CN117427727A - Sticky matter breaker that crushing efficiency is high - Google Patents

Abstract

The invention relates to the technical field of sticky material crushing, and provides a sticky material crusher with high crushing efficiency, which comprises a crusher body, wherein a feed inlet and a discharge outlet are respectively arranged above and below the crusher body, and the sticky material crusher also comprises a transfer hopper, a first opening and closing control mechanism, a first feeding angle control mechanism, a horizontal movement control mechanism, a lifting control mechanism, a blanking cover and a second opening and closing control mechanism. Through above-mentioned technical scheme, on the one hand through the interval be two kinds of broken axis direction constantly and repeatedly broken of cross, compare the mode that the crushing axis angle was continued to broken by this crushing condition with the same in prior art, the effect of broken effect at every turn and the effect of overlapping many times of can the maximum optimization, transfer the transfer process of fighting simultaneously is automatic going on, the uncontrollable during manual operation has also been furthest reduced to can be at the minimum repetition crushing number of times down fastest reach required broken effect, crushing efficiency is high.

Description

Sticky matter breaker that crushing efficiency is high

Technical Field

The invention relates to the technical field of sticky material crushing, in particular to a sticky material crusher with high crushing efficiency.

Background

Among various types of crushers, crushers which are more suitable for thick materials are a twin-roll crusher, a two-stage crusher and a vertical crusher, and mainly because the three types of crushers are not provided with screens, the phenomenon that the materials are stuck to a screen plate can not occur when the thick materials are processed, so that the blocking phenomenon is avoided, wherein the twin-roll crusher can crush the thick materials by selecting smooth twin-roll extrusion, and the materials can directly fall down for discharging after extrusion crushing, so that the crusher is very suitable for crushing the thick materials and is not easy to adhere.

When conventional twin-roll crusher carries out crushing work to thick thing material, the condition that single round crushing effect is bad appears probably, according to the crushing demand of difference, need carry out the repeated crushing of certain number of times according to the condition, in the in-process of repeatedly receiving the material and throwing and carrying out crushing many times, because thick material is the linear quilt extrusion crushing along the gap between the twin rolls, if continue throwing with same straight line direction again, it is just to the continuous crushing of this crushing condition with same crushing axis angle to be equivalent, the crushing effect is not reached the optimum, this kind of condition is uncontrollable in the in-process of manual work repeatedly throwing, the continuous repeated crushing of uncertain number of times can be led to the crushing effect is poor, crushing efficiency still remains further improvement, to this, we propose a thick thing crusher that crushing efficiency is high.

Disclosure of Invention

The invention provides a thick matter crusher with high crushing efficiency, which solves the problem that in the related art, in the process of repeatedly receiving and feeding materials for crushing thick matters for multiple times, the manual feeding is uncontrollable, so that the thick matters are required to be crushed repeatedly and continuously for uncertain times, and the crushing efficiency still needs to be further improved.

The technical scheme of the invention is as follows:

the utility model provides a thick thing breaker that crushing efficiency is high, includes the breaker body, the top and the below of breaker body are provided with feed inlet and discharge gate respectively, still include:

a transfer hopper, wherein the bottom of the transfer hopper is provided with a feeding port for feeding viscous materials into the crusher body;

the first opening and closing control mechanism is arranged at the bottom of the transfer hopper and used for controlling the opening and closing state of the feeding port;

the feeding angle control mechanism is connected with the top of the transfer hopper and is used for rotationally controlling the feeding angle of the transfer hopper;

the horizontal movement control mechanism is connected with the feeding angle control mechanism and is used for driving the feeding angle control mechanism to horizontally displace, one end point of the horizontal displacement distance is right above the feeding hole or right below the discharging hole, and the other end point of the horizontal displacement distance is a position on one side of the crusher body, which does not affect the lifting movement of the transfer hopper and the opening and closing control mechanism;

the lifting control mechanism is connected with the horizontal movement control mechanism and is used for driving the lifting control mechanism to move up and down;

the blanking cover is arranged below the discharge hole and is used for enabling the viscous materials crushed in the crusher body to fall into the transfer hopper when the transfer hopper is positioned below the discharge hole;

and the second opening and closing control mechanism is arranged at the bottom of the blanking cover and used for controlling the opening and closing state of the blanking cover.

As a preferable mode, the addition angle control mechanism includes:

the control motor is externally provided with a motor shell;

the driving frame is fixedly connected to the inner wall of the transfer hopper, and an output shaft of the control motor is fixedly connected with the top of the driving frame.

As a preferred mode, the horizontal movement control mechanism includes:

the output end of the first electric telescopic rod is fixedly connected with the outer wall of the motor shell;

and the first electric telescopic rod is fixedly arranged in the supporting shell.

As a preferred mode, the lifting control mechanism includes:

the supporting shell is longitudinally and slidably arranged in the lifting frame;

the second electric telescopic rod is fixedly arranged at the top end of the lifting frame, the second electric telescopic rod is fixedly arranged on the supporting table, and the output end of the second electric telescopic rod is fixedly connected with the top end of the supporting shell.

As a preferred mode, the first opening and closing control mechanism comprises:

the electric telescopic rods III are arranged in two, and the two electric telescopic rods III are symmetrically arranged on the outer wall of the transfer hopper;

the two baffles are symmetrically arranged in the transfer hopper, are inclined, are V-shaped when in contact, and penetrate through the transfer hopper and extend out of the transfer hopper;

the connecting frames are arranged and connected between the output end of the electric telescopic rod III and the baffle plate.

In order to increase the stability of motor housing horizontal migration time, further in the aforesaid scheme, still include stable bracing piece, stable bracing piece fixed connection is in on the outer wall of motor housing, offer on the support shell and supply the support through-hole that stable bracing piece passed.

In order to increase the stability of the motor shell when the motor shell moves horizontally at the position above the feed inlet, the crusher further comprises a stabilizing frame, wherein the stabilizing frame is arranged on the frame of the crusher body and used for carrying out sliding support on the motor shell when the motor shell moves horizontally.

In order to increase the stability of motor housing when the below position horizontal migration of discharge gate, further in the aforesaid scheme, still include the bearing balladeur train, the bearing balladeur train sets up the downside of breaker body is used for when shifting the fill and be located the below of discharge gate supports it slides to shift fill level.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, by arranging the transfer hopper, the viscous material just crushed can be received under the discharge hole in a state that the two opening and closing control mechanisms are simultaneously opened after the crushing of the crusher body is finished, and the viscous material can be kept in a general state just crushed by the double rollers in a straight falling mode;

then through setting up elevating system and horizontal migration control mechanism, can keep transferring under the circumstances of fighting direction and state, remove the top of transferring the feed inlet with transferring the fill, at this moment, through throwing the angle control mechanism, can make to transfer the fill and rotate 90 degrees, namely: the viscous material in the transfer hopper is rotated 90 degrees from the just crushed state and is in a mutually perpendicular state with the just crushed axial direction, and the two crushing axial directions are crossed when overlapped, as shown in fig. 9;

after the crushing axis direction is converted, opening the first opening and closing control mechanism, and then putting the viscous material in the transfer hopper into the crusher body again for crushing again;

2. according to the invention, on one hand, the two crushing axial directions which are alternately crossed are repeatedly crushed, compared with the mode that the crushing condition is continuously crushed at the same crushing axial angle in the prior art, the crushing effect of each time and the effect of overlapping multiple crushing can be optimized to the greatest extent, meanwhile, the transfer process of the transfer hopper is automatically carried out, the uncontrollability during manual operation is reduced to the greatest extent, and therefore, the required crushing effect can be achieved at the fastest speed under the minimum repeated crushing times as much as possible, and the crushing efficiency is high.

Drawings

The invention will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic view of a transfer hopper of the present invention in a state of being positioned at the lower side of a discharge port;

FIG. 2 is a schematic view of the structure of the transfer hopper of the present invention in a state of being positioned above the feed inlet;

FIG. 3 is a schematic view of the structure of the present invention at another angle;

FIG. 4 is a schematic view of a breaker body and blanking cover of the present invention in partial cross section;

FIG. 5 is a schematic view of the structure of the crusher body and blanking cover of the present invention;

FIG. 6 is a schematic view of a side elevation view of the transfer hopper, the feed angle control mechanism and the horizontal movement control mechanism in the invention;

FIG. 7 is a schematic diagram of a side elevational view of the transfer hopper, the feed angle control mechanism and the horizontal movement control mechanism of the present invention;

FIG. 8 is a schematic view of the cooperation of the crusher body, blanking cover and transfer hopper of the present invention;

FIG. 9 is a schematic view of two crushing axis directions in the present invention;

in the figure:

1. a breaker body; 2. a transfer bucket; 3. a blanking cover; 4. a pair of rollers;

101. controlling a motor; 102. a motor housing; 103. a driving frame;

201. an electric telescopic rod I; 202. a support case; 203. a stabilizing support rod; 204. a stabilizing rack; 205. supporting the carriage;

301. a lifting frame; 302. an electric telescopic rod II; 303. a support table;

401. an electric telescopic rod III; 402. a baffle; 403. a connecting frame;

501. an electric telescopic rod IV; 502. a drive rod; 503. and a striker plate.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below in conjunction with the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1 to 9, the invention provides a high-crushing-efficiency thick matter crusher, which comprises a crusher body 1, wherein a feed inlet and a discharge outlet are respectively arranged above and below the crusher body 1, the crusher body 1 is a conventional twin-roll 4-type crusher, and in addition, the following needs to be described: the viscous material with high crushing efficiency is a material with a certain viscosity, but the viscous material cannot flow at will, and is not liquid or flowing.

The viscous material crusher with high crushing efficiency further comprises a transfer hopper 2, a first opening and closing control mechanism, a first feeding angle control mechanism, a horizontal movement control mechanism, a lifting control mechanism, a blanking cover 3 and a second opening and closing control mechanism;

the first opening and closing control mechanism is arranged at the bottom of the transfer hopper 2 and used for controlling the opening and closing state of the feeding opening;

as a preferable mode that can be realized, as shown in fig. 6 and 7, the first opening and closing control mechanism comprises a third electric telescopic rod 401, a baffle plate 402 and a connecting frame 403, the third electric telescopic rod 401 is provided with two, the third electric telescopic rod 401 is symmetrically arranged on the outer wall of the transferring bucket 2, the baffle plate 402 is provided with two, the two baffle plates 402 are symmetrically arranged in the transferring bucket 2, the two baffle plates 402 are all inclined, the two baffle plates 402 are in a V shape when in contact, the bottom tips of the V shapes correspond to gaps between the pair of rollers 4, meanwhile, the other ends of the two baffle plates 402 penetrate through the transferring bucket 2 and extend to the outside, the connecting frame 403 is provided with two, and the connecting frame 403 is connected between the output end of the third electric telescopic rod 401 and the baffle plate 402;

the first opening and closing control mechanism can enable the transfer hopper 2 to have two functions of receiving materials and feeding the materials, so that the repeated feeding and crushing effects of feeding the materials from the lower part of the discharge hole and then moving to the upper part of the feed inlet are achieved, meanwhile, the two baffles 402 which are V-shaped in contact can enable the viscous materials to be gathered between the two baffles 402 as much as possible when the viscous materials are transferred into the transfer hopper 2, namely, the viscous materials are aligned to gaps between the pair of rollers 4 below, so that the viscous materials are concentrated as much as possible when the viscous materials are fed and crushed, and the crushing effect is improved to a certain extent;

specifically, in the initial state, two baffles 402 contact each other, and two baffles 402 cooperate like a drawer that can temporarily connect the material with shifting fill 2, and when two electric telescopic handle three 401 start simultaneously, the output of two electric telescopic handle three 401 stretches away from, drives two baffles 402 outside slip respectively through two link 403, and thick material can be the center whereabouts of contact surface of two baffles 402, and baffle 402 can be scraped by shifting the lateral wall of fill 2 at outside gliding in-process to be favorable to the unloading of thick material.

The feeding angle control mechanism is connected with the top of the transfer hopper 2 and is used for rotationally controlling the feeding angle of the transfer hopper 2, and in the embodiment, the feeding angle control mechanism comprises a control motor 101 and a driving frame 103, a motor shell 102 is arranged outside the control motor 101, the driving frame 103 is fixedly connected on the inner wall of the transfer hopper 2, and an output shaft of the control motor 101 is fixedly connected with the top of the driving frame 103;

when the control motor 101 is started, the transfer bucket 2 is driven to rotate 90 degrees by the driving frame 103, namely: the viscous material in the transfer hopper 2 is rotated 90 degrees from the last crushed state and is in a state of being mutually perpendicular to the previous crushed axial direction, and the two crushing axial directions are crossed when overlapped;

when the rotation angle of the control motor 101 is preferably set to 90 degrees, the control motor 101 can be automatically reset after rotation and discharging, the 90-degree rotation angle can enable two crushing axis directions to be crossed when being overlapped, the optimal reverse crushing angle is achieved, and other angles can be set according to actual use conditions and requirements.

The horizontal movement control mechanism is connected with the feeding angle control mechanism and used for driving the feeding angle control mechanism to horizontally displace, one of two endpoints of the horizontal displacement distance is right above the feed inlet or right below the discharge outlet, the other endpoint is a position of one side of the crusher body 1, which does not affect the lifting movement of the transfer hopper 2 and the opening and closing control mechanism, namely, the horizontal displacement path of the feeding angle control mechanism is equivalent to two parallel lines which are parallel to each other, the path range of one parallel line is the position of the right above the feed inlet, which does not affect the lifting movement of the transfer hopper 2 and the opening and closing control mechanism, to one side of the crusher body 1, and the path range of the other parallel line is the position of the right below the discharge outlet, which does not affect the lifting movement of the transfer hopper 2 and the opening and closing control mechanism;

as a preferable mode which can be realized, the horizontal movement control mechanism comprises a first electric telescopic rod 201 and a supporting shell 202, wherein the output end of the first electric telescopic rod 201 is fixedly connected with the outer wall of the motor shell 102, and the first electric telescopic rod 201 is fixedly arranged in the supporting shell 202;

specifically, when the first electric telescopic rod 201 is started, the telescopic state of the first electric telescopic rod can drive the motor housing 102 to horizontally move, in order to increase the stability of the motor housing 102 during horizontal movement, the electric telescopic rod further comprises a stabilizing support rod 203, the stabilizing support rod 203 is fixedly connected to the outer wall of the motor housing 102, a supporting through hole through which the stabilizing support rod 203 can pass is formed in the supporting housing 202, in the initial state, one end of the stabilizing support rod 203 is arranged in the supporting housing 202, when the first electric telescopic rod 201 is retracted to drive the motor housing 102 to move towards the supporting housing 202, the stabilizing support rod 203 is continuously inserted until the other end of the stabilizing support rod 203 penetrates through the supporting housing 202 and slides out, namely, when the motor housing 102 horizontally moves, at least the first electric telescopic rod 201 and the stabilizing support rod 203 are jointly supported, the stability is higher, and the stabilizing support rod 203 can also be arranged in a plurality, so that the required stabilizing support requirement is met;

it should be further noted that this embodiment further includes a stabilizing frame 204 and a supporting carriage 205, the stabilizing frame 204 is mounted on the frame of the crusher body 1, when the motor housing 102 is located above the feed inlet, the motor housing 102 can slide on the stabilizing frame 204 when moving horizontally, the supporting carriage 205 is disposed at the lower side of the crusher body 1, and when the motor housing 102 moves horizontally at a position below the discharge outlet, the transfer bucket 2 can be supported to slide horizontally on the supporting carriage 205.

The lifting control mechanism is connected with the horizontal movement control mechanism and is used for driving the lifting control mechanism to move in a lifting way, and the lifting path range is the vertical distance between two parallel lines which are horizontally parallel to each other;

as a preferable mode which can be realized, the lifting control mechanism comprises a lifting frame 301 and a second electric telescopic rod 302, wherein the supporting shell 202 is longitudinally and slidably arranged in the lifting frame 301, the top end of the lifting frame 301 is fixedly provided with a supporting table 303, the second electric telescopic rod 302 is fixedly arranged on the supporting table 303, and the output end of the second electric telescopic rod 302 is fixedly connected with the top end of the supporting shell 202;

specifically, when the second electric telescopic rod 302 is started, the support shell 202 and the first electric telescopic rod 201 in the support shell 202 can be driven to longitudinally slide and lift in the support frame, so that the transfer of the distance between the upper part of the feed inlet and the lower part of the discharge outlet of the transfer hopper 2 is completed;

the blanking cover 3 is arranged below the discharge hole and is used for enabling the sticky materials crushed in the crusher body 1 to fall into the transfer hopper 2 when the transfer hopper 2 is arranged below the discharge hole;

as shown in fig. 4, 5 and 8, the blanking cover 3 is a pair of trousers, so as to avoid the motor housing 102 and enable the crushed viscous material to accurately fall into the lower transfer hopper 2, and it should be noted that the viscous material falls into the blanking cover 3 and is split into two parts, but the crushing axis direction of the crushed viscous material is not changed;

the second opening and closing control mechanism is arranged at the bottom of the blanking cover 3 and used for controlling the opening and closing state of the blanking cover 3, and as a preferable mode which can be realized, the second opening and closing control mechanism can be similar to the first opening and closing control mechanism in structure and comprises a fourth electric telescopic rod 501, a driving rod 502 and two baffle plates 503, in the initial state, the baffle plates 503 are blocked in the blanking cover 3, and when the fourth electric telescopic rod 501 starts to stretch, the driving rod 502 can drive the two baffle plates 503 to slide outwards, so that discharging is performed;

the effect of setting up on-off control mechanism two on blanking cover 3 lies in, sets up on-off control mechanism two on blanking cover 3 the back, can be when transferring and fight 2 and not reaching the discharge gate below yet, temporarily store the thick material after the crushing in advance, and need not use by two transfer fights 2 in turn, reduce the quantity of transferring fight 2 to and because more than one transfer fight 2 and the corresponding still another set of throwing angle control mechanism, horizontal migration control mechanism and lifting control mechanism's quantity and cost.

In summary, the working principle of this embodiment is as follows:

in the initial state, the transfer hopper 2 is positioned right below the discharge hole, after the viscous material to be crushed is thrown into the feed hole, the viscous material is crushed by the pair roller 4 and falls into the blanking cover 3 directly downwards, then the opening and closing control mechanism II is opened, the viscous material continues to fall into the transfer hopper 2 directly downwards, and at the moment, the viscous material in the transfer hopper 2 keeps the first crushing axis direction after being crushed by the pair roller 4;

after the crushed viscous material falls into the transfer hopper 2 downwards, the second opening and closing control mechanism is reset and closed, the first horizontal movement control mechanism starts to retract, the first electric telescopic rod 201 drives the motor shell 102 to retract and move towards one side close to the lifting frame 301, when the transfer hopper 2 moves to a position where the lifting movement of the transfer hopper 2 and the first opening and closing control mechanism is not affected, the lifting control mechanism starts, the second electric telescopic rod 302 drives the supporting shell 202 of the second horizontal movement control mechanism and the first electric telescopic rod 201 to lift, when the height of the transfer hopper 2 rises to be higher than the height of the feed inlet, the horizontal movement control mechanism starts to extend, and the first electric telescopic rod 201 drives the motor shell 102 to extend and move towards one side of the crusher body 1, so that the transfer hopper 2 is moved to be right above the feed inlet;

when the viscous material just crushed in the transferring hopper 2 is moved to the position right above the feed inlet, the control motor 101 of the feeding angle control mechanism is started, the control motor 101 drives the transferring hopper 2 to rotate 90 degrees through the driving frame 103, so that the viscous material in the transferring hopper 2 is rotated 90 degrees from the last crushed state to form a second crushing axis direction which is mutually perpendicular to the first crushing axis direction, as shown in fig. 9, the two crushing axis directions are overlapped and are in a cross shape, then the opening and closing control mechanism is started, the viscous material in the transferring hopper 2 is put into the crusher body 1 in the state of the second crushing axis direction, and the state of gaps between the two opposite rollers 4 in the crusher body 1 are crushed again in a mutually perpendicular state;

the working principle of the two times of crushing at intervals is that the crushing machine is repeated for a certain number of times according to different crushing requirements, so that the required crushing effect is achieved fastest under the condition of the least repeated crushing times, and the crushing efficiency is high.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims (8)

1. The utility model provides a thick thing breaker that crushing efficiency is high, includes breaker body (1), the top and the below of breaker body (1) are provided with feed inlet and discharge gate respectively, its characterized in that still includes:

the transfer hopper (2), the bottom of the transfer hopper (2) is provided with a feeding port;

the first opening and closing control mechanism is arranged at the bottom of the transfer hopper (2);

the feeding angle control mechanism is connected with the top of the transfer hopper (2) and is used for rotationally controlling the feeding angle of the transfer hopper (2);

the horizontal movement control mechanism is connected with the feeding angle control mechanism and is used for driving the feeding angle control mechanism to horizontally displace, one end point of the horizontal displacement distance is right above the feeding hole or right below the discharging hole, and the other end point of the horizontal displacement distance is a position on one side of the crusher body (1) which does not affect lifting movement of the transfer hopper (2) and the opening and closing control mechanism;

the lifting control mechanism is connected with the horizontal movement control mechanism and is used for driving the lifting control mechanism to move up and down;

the blanking cover (3) is arranged below the discharge hole and is used for enabling the sticky materials crushed in the crusher body (1) to fall into the transfer hopper (2) when the transfer hopper (2) is positioned below the discharge hole;

and the second opening and closing control mechanism is arranged at the bottom blanking cover of the blanking cover (3).

2. The high-crushing-efficiency thick matter crusher according to claim 1, wherein the feeding angle control mechanism comprises:

a control motor (101), and a motor housing (102) is installed outside the control motor (101);

the driving frame (103), the driving frame (103) is fixedly connected to the inner wall of the transfer hopper (2), and the output shaft of the control motor (101) is fixedly connected with the top of the driving frame (103).

3. A high efficiency crushing mill according to claim 2, wherein the horizontal movement control mechanism comprises:

the output end of the first electric telescopic rod (201) is fixedly connected with the outer wall of the motor shell (102);

and the first electric telescopic rod (201) is fixedly arranged in the supporting shell (202).

4. A high efficiency crushing thick matter crusher as claimed in claim 3, wherein the elevation control mechanism comprises:

-a lifting frame (301), said support shell (202) being longitudinally slidably mounted within said lifting frame (301);

and the second electric telescopic rod (302) is fixedly arranged at the top end of the lifting frame (301), the second electric telescopic rod (302) is fixedly arranged on the supporting table (303), and the output end of the second electric telescopic rod (302) is fixedly connected with the top end of the supporting shell (202).

5. The high crushing efficiency thick matter crusher of claim 4, wherein the first opening and closing control mechanism comprises:

the three electric telescopic rods (401) are symmetrically arranged on the outer wall of the transfer hopper (2), and the three electric telescopic rods (401) are arranged in two;

the two baffles (402) are symmetrically arranged in the transfer hopper (2), the two baffles (402) are inclined, the two baffles (402) are V-shaped when in contact, and the other ends of the two baffles (402) penetrate through the transfer hopper (2) and extend out to the outside;

the connecting frames (403), the connecting frames (403) are arranged in two, and the connecting frames (403) are connected between the output end of the electric telescopic rod III (401) and the baffle plate (402).

6. The high-crushing-efficiency thick matter crusher according to claim 5, further comprising a stabilizing support rod (203), wherein the stabilizing support rod (203) is fixedly connected to the outer wall of the motor housing (102), and the support shell (202) is provided with a support through hole through which the stabilizing support rod (203) can pass.

7. The high crushing efficiency thick matter crusher according to claim 6, further comprising a stabilizing frame (204), the stabilizing frame (204) being mounted on the frame of the crusher body (1) for sliding support of the motor housing (102) when the motor housing (102) is moved horizontally.

8. The high crushing efficiency thick matter crusher according to claim 7, further comprising a holding carriage (205), the holding carriage (205) being arranged at the lower side of the crusher body (1) for supporting the transfer hopper (2) to slide horizontally when the transfer hopper (2) is located below the discharge opening.