of described first baffle plate 25, and the upper surface of described first baffle plate 25 and the lower surface of described batch turning block 14 are slidably connected.Described first support 26 is L-shaped, one end of described first support 26 is fixing with the side of described first framework 11 to be connected, the upper surface of the other end of described first support 26 and described first cylinder 21 is fixing to be connected, is positioned at the lower end of the first brace 17 on the right side of described first framework 11 and fixes with described first support 26 and be connected.Described second spring 27 is horizontal, and the right-hand member of described second spring 27 is fixing with described first baffle plate 25 to be connected, and the left end of described second spring 27 is fixing with described second baffle 28 to be connected.Described second baffle 28 is in bending, and the upper end of described second baffle 28 is fixing with the left surface of described first framework 11 to be connected, and described second baffle 28 can so that the Ore after pulverizing out focuses on the right side of it from the first framework 11 lower end.

As shown in Figure 1, described damping device 3 includes the first transverse slat 31, it is positioned at the first montant 32 of the left and right sides below described first transverse slat 31, the second transverse slat 33 between described first montant 32, it is positioned at the second support 34 of the left and right sides below described second transverse slat 33, it is positioned at the 3rd spring 35 above described second support 34, it is positioned at the first bent stick 36 above described second transverse slat 33, it is positioned at the 4th spring 37 above described first bent stick 36, it is positioned at the 5th spring 38 below described first bent stick 36, it is positioned at the 6th spring 39 above described second transverse slat 33 and is positioned at the 7th spring 30 below described first montant 32.Described first transverse slat 31 is cuboid, described first transverse slat 31 horizontal positioned.Described first montant 32 is provided with two and lays respectively at the left and right sides below described base plate 31, and described first montant 32 is in cuboid, and described first montant 32 is vertically placed, and the upper end of described first montant 32 is fixing with the lower surface of described first transverse slat 31 to be connected.Described second transverse slat 33 is in cuboid, and described second transverse slat 33 horizontal positioned, the side of described second transverse slat 33 is connected with the side slip of described first montant 32 so that described second transverse slat 33 can move up and down.Described second support 34 is provided with two and lays respectively at the left and right sides below described second transverse slat 33, described second support 34 is L-shaped, one end of described second support 34 is fixing with the lower surface of described second transverse slat 33 to be connected, and the other end of described second support 34 is horizontal.Described 3rd spring 35 is provided with two, described 3rd spring 35 is in vertical shape, the lower end of described 3rd spring 35 is fixing with described second support 34 to be connected, and the upper end of described 3rd spring 35 is fixing with the lower surface of described first transverse slat 31 to be connected, thus described second support 34 is played a supporting role.Described first bent stick 36 is in bending, the two ends of described first bent stick 36 are fixing with the upper surface of described second transverse slat 33 to be connected, described first bent stick 36 acts against on described first transverse slat 31, described first bent stick 36 adopts elastomeric material to make, thus described first transverse slat 31 is played a supporting role, described first bent stick 36 is provided with the first cross bar 371, described first cross bar 371 is horizontal, the two ends of described first cross bar 371 are fixing with described first bent stick 36 to be connected, it is prevented that described first bent stick 36 excessive deformation.Described 4th spring 37 is provided with two and lays respectively at the left and right sides of described first bent stick 36, described 4th spring 37 is in vertical shape, the upper end of described 4th spring 37 is fixing with described first transverse slat 31 to be connected, and the lower end of described 4th spring 37 is fixing with described first bent stick 36 to be connected.Described 5th spring 38 is provided with two, described 5th spring 38 is in vertical shape, the lower end of described 5th spring 38 is fixing with described second transverse slat 33 to be connected, the upper end of described 5th spring 38 is fixing with the lower surface of described first cross bar 371 to be connected, and the lower end of described 5th spring 38 is fixing with the upper surface of described second transverse slat 33 to be connected.Described 6th spring 39 is provided with two, and described 6th spring 39 is in vertical shape, and the lower end of described 6th spring 39 is fixing with described second transverse slat 33 to be connected, and the upper end of described 6th spring 39 is fixing with described first transverse slat 31 to be connected.Described 7th spring 30 is provided with two, and described 7th spring 30 is in vertical shape, and the lower end of described 7th spring 30 is fixing with described second support 34 to be connected, and the upper end of described 7th spring 30 is fixing with the lower surface of described first montant 32 to be connected.

As it is shown in figure 1, described roller devices 4 is provided with two and lays respectively at the left and right sides below described damping device 3.Described roller devices 4 includes the second bent stick 41, be arranged in described second bent stick 41 the second cross bar 42, the 3rd roller 43 and the 8th spring 44 being arranged on described second cross bar 42.Described second bent stick 41 is in bending, and the upper end of described second bent stick 41 is fixing with the lower surface of described second transverse slat 33 to be connected, and described second bent stick 41 adopts elastomeric material to make.Described second cross bar 42 is horizontal, and one end of described second cross bar 42 is fixing with the lower end of described second bent stick 41 to be connected, and described second cross bar 42 is provided with through the first through hole 421 of its upper and lower surface, and described first through hole 421 is in rectangular-shaped.Described 3rd roller 43 is in cylinder, and described 3rd roller 43 is contained in described first through hole 421 and turns with described second cross bar 42 axle and is connected so that described 3rd roller 43 can rotate in described first through hole 421.Described 8th spring 44 is in vertical shape, and the upper end of described 8th spring 44 is fixing with the lower surface of described second transverse slat 33 to be connected, and the lower end of described 8th spring 44 is fixing with described second cross bar 42 to be connected, thus described second cross bar 42 is played a supporting role.

As shown in Figure 1, described holder device 5 includes the 3rd support 51, it is arranged at the second brace 52 on described 3rd support 51, it is positioned at the first twisted plate 53 on the left of described 3rd support 51, it is arranged at the 3rd cross bar 54 on described first twisted plate 53, it is positioned at the 4th support 55 above described 3rd cross bar 54, it is positioned at the 3rd brace 56 above described 4th support 55, it is positioned at the 5th support 57 above described 3rd support 51, it is positioned at the second montant 58 on the left of described 3rd brace 56, it is positioned at the bracer 59 on the left of described second montant 58 and is positioned at the 3rd montant 50 above described 5th support 57.Described 3rd support 51 is in zigzag, and the lower end of described 3rd support 51 is fixing with the upper surface of described first transverse slat 31 to be connected, and the upper end of described 3rd support 51 is fixing with described 5th support 57 to be connected.The described second inclined shape of brace 52, the two ends of described second brace 52 are fixing with described 3rd support 51 to be connected.Described 3rd cross bar 54 is horizontal, and the right-hand member of described 3rd cross bar 54 is fixing with described 3rd support 51 to be connected, and the left end of described 3rd cross bar 54 is fixing with described first twisted plate 53 to be connected.Described first twisted plate 53 is in bending.Described 4th support 55 is L-shaped, and one end of described 4th support 55 is fixing with described 3rd support 51 to be connected, and the other end of described 4th support 55 is fixing with the lower surface of described bracer 59 to be connected.The described 3rd inclined shape of brace 56, the lower end of described 3rd brace 56 is fixing with described 3rd support 51 to be connected, and the upper end of described 3rd brace 56 is fixing with described 5th support 57 to be connected.Described 5th support 57 is L-shaped, and one end of described 5th support 57 is fixing with the lower surface of described first cylinder 21 to be connected, and the other end of described 5th support 57 is fixing with the right surface of described bracer 59 to be connected.Described second montant 58 is in vertical shape, and the upper end of described second montant 58 is fixing with described 5th support 57 to be connected, and the lower end of described second montant 58 is fixing with described 4th support 55 to be connected.The cross section of described bracer 59 is at right angles trapezoidal, and the lower surface of the upper surface of described bracer 59 and described first baffle plate 25 is slidably connected, the inclined shape in left surface of described bracer 59.Described 3rd montant 50 is in cuboid, and described 3rd montant 50 is vertically placed, and the lower end of described second montant 50 is fixing with described 5th support 57 to be connected, and the upper end of described second montant 50 acts against on the lower surface of described first baffle plate 25 and is slidably connected with it.

As it is shown in figure 1, described support plate device 6 includes gripper shoe 61, is positioned at the first support bar 62 below described gripper shoe 61, is positioned at the first fixed block 63 above described first support bar 62, is positioned at the first swash plate 64 on the left of described gripper shoe 61, is positioned at the 9th spring the 65, second fixed block 66 below described gripper shoe 61, is positioned at the second catch bar 67 below described second fixed block 66 and is positioned at the second cylinder 68 below described second catch bar 67.Described gripper shoe 61 is in cuboid.Described first support bar 62 is in cuboid, and described first support bar 62 is vertically placed, and the lower end of described first support bar 62 is fixing with the upper surface of described first transverse slat 31 to be connected.Described first fixed block 63 is in cuboid, and the upper surface of described first fixed block 63 is fixed with the lower surface of described gripper shoe 61 and is connected, and the upper end of described first support bar 62 turns with described first fixed block 63 axle and is connected.The described first inclined shape of swash plate 64, the lower end of described first swash plate 64 is fixing with the left end of described gripper shoe 61 to be connected.Described 9th spring 65 is in vertical shape, and the lower end of described 9th spring 65 is fixing with the upper surface of described first transverse slat 31 to be connected, and the upper end of described 9th spring 65 is fixing with described gripper shoe 61 to be connected.Described second fixed block 66 is in cuboid, and the upper surface of described second fixed block 66 is fixing with the lower surface of described gripper shoe 61 to be connected.Described second catch bar 67 is in cuboid, the upper end of described second catch bar 67 turns with described second fixed block 66 axle and is connected, described second fixed block 66 can be rotated against with described second catch bar 67, the lower end of described second catch bar 67 is connected with described second cylinder 68 so that described second cylinder 68 drives described second catch bar 67 to move up and down.The lower surface of described second cylinder 68 is fixing with the upper surface of described first transverse slat 31 to be connected.

As it is shown in figure 1, described retracting device 7 includes collection box 71, is positioned at the second twisted plate 72 on the left of described collection box 71, is positioned at the tenth spring 73 below described second twisted plate 72, is positioned at the head rod 74 on the left of described second twisted plate 71, is positioned at the 11st spring 75 below described head rod 74, is positioned at the second connecting rod 76 below described second twisted plate 72, is positioned at the 3rd catch bar 77 below described second connecting rod 76 and is positioned at the 3rd cylinder 78 below described 3rd catch bar 77.Described collection box 71 is in hollow cuboid, and described collection box 71 is placed on described first transverse slat 31, and the cross section of described collection box 71 is concave shape.Described second twisted plate 72 is in bending, and described second twisted plate 72 is positioned at the lower section of described gripper shoe 61 right-hand member, and the right-hand member of described second bent stick 72 is positioned at the top of described collection box 71, and described second twisted plate 72 adopts elastomeric material to make.Described tenth spring 73 is in vertical shape, and the lower end of described tenth spring 73 is fixing with described first transverse slat 31 to be connected, and the upper end of described tenth spring 73 is fixing with described second twisted plate 72 to be connected.The right-hand member of described head rod 74 is fixing with described second twisted plate 72 to be connected.Described 11st spring 75 is in vertical shape, and the lower end of described 11st spring 75 is fixing with described first transverse slat 31 to be connected, and the upper end of described 11st spring 75 is fixing with described head rod 74 to be connected.The upper end of described second connecting rod 76 is fixing with described second twisted plate 72 to be connected.Described 3rd catch bar 77 is in cuboid, the upper end of described 3rd catch bar 77 turns with the lower end axle of described second connecting rod 76 and is connected, the lower end of described 3rd catch bar 77 is connected with described 3rd cylinder 78 so that described 3rd cylinder 78 drives described 3rd catch bar 77 to move up and down.The lower surface of described 3rd cylinder 78 is fixing with the upper surface of described first transverse slat 31 to be connected.

As it is shown in figure 1, described lapping device 8 includes the 4th cylinder 81, is positioned at the 6th support 82 above described 4th cylinder 81, is positioned at the 7th support 83 on the left of described 6th support 82, is positioned at the 3rd connecting rod 84 on the right side of described 4th cylinder 81, is positioned at the 4th catch bar 85 on the left of described 4th cylinder 81, is positioned at the 4th montant 86 on the left of described 4th catch bar 85, is positioned at the 4th brace 87, the abrasive wheel 88 being arranged on described 4th brace 87 below described 4th montant 86 and is arranged at the 12nd spring 89 on described 4th brace 87.Described 6th support 82 is L-shaped, and one end of described 6th support 82 is fixing with the side of described first framework 11 to be connected, and the other end of described 6th support 82 is fixing with described 4th cylinder 81 to be connected.The right-hand member of described 3rd connecting rod 84 is fixing with described second baffle 28 to be connected, and the left end of described 3rd connecting rod 84 is fixing with described 4th cylinder 81 to be connected.Described 7th support 83 is L-shaped, one end of described 7th support 83 is fixing with described 6th support 82 to be connected, the other end of described 7th support 83 acts against on the upper surface of described 4th catch bar 85 that it is slidably connected with it so that described 4th catch bar 85 can move left and right.Described 4th catch bar 85 is in cuboid, and described 4th catch bar 85 horizontal positioned, the right-hand member of described 4th catch bar 85 is connected with described 4th cylinder 81, and the left end of described 4th catch bar 85 is fixing with the right surface of described 4th montant 86 to be connected.Described 4th montant 86 is in vertical shape.The upper end of described 4th brace 87 is fixing with the lower end of described 4th montant 86 to be connected, and the lower end of described 4th brace 87 is provided with groove 871.Described abrasive wheel 88 is in cylinder, and described abrasive wheel 88 is contained in described groove 871 and turns with described 4th brace 87 axle and is connected so that described abrasive wheel 88 can rotate in described groove 871, and described abrasive wheel 87 acts against in described gripper shoe 61.The described 12nd inclined shape of spring 89, the upper end of described 12nd spring 89 is fixing with described 4th brace 87 to be connected, and the lower end of described 12nd spring 89 is fixing with described first swash plate 64 to be connected.

nullAs shown in Figure 1，When the described present invention has the efficient ore pulverizer use of shock-absorbing function，First described 3rd roller 43 is placed and is rolled on the ground，The present invention can be moved to suitable position，As the mobile present invention or the broken operation of conducting powder，Described second bent stick 41 has elasticity and the setting of the 8th spring 44，Second transverse slat 33 can be played the effect of damping, buffering，Simultaneously because the setting of the first montant 32，Make described first transverse slat 31 and the second transverse slat 33 can only the upper and lower relative movement of in the vertical direction，And due to the first bent stick 36、3rd spring 35、4th spring 37、5th spring 38、The setting of the 6th spring 39 and the 7th spring 30，Described first transverse slat 31 can be played good cushioning effect，Effect consolidates，Described first bent stick 36 has elasticity，Make the first twisted plate 36 that described first transverse slat 31 can play the effect supporting buffering，And the setting due to the first cross bar 371，The amplitude making the first bent stick 36 deformation will not be excessive，And then can ensure that described first transverse slat 31 will not excessively move down，Prevent from causing damage.nullWhen then pulverizing，Put into needing the Ore pulverized in feed hopper 12，Then in the first framework 11，Then the motor being connected with the first roller 13 and the motor being connected with the second roller 15 are started，First roller 13 and the second roller 15 can be rotated，Cross section ovalize due to the first roller 13，When described first roller 13 is in level，The two ends of described first roller 13 act against on the inner surface of described first framework 11，Then the first roller 13 rotates counterclockwise，The Ore above the first roller 13 is made to enter into the lower section within the first framework 11，When the first roller 13 rotating 360 degrees，A certain amount of Ore into its next side on first roller 13，It is then shut off and the motor of the first roller 13，The two ends making the first roller 13 act against on the inner surface of the first framework 11，Then the second roller 15 continues to rotate，Crushing tooth 16 and batch turning block 14 is made to cooperate and can Ore be pulverized.After pulverizing, start the motor being connected with the first roller 13, first roller 13 is rotated counterclockwise, when the first roller 13 rotating 360 degrees, close the motor being connected with the first roller 13 so that the two ends of the first roller 13 act against on the inner surface of the first framework 11, when then the first roller 13 rotates, a certain amount of Ore into its next side above it, then the crushing tooth 15 on the second roller 15 coordinates with batch turning block 14 it is pulverized.Then the motor that is connected with the first roller 13 is started, continuous repeat the above steps, such that it is able to Ore is pulverized in batches, crush efficiency height, it is prevented that the generation of clogging.When the crushing tooth 16 on the second roller 15 is when pulverizing Ore, described first cylinder 21 drives described first catch bar 22 to make the first continuous bilateral reciprocation of push pedal 23, first baffle plate 25 can constantly be moved left and right, and then making constantly the entering below a bracer 59 from the second roller 15 of the Ore after pulverizing, the Ore after pulverizing drops in gripper shoe 61 along the left surface of described bracer 59.Then the 4th cylinder 81 is started, the 4th catch bar 85 is made to drive described 4th montant 86 constantly to move left and right, then passing through the 4th brace 87 drives described abrasive wheel 88 constantly to move left and right, described abrasive wheel 88 is rolled in gripper shoe 61, such that it is able to the Ore after the pulverizing in gripper shoe 61 is ground, when described abrasive wheel 88 is rolled to right side, described 12nd spring 89 meeting the 4th brace 87 pulled below to the left, abrasive wheel 88 is made to act against putting more effort in gripper shoe 61, and then make grinding effect better, described first swash plate 64 Ore being possible to prevent in gripper shoe 61 after pulverizing drops to left side.After grinding, start the second cylinder 68, second catch bar 67 is moved down, and then gripper shoe 61 is turned clockwise around the upper end of described first support bar 62, then the Ore after grinding in gripper shoe 61 is made to be slipped on the second twisted plate 72 along described gripper shoe 61, then the Ore after being partly slipped to the grinding on the second twisted plate 72 is slipped in collection box 71, and the Ore after partial mill can focus on the central concave place of the second twisted plate 72.Then the 3rd cylinder 78 is started, 3rd catch bar 77 is moved up, second twisted plate 72 is moved up, setting due to the tenth spring the 73 and the 11st spring 75, the mid portion making described second twisted plate 72 raises up, and then the Ore after the grinding deposited on the second twisted plate 72 is slipped in collection box 71.So far, the present invention has the efficient ore pulverizer use procedure of shock-absorbing function and describes.

The above; being only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, any those skilled in the art are in the technical scope that the invention discloses; change can be readily occurred in or replace, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with described scope of the claims.

Claims (9)

1. null1. an efficient ore pulverizer with shock-absorbing function，It is characterized in that: described in there is the efficient ore pulverizer of shock-absorbing function include reducing mechanism、It is positioned at the retaining device on the right side of described reducing mechanism、It is positioned at the damping device below described retaining device、It is positioned at the roller devices below described damping device、It is positioned at the holder device above described damping device、It is positioned at the support plate device on the left of described holder device、It is positioned at the retracting device on the right side of described support plate device and is positioned at the lapping device above described support plate device，Described reducing mechanism includes the first framework、It is positioned at the feed hopper above described first framework、It is contained in the first roller in described first framework、It is positioned at the batch turning block below described first roller、It is positioned at the second roller on the left of described batch turning block、It is arranged at the crushing tooth on described second roller and is positioned at the first brace of the described first framework left and right sides，Described retaining device includes the first cylinder、It is positioned at the first catch bar on the left of described first cylinder、It is positioned at the first push pedal on the left of described first catch bar、It is positioned at the first spring on the left of described first push pedal、It is positioned at the first baffle plate below described first spring、It is positioned at the first support above described first cylinder、It is positioned at the second spring on the left of described first baffle plate and is positioned at the second baffle on the left of described second spring，Described damping device includes the first transverse slat、It is positioned at the first montant of the left and right sides below described first transverse slat、The second transverse slat between described first montant、It is positioned at the second support of the left and right sides below described second transverse slat、It is positioned at the 3rd spring above described second support、It is positioned at the first bent stick above described second transverse slat、It is positioned at the 4th spring above described first bent stick、It is positioned at the 5th spring below described first bent stick、It is positioned at the 6th spring above described second transverse slat and is positioned at the 7th spring below described first montant，Described roller devices includes the second bent stick、It is arranged at the second cross bar in described second bent stick、It is arranged at the 3rd roller on described second cross bar and the 8th spring，Described holder device includes the 3rd support、It is arranged at the second brace on described 3rd support、It is positioned at the first twisted plate on the left of described 3rd support、It is arranged at the 3rd cross bar on described first twisted plate、It is positioned at the 4th support above described 3rd cross bar、It is positioned at the 3rd brace above described 4th support、It is positioned at the 5th support above described 3rd support、It is positioned at the second montant on the left of described 3rd brace、It is positioned at the bracer on the left of described second montant and is positioned at the 3rd montant above described 5th support，Described support plate device includes gripper shoe、It is positioned at the first support bar below described gripper shoe、It is positioned at the first fixed block above described first support bar、It is positioned at the first swash plate on the left of described gripper shoe、It is positioned at the 9th spring below described gripper shoe、Second fixed block、It is positioned at the second catch bar below described second fixed block and is positioned at the second cylinder below described second catch bar，Described retracting device includes collection box、It is positioned at the second twisted plate on the left of described collection box、It is positioned at the tenth spring below described second twisted plate、It is positioned at the head rod on the left of described second twisted plate、It is positioned at the 11st spring below described head rod、It is positioned at the second connecting rod below described second twisted plate、It is positioned at the 3rd catch bar below described second connecting rod and is positioned at the 3rd cylinder below described 3rd catch bar，Described lapping device includes the 4th cylinder、It is positioned at the 6th support above described 4th cylinder、It is positioned at the 7th support on the left of described 6th support、It is positioned at the 3rd connecting rod on the right side of described 4th cylinder、It is positioned at the 4th catch bar on the left of described 4th cylinder、It is positioned at the 4th montant on the left of described 4th catch bar、It is positioned at the 4th brace below described 4th montant、It is arranged at the abrasive wheel on described 4th brace and is arranged at the 12nd spring on described 4th brace.
2. null2. the efficient ore pulverizer with shock-absorbing function according to claim 1，It is characterized in that: described first framework is hollow cuboid，Described first framework is vertically placed，The lower surface of described feed hopper is fixing with the upper surface of described first framework to be connected，The cross section of described first roller is ellipticity，The cross section of described batch turning block is triangular in shape，The right surface of described batch turning block is fixing with the inner surface of described first framework to be connected，The inclined shape of upper surface of described batch turning block，Described second roller is cylinder，Described second roller water placing flat，Described second roller turns with described first framework axle and is connected，Described crushing tooth is provided with several and is evenly distributed on described second roller，Described crushing tooth is fixing with described second roller to be connected，Described first brace is provided with two and lays respectively at the left and right sides of described first framework，The described first inclined shape of brace，The upper end of described first brace is fixing with the side of described first framework to be connected.
3. null3. the efficient ore pulverizer with shock-absorbing function according to claim 2，It is characterized in that: described first catch bar is cuboid，Described first catch bar horizontal positioned，The right-hand member of described first catch bar is connected with described first cylinder，The left end of described first catch bar is fixing with the right surface of described first push pedal to be connected，Described first push pedal is cuboid，Described first push pedal is vertically placed，The lower surface of the lower surface of described first push pedal and described first framework is in same plane，The lower surface of described first push pedal is fixing with the upper surface of described first baffle plate to be connected，Described first spring is provided with two，Described first spring is horizontal，The right-hand member of described first spring is fixing with described first push pedal to be connected，The left end of described first spring is fixing with described first framework to be connected，Described first baffle plate is cuboid，Described first gear plate level is placed，The lower surface of described first framework is connected with the upper surface slide of described first baffle plate，The lower surface of the upper surface of described first baffle plate and described batch turning block is slidably connected，Described first support is L-shaped，One end of described first support is fixing with the side of described first framework to be connected，The other end of described first support is fixing with the upper surface of described first cylinder to be connected，Described second spring is horizontal，The right-hand member of described second spring is fixing with described first baffle plate to be connected，The left end of described second spring is fixing with described second baffle to be connected，Described second baffle is bending，The upper end of described second baffle is fixing with the left surface of described first framework to be connected.
4. null4. the efficient ore pulverizer with shock-absorbing function according to claim 3，It is characterized in that: described first transverse slat is cuboid，Described first transverse slat horizontal positioned，Described first montant is cuboid，Described first montant is vertically placed，The upper end of described first montant is fixing with the lower surface of described first transverse slat to be connected，Described second transverse slat is cuboid，Described second transverse slat horizontal positioned，The side of described second transverse slat is connected with the side slip of described first montant，Described second support is L-shaped，One end of described second support is fixing with the lower surface of described second transverse slat to be connected，The other end of described second support is horizontal，Described 3rd spring is provided with two，Described 3rd spring is vertical shape，The lower end of described 3rd spring is fixing with described second support to be connected，The upper end of described 3rd spring is fixing with the lower surface of described first transverse slat to be connected，Described first bent stick is bending，The two ends of described first bent stick are fixing with the upper surface of described second transverse slat to be connected，Described first bent stick acts against on described first transverse slat，Described first bent stick is provided with the first cross bar，Described first cross bar is horizontal，The two ends of described first cross bar are fixing with described first bent stick to be connected，Described 4th spring is provided with two and lays respectively at the left and right sides of described first bent stick，Described 4th spring is vertical shape，The upper end of described 4th spring is fixing with described first transverse slat to be connected，The lower end of described 4th spring is fixing with described first bent stick to be connected，Described 5th spring is provided with two，Described 5th spring is vertical shape，The lower end of described 5th spring is fixing with described second transverse slat to be connected，The upper end of described 5th spring is fixing with the lower surface of described first cross bar to be connected，The lower end of described 5th spring is fixing with the upper surface of described second transverse slat to be connected，Described 6th spring is provided with two，Described 6th spring is vertical shape，The lower end of described 6th spring is fixing with described second transverse slat to be connected，The upper end of described 6th spring is fixing with described first transverse slat to be connected，Described 7th spring is provided with two，Described 7th spring is vertical shape，The lower end of described 7th spring is fixing with described second support to be connected，The upper end of described 7th spring is fixing with the lower surface of described first montant to be connected.
5. 5. the efficient ore pulverizer with shock-absorbing function according to claim 4, it is characterized in that: described second bent stick is bending, the upper end of described second bent stick is fixing with the lower surface of described second transverse slat to be connected, described second cross bar is horizontal, one end of described second cross bar is fixing with the lower end of described second bent stick to be connected, described second cross bar is provided with through the first through hole of its upper and lower surface, described 3rd roller is cylinder, described 3rd roller is contained in described first through hole and turns with described second cross bar axle and is connected, described 8th spring is vertical shape, the upper end of described 8th spring is fixing with the lower surface of described second transverse slat to be connected, the lower end of described 8th spring is fixing with described second cross bar to be connected.
6. null6. the efficient ore pulverizer with shock-absorbing function according to claim 5，It is characterized in that: described 3rd support is zigzag，The lower end of described 3rd support is fixing with the upper surface of described first transverse slat to be connected，The upper end of described 3rd support is fixing with described 5th support to be connected，The described second inclined shape of brace，The two ends of described second brace are fixing with described 3rd support to be connected，Described 3rd cross bar is horizontal，The right-hand member of described 3rd cross bar is fixing with described 3rd support to be connected，The left end of described 3rd cross bar is fixing with described first twisted plate to be connected，Described first twisted plate is bending，Described 4th support is L-shaped，One end of described 4th support is fixing with described 3rd support to be connected，The other end of described 4th support is fixing with the lower surface of described bracer to be connected，The described 3rd inclined shape of brace，The lower end of described 3rd brace is fixing with described 3rd support to be connected，The upper end of described 3rd brace is fixing with described 5th support to be connected，Described 5th support is L-shaped，One end of described 5th support is fixing with the lower surface of described first cylinder to be connected，The other end of described 5th support is fixing with the right surface of described bracer to be connected，Described second montant is vertical shape，The upper end of described second montant is fixing with described 5th support to be connected，The lower end of described second montant is fixing with described 4th support to be connected，The lower surface of the upper surface of described bracer and described first baffle plate is slidably connected，The inclined shape in left surface of described bracer，Described 3rd montant is cuboid，Described 3rd montant is vertically placed，The lower end of described second montant is fixing with described 5th support to be connected，The upper end of described second montant acts against on the lower surface of described first baffle plate and is slidably connected with it.
7. null7. the efficient ore pulverizer with shock-absorbing function according to claim 6，It is characterized in that: described gripper shoe is cuboid，Described first support bar is cuboid，Described first support bar is vertically placed，The lower end of described first support bar is fixing with the upper surface of described first transverse slat to be connected，Described first fixed block is cuboid，The upper surface of described first fixed block is fixing with the lower surface of described gripper shoe to be connected，The upper end of described first support bar turns with described first fixed block axle and is connected，The described first inclined shape of swash plate，The lower end of described first swash plate is fixing with the left end of described gripper shoe to be connected，Described 9th spring is vertical shape，The lower end of described 9th spring is fixing with the upper surface of described first transverse slat to be connected，The upper end of described 9th spring is fixing with described gripper shoe to be connected，Described second fixed block is cuboid，The upper surface of described second fixed block is fixing with the lower surface of described gripper shoe to be connected，Described second catch bar is cuboid，The upper end of described second catch bar turns with described second fixed block axle and is connected，The lower end of described second catch bar is connected with described second cylinder，The lower surface of described second cylinder is fixing with the upper surface of described first transverse slat to be connected.
8. null8. the efficient ore pulverizer with shock-absorbing function according to claim 7，It is characterized in that: described collection box is hollow cuboid，Described collection box is placed on described first transverse slat，Described second twisted plate is bending，Described second twisted plate is positioned at the lower section of described gripper shoe right-hand member，The right-hand member of described second bent stick is positioned at the top of described collection box，Described tenth spring is vertical shape，The lower end of described tenth spring is fixing with described first transverse slat to be connected，The upper end of described tenth spring is fixing with described second twisted plate to be connected，The right-hand member of described head rod is fixing with described second twisted plate to be connected，Described 11st spring is vertical shape，The lower end of described 11st spring is fixing with described first transverse slat to be connected，The upper end of described 11st spring is fixing with described head rod to be connected，The upper end of described second connecting rod is fixing with described second twisted plate to be connected，Described 3rd catch bar is cuboid，The upper end of described 3rd catch bar turns with the lower end axle of described second connecting rod and is connected，The lower end of described 3rd catch bar is connected with described 3rd cylinder，The lower surface of described 3rd cylinder is fixing with the upper surface of described first transverse slat to be connected.
9. null9. the efficient ore pulverizer with shock-absorbing function according to claim 8，It is characterized in that: described 6th support is L-shaped，One end of described 6th support is fixing with the side of described first framework to be connected，The other end of described 6th support is fixing with described 4th cylinder to be connected，The right-hand member of described 3rd connecting rod is fixing with described second baffle to be connected，The left end of described 3rd connecting rod is fixing with described 4th cylinder to be connected，Described 7th support is L-shaped，One end of described 7th support is fixing with described 6th support to be connected，The other end of described 7th support acts against on the upper surface of described 4th catch bar that it is slidably connected with it，Described 4th catch bar is cuboid，Described 4th catch bar horizontal positioned，The right-hand member of described 4th catch bar is connected with described 4th cylinder，The left end of described 4th catch bar is fixing with the right surface of described 4th montant to be connected，Described 4th montant is vertical shape，The upper end of described 4th brace is fixing with the lower end of described 4th montant to be connected，The lower end of described 4th brace is provided with groove，Described abrasive wheel is cylinder，Described abrasive wheel is contained in described groove and turns with described 4th brace axle and is connected，Described abrasive wheel acts against in described gripper shoe，The described 12nd inclined shape of spring，The upper end of described 12nd spring is fixing with described 4th brace to be connected，The lower end of described 12nd spring is fixing with described first swash plate to be connected.