CN210058550U - Bidirectional extrusion type cement material crushing, drying and stirring device - Google Patents

Abstract

The utility model discloses a two-way extrusion formula cement comminuted drying agitating unit, its device include terminal control unit, with client control unit, base member, wind direction sensor, smoke detection subassembly, temperature detect subassembly and the defence subassembly of terminal control unit electric connection. The smoke detector adopts the mode that the wind direction sensor and the smoke sensor are arranged in the smoke detection assembly, and the smoke sensor is arranged on the rotating support rod, so that the smoke sensor can detect smoke in air according to real-time wind direction under the coordination of the wind direction sensor; the adoption sets up the first temperature sensor in the temperature detect subassembly in the base member outside, and second temperature sensor and third temperature sensor set up in the temperature detect intracavity, and the temperature detect intracavity is provided with the mode of simulation combustible substance and air heating subassembly for the temperature in the temperature detect intracavity can be turned into to the average temperature in external a period, in order to realize detecting the technical purpose that ambient temperature produces the influence to the simulation combustible substance.

Description

Bidirectional extrusion type cement material crushing, drying and stirring device

Technical Field

The utility model relates to a technical field is made in the cement manufacture, especially relates to a two-way extrusion formula cement comminuted drying agitating unit.

Background

At present, the cement production is made up by using limestone and clay as main raw materials, through the processes of crushing, proportioning and grinding to obtain raw material, then feeding the raw material into cement kiln to calcine it into clinker, and then adding a proper quantity of gypsum into the clinker and grinding it into the finished product. The dry production is a method for simultaneously drying and grinding the raw materials, or firstly drying and grinding the raw materials into raw material powder and then feeding the raw material powder into a dry kiln to calcine the raw material powder into clinker. However, in the prior art, the rolled and crushed material is directly dried, and the crushing and drying effects are not good, so that the material needs to be pretreated before rolling and crushing, and then is subjected to subsequent treatment, so as to realize a good crushing effect.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to prior art's defect with not enough, provide a smash effectual, the good two-way extrusion formula cement comminuted dry agitating unit of drying effect.

In order to achieve the above object, the utility model provides a following scheme: the utility model provides a two-way extrusion type cement material crushing, drying and stirring device, which comprises a feeding unit, a first crushing unit, a first drying unit, a second crushing unit, a second drying unit and a discharging unit which are connected in sequence, wherein the feeding unit comprises a feeding cavity, a raw material inlet and a raw material outlet which are arranged in the feeding cavity, the first crushing unit comprises an extrusion cavity and a pressurizing component which is arranged in the extrusion cavity relatively, the pressurizing component comprises a hydraulic cylinder and a pressurizing part which is connected with a telescopic rod of the hydraulic cylinder, the outer peripheral surface of the pressurizing part is matched with the inner peripheral surface of the extrusion cavity, a sealing ring is arranged on the outer peripheral surface of the pressurizing part, an extrusion material inlet and a plurality of extrusion material outlets are arranged on the extrusion cavity, and the plurality of extrusion material outlets are arranged between the two extrusion material inlets which are arranged relatively, when the two pressing parts move in opposite directions, the outer peripheral surface of the pressing part plugs the extrusion material inlet, the extrusion material inlet stops feeding materials to the extrusion cavity, when the two pressing parts move in opposite directions, the outer peripheral surface of the pressing part is separated from the extrusion material inlet, and the extrusion material inlet starts feeding materials to the extrusion cavity; the first drying unit comprises a drying transmission mechanism and a drying mechanism, the drying mechanism comprises a drying cavity and a first heating device arranged on the inner wall of the drying cavity, the feeding end of the drying transmission mechanism is positioned below the material extrusion outlet, the blanking end of the drying transmission mechanism penetrates through the drying cavity, the second crushing unit comprises a left extrusion roller and a right extrusion roller which are symmetrically arranged at intervals, the extrusion gap between the left extrusion roller and the right extrusion roller is positioned below the blanking end of the drying transmission mechanism, the second drying unit comprises a heating cavity with two open ends and a hot air generating cavity communicated with the side wall of the heating cavity, the upper end opening of the heating cavity is positioned below the extrusion gap between the left extrusion roller and the right extrusion roller, and a blower and a second heating device are sequentially arranged in the hot air generating cavity from outside to inside, the discharging unit comprises a discharging cavity and an output shaft which is arranged in the discharging cavity and provided with a helical blade, a feeding hole of the discharging cavity is communicated with an opening at the lower end of the heating cavity, two ends of the output shaft are rotatably arranged on the discharging cavity respectively, and one end of the output shaft is connected with an output driving motor.

Preferably, the feed intracavity is provided with the stirring subassembly, the stirring subassembly is including the agitator motor and the (mixing) shaft that are connected, agitator motor is fixed to be set up the casing outside in feed chamber, the one end that is provided with stirring vane on the (mixing) shaft is located the feed intracavity, the other end of (mixing) shaft with agitator motor's output shaft is connected.

Preferably, the material extrusion outlets are uniformly arranged on the circumferential surface of the lower part of the extrusion cavity.

Preferably, the drying and conveying mechanism comprises a conveying driving motor, a driving roller, a driven roller and a conveying belt, the conveying driving motor is connected with the driving roller, and the conveying belt is arranged on the driving roller and the driven roller.

Preferably, first stoving unit with be provided with the vibration screening unit between the unit is smashed to the second, the vibration screening unit includes screening subassembly and vibration subassembly, the screening subassembly includes the sifter and supplies the spout that sifter slip and symmetry set up, the sifter is located the below of stoving transmission device's blanking end, be provided with the elastic component that resets in the spout, the one end of elastic component that resets with the spout is connected, the other end with the sifter is connected, the vibration subassembly include vibrating motor and with the cam that vibrating motor's pivot is connected, the cam with the elastic component that resets promotes jointly the sifter is in carry out reciprocating motion in the spout.

Preferably, the below of sifter is provided with the back taper collecting hopper, the toper bottom of back taper collecting hopper is provided with the export of gathering materials, the export of gathering materials is located left squeeze roll with the top in extrusion clearance between the right squeeze roll.

Preferably, the left squeeze roll and/or the right squeeze roll are connected with a driving motor, when the left squeeze roll or the right squeeze roll is driven to squeeze on one side, the left squeeze roll or the right squeeze roll is connected with the driving motor, and when the left squeeze roll and the right squeeze roll are driven to squeeze on two sides, the left squeeze roll and the right squeeze roll are respectively connected with the driving motor.

Preferably, the hot air generating chambers are arranged on both sides of the heating chamber, and the air outlet ends of the hot air generating chambers are arranged obliquely upwards.

Preferably, a V-shaped material separating plate is arranged in the heating chamber, and the position of the V-shaped material separating plate is higher than the position of the joint of the hot air generating chamber and the heating chamber.

Preferably, the feeding chamber is connected with a humidifying mechanism.

The utility model discloses following beneficial effect has been gained for prior art:

1. the utility model provides a two-way extrusion formula cement material crushing drying device adopts the mode that is provided with the first crushing unit before the second crushing unit, so that the cement material containing water is extruded and crushed in the first crushing unit for pretreatment, thereby avoiding the problem of poor crushing effect caused by only rolling and crushing in the second crushing unit; furthermore, a mode that a pressurizing assembly is oppositely arranged in the extrusion cavity of the first crushing unit is adopted, so that the feeding work and the extrusion discharging work of the extrusion cavity are separated, namely, the technical purpose of bidirectional high-pressure crushing is realized through the technical means of single feeding and single crushing, and the extrusion crushing effect is improved; furthermore, a plurality of material extrusion outlets are arranged on the side wall of the circumferential surface of the extrusion cavity, and a drying transmission mechanism feeding end is arranged below the material extrusion outlets, so that materials in the extrusion cavity are extruded from different material extrusion outlets in a strip shape, the materials falling onto the drying transmission mechanism cannot form a large-area mixture, the problem that the large-area mixture is difficult to thoroughly dry is avoided, and the primary drying effect is improved.

2. The utility model provides an adopt the mode that is provided with the stirring subassembly in the feed intracavity among the two-way extrusion formula cement comminuted drying device for the material just can accomplish a stirring at the feed intracavity, has avoided the material to mix incomplete problem at the extrusion intracavity, has improved the material and has mixed the effect.

3. The utility model provides a two-way extrusion formula cement comminuted drying device adopts the mode that is provided with the vibration screening unit between first stoving unit and the crushing unit of second among for the material after the stoving accomplishes screening work in the vibration dispersion, not only makes the material that gets into the crushing unit of second more even, has still avoided having great impurity influence squeeze roll life's problem in the material.

4. The utility model provides a two-way extrusion formula cement comminuted drying device adopts the mode that is provided with back taper collecting hopper below the sifter, has avoided because the sifter leads to the problem that the material can not accurately fall into the extrusion clearance when great for material after the screening can fall into the extrusion clearance with the mode that collects in, has improved the crushing validity and the crushing efficiency of material.

5. The utility model provides an adopt the mode that is provided with V type branch flitch in heating cavity among the two-way extrusion formula cement comminuted drying device for the material is at heating cavity internal shunting drying, has avoided the material to collect the problem that leads to drying effect poor, and the fan-shaped surface of V type branch flitch simultaneously makes the dispersion more of in-process of material whereabouts, has further improved drying effect.

6. The utility model provides an adopt the mode that is connected feed chamber and a humidification mechanism among the two-way extrusion formula cement comminuted drying device for the humidity of feed intracavity material can be guaranteed, also can avoid the problem that intensity of labour is big that artifical humidification leads to.

7. The utility model provides an adopt among the two-way extrusion formula cement material crushing and drying device to extrude the mode that the export evenly set up on the lower part in extrusion chamber is global for the ejection of compact direction of material is only in the face of the feed end of stoving transmission mechanism, has not only guaranteed the effective collection of material like this, still makes the material can fall down fast under the effect of self gravity, has guaranteed the collection efficiency of material.

Drawings

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

FIG. 1 is a schematic view of the overall structure of the bidirectional extrusion type cement material crushing, drying and stirring device of the present invention;

the device comprises a feeding cavity, a raw material inlet, a raw material outlet, a 4-extrusion cavity, a 5-hydraulic cylinder, a pressurizing part, a 7-extrusion material inlet, an 8-extrusion material outlet, a 9-drying transmission mechanism, a 10-drying cavity, a 11-first heating device, a 12-left extrusion roller, a 13-right extrusion roller, a 14-heating cavity, a 15-hot air generating cavity, a 16-blower, a 17-second heating device, a 18-discharging cavity, a 19-output shaft, a 20-output driving motor, a 21-stirring component, a 22-vibration screening unit, a 23-inverted cone-shaped collecting hopper, a 24-V-shaped material separating plate and a 25-humidifying mechanism, wherein the feeding cavity is arranged at the bottom of the feeding cavity, the raw material inlet, the raw material outlet, the raw material.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

An object of the utility model is to prior art's defect with not enough, provide a smash effectual, the good two-way extrusion formula cement comminuted dry agitating unit of drying effect.

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.

As shown in figure 1, the utility model provides a two-way extrusion type cement material crushing, drying and stirring device, which comprises a feeding unit, a first crushing unit, a first drying unit, a second crushing unit, a second drying unit and a discharging unit which are connected in sequence, wherein the feeding unit comprises a feeding cavity 1, a raw material inlet 2 and a raw material outlet 3 which are arranged in the feeding cavity 1, the first crushing unit comprises an extrusion cavity 4 and a pressurizing component which is arranged in the extrusion cavity 4 relatively, the pressurizing component comprises a hydraulic cylinder 5 and a pressurizing part 6 which is connected with an expansion link of the hydraulic cylinder 5, the outer circumferential surface of the pressurizing part 6 is matched with the inner circumferential surface of the extrusion cavity 4, a sealing ring is arranged on the outer circumferential surface of the pressurizing part 6, an extrusion material inlet 7 and a plurality of extrusion material outlets 8 are arranged on the extrusion cavity 4, the plurality of extrusion material outlets 8 are arranged between the two extrusion material inlets 7 which are arranged relatively, when the two pressurizing parts 6 move oppositely, the peripheral surface of the pressurizing part 6 blocks the extrusion material inlet 7, the extrusion material inlet 7 stops feeding to the extrusion cavity 4, when the two pressurizing parts 6 move reversely, the peripheral surface of the pressurizing part 6 is separated from the extrusion material inlet 7, and the extrusion material inlet 7 starts feeding to the extrusion cavity 4; the first drying unit comprises a drying transmission mechanism 9 and a drying mechanism, the drying mechanism comprises a drying cavity 10 and a first heating device 11 arranged on the inner wall of the drying cavity 10, the feeding end of the drying transmission mechanism 9 is positioned below a material extrusion outlet, the blanking end of the drying transmission mechanism 9 penetrates through the drying cavity 10, the second crushing unit comprises a left extrusion roller 12 and a right extrusion roller 13 which are symmetrically arranged at intervals, an extrusion gap between the left extrusion roller 12 and the right extrusion roller 13 is positioned below the blanking end of the drying transmission mechanism 9, the second drying unit comprises a heating cavity 14 with two open ends and a hot air generating cavity 15 communicated with the side wall of the heating cavity 14, the upper end opening of the heating cavity 14 is positioned below the extrusion gap between the left extrusion roller 12 and the right extrusion roller 13, a blower 16 and a second heating device 17 are sequentially arranged in the hot air generating cavity 15 from outside to inside, the discharging unit comprises a discharging cavity 18 and an output shaft 19 which is arranged in the discharging cavity 18 and provided with a helical blade, a feeding hole of the discharging cavity 18 is communicated with a lower end opening of the heating cavity 14, two ends of the output shaft 19 are respectively rotatably arranged on the discharging cavity 18, and one end of the output shaft 19 is connected with an output driving motor 20.

The hydraulic cylinder 5, the output driving motor 20, the first heating device 11 and the second heating device 17 are all conventional devices in the prior art, so that specific limitation is not required, and specific operations of starting and closing can be found in the prior art by corresponding mature technologies, such as automatic opening or manual opening, and the skilled person can easily understand the devices, so that specific disclosure is not required; the words such as arrangement and connection between the components described in the present invention do not limit the specific connection manner, and only need to be able to achieve the connection purpose and operate after connection, and there are many fixed connection or movable connection manners in the prior art, so there is no specific disclosure and limitation; the size of the material extrusion outlet is specifically limited according to the actual working condition, and the material extrusion outlet can be square, diamond or circular, preferably circular; all the components in the utility model can be arranged on one frame, or can be fixed on the ground through different frames according to specific conditions, and the specific fixing position and the fixing mode are not particularly limited; the pressurizing part 6 is a cylindrical plate with a certain thickness; the working process is as follows: the method comprises the following steps that (1) water-containing materials (sprayed in the materials) are manually or by a material lifter and are filled into a material supply cavity 1 through a material inlet 2, the materials flow out of the material supply cavity 1 through two material outlets 3 and enter an extrusion cavity 4 through corresponding material extrusion inlets, the materials move towards the material extrusion outlets under the pushing action of two hydraulic cylinders 5 and two pressing parts 6 which are oppositely arranged, and the materials are extruded out of the extrusion cavity 4 in a strip shape under the action of the pushing force, wherein when the two pressing parts 6 move oppositely, the outer peripheral surface of each pressing part 6 blocks an extrusion material inlet 7, the extrusion material inlets 7 stop feeding to the extrusion cavity 4, and when the two pressing parts 6 move reversely, the outer peripheral surface of each pressing part 6 is separated from the extrusion material inlets 7, and the extrusion material inlets 7 start feeding to the extrusion cavity 4; the strip-shaped material falls on a drying transmission mechanism 9, the drying transmission mechanism 9 drives the material to enter a drying cavity 10, a first heating device 11 in the drying cavity 10 (the first heating device 11 is hot air heating or electromagnetic induction heating or thermal radiation heating in the prior art, the setting position and the setting quantity of the first heating device 11 can be changed according to actual conditions) dries the strip-shaped material, after the drying is finished, the material falls into an extrusion gap between a left extrusion roller 12 and a right extrusion roller 13, the left and right extrusion rollers 13 perform secondary extrusion crushing on the material in motion, the crushed material enters a heating cavity 14, a hot air generation cavity 15 inputs hot air in the heating cavity 14 to perform secondary drying on the material, the material enters a discharge cavity 18 and is sent out of the discharge cavity 18 under the action of an output shaft 19 with a helical blade, the crushing of the material is finished, Drying and outputting.

In order to improve the mixing uniformity of materials, the stirring assembly 21 is arranged in the feeding cavity 1, the stirring assembly 21 comprises a stirring motor and a stirring shaft which are connected, the stirring motor is fixedly arranged outside the shell of the feeding cavity 1, one end of the stirring shaft, which is provided with stirring blades, is positioned in the feeding cavity 1, and the other end of the stirring shaft is connected with an output shaft 19 of the stirring motor; the mode that the stirring assembly 21 is arranged in the feeding cavity 1 is adopted, so that the materials can be stirred once in the feeding cavity 1, the problem that the materials are not completely mixed in the extrusion cavity 4 is solved, and the material mixing effect is improved.

In the utility model, a plurality of material extrusion outlets are uniformly arranged on the circumferential surface of the lower part of the extrusion cavity 4; the mode that the material extrusion outlets are uniformly arranged on the circumferential surface of the lower part of the extrusion cavity 4 is adopted, so that the material discharging direction of the material only faces the feeding end of the drying and conveying mechanism 9, the effective collection of the material is guaranteed, the material can fall rapidly under the action of self gravity, and the collection efficiency of the material is guaranteed.

The utility model discloses well stoving transmission device 9 is connected with the drive roll including transmission driving motor, drive roll, driven voller and conveyer belt, transmission driving motor, and the conveyer belt setting is on drive roll and driven voller, and wherein, stoving transmission device 9 exists transmission device among the prior art, just does the change of adaptability to its structure volume.

In the utility model, a vibration screening unit 22 is arranged between the first drying unit and the second crushing unit, the vibration screening unit 22 comprises a screening component and a vibration component, the screening component comprises a screen surface and chutes for the screen surface to slide and be symmetrically arranged, the screen surface is arranged below the blanking end of the drying transmission mechanism 9, reset elastic parts are arranged in the chutes, one ends of the reset elastic parts are connected with the chutes, the other ends of the reset elastic parts are connected with the screen surface, the vibration component comprises a vibration motor and a cam connected with a rotating shaft of the vibration motor, and the cam and the reset elastic parts jointly push the screen surface to reciprocate in the chutes; adopt the mode that is provided with vibration screening unit 22 between first stoving unit and the crushing unit of second promptly for the material after the stoving accomplishes screening work in the vibration dispersion, not only makes the material that gets into the crushing unit of second more even, has still avoided having great impurity influence squeeze roll life's problem in the material.

In the utility model, an inverted cone-shaped aggregate hopper 23 is arranged below the screen surface, an aggregate outlet is arranged at the conical bottom of the inverted cone-shaped aggregate hopper 23, and the aggregate outlet is positioned above the extrusion gap between the left extrusion roller and the right extrusion roller; adopt the mode that is provided with back taper collecting hopper 23 below the sifter promptly, avoided because the sifter leads to the material to accurately fall into the problem in extrusion clearance when great for the material after the screening can fall into the extrusion clearance with the mode that collects in, improved the crushing validity and the crushing efficiency of material.

The utility model discloses well left squeeze roll 12 and/or right squeeze roll 13 are connected with driving motor, and when unilateral drive extrusion, left squeeze roll 12 or right squeeze roll 13 are connected with driving motor, and when two side drives extrusion, left squeeze roll 12 and right squeeze roll 13 are connected with driving motor respectively.

In order to improve the drying effect of hot-blast to the material in the heating cavity 14, the utility model discloses well heating cavity 14's both sides all are provided with hot-blast formation cavity 15, and are further, the end slope of giving vent to anger that hot-blast formation cavity 15 upwards sets up.

In order to further improve the drying effect, a V-shaped material separating plate 24 is arranged in the heating cavity 14, and the position of the V-shaped material separating plate is higher than the position of the connecting part of the hot air generating cavity 15 and the heating cavity 14; adopt the mode that is provided with V type branch flitch in heating chamber 14 promptly for the material is shunt drying in heating chamber 14, has avoided the material to collect and has leaded to the poor problem of drying effect, and V type divides the fan-shaped surface of flitch 24 simultaneously, makes the dispersion more of the in-process of material whereabouts, has further improved drying effect.

The feeding cavity 1 of the utility model is connected with a humidifying mechanism 25; namely, the mode of connecting the feeding cavity 1 with a humidifying mechanism 25 is adopted, so that the humidity of the material in the feeding cavity 1 is ensured, and the problem of high labor intensity caused by manual humidification can be avoided; wherein the humidifying mechanism 25 is the existing equipment in the prior art, such as water pumping and sprinkling work of a water supply pump and a spray head.

The utility model discloses a concrete example is applied to explain the principle and the implementation mode of the utility model, and the explanation of the above example is only used to help understand the method and the core idea of the utility model; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the concrete implementation and the application scope. In summary, the content of the present specification should not be construed as a limitation of the present invention.

Claims (10)

1. A bidirectional extrusion type cement material crushing, drying and stirring device is characterized by comprising a feeding unit, a first crushing unit, a first drying unit, a second crushing unit, a second drying unit and a discharging unit which are connected in sequence, wherein the feeding unit comprises a feeding cavity, a raw material inlet and a raw material outlet which are arranged in the feeding cavity, the first crushing unit comprises an extrusion cavity and a pressurizing assembly which is oppositely arranged in the extrusion cavity, the pressurizing assembly comprises a hydraulic cylinder and a pressurizing part connected with an expansion link of the hydraulic cylinder, the outer peripheral surface of the pressurizing part is matched with the inner peripheral surface of the extrusion cavity, a sealing ring is arranged on the outer peripheral surface of the pressurizing part, an extrusion material inlet and a plurality of extrusion material outlets are arranged on the extrusion cavity, and the plurality of extrusion material outlets are arranged between the two extrusion material inlets which are oppositely arranged, when the two pressing parts move in opposite directions, the outer peripheral surface of the pressing part plugs the extrusion material inlet, the extrusion material inlet stops feeding materials to the extrusion cavity, when the two pressing parts move in opposite directions, the outer peripheral surface of the pressing part is separated from the extrusion material inlet, and the extrusion material inlet starts feeding materials to the extrusion cavity; the first drying unit comprises a drying transmission mechanism and a drying mechanism, the drying mechanism comprises a drying cavity and a first heating device arranged on the inner wall of the drying cavity, the feeding end of the drying transmission mechanism is positioned below the outlet of the extrusion material, the blanking end of the drying transmission mechanism penetrates through the drying cavity, the second crushing unit comprises a left extrusion roller and a right extrusion roller which are symmetrically arranged at intervals, the extrusion gap between the left extrusion roller and the right extrusion roller is positioned below the blanking end of the drying transmission mechanism, the second drying unit comprises a heating cavity with two open ends and a hot air generating cavity communicated with the side wall of the heating cavity, the upper end opening of the heating cavity is positioned below the extrusion gap between the left extrusion roller and the right extrusion roller, and a blower and a second heating device are sequentially arranged in the hot air generating cavity from outside to inside, the discharging unit comprises a discharging cavity and an output shaft which is arranged in the discharging cavity and provided with a helical blade, a feeding hole of the discharging cavity is communicated with an opening at the lower end of the heating cavity, two ends of the output shaft are rotatably arranged on the discharging cavity respectively, and one end of the output shaft is connected with an output driving motor.

2. The bidirectional extrusion type cement material crushing, drying and stirring device according to claim 1, wherein a stirring assembly is arranged in the feeding cavity, the stirring assembly comprises a stirring motor and a stirring shaft which are connected, the stirring motor is fixedly arranged on the outer side of the shell of the feeding cavity, one end of the stirring shaft, which is provided with stirring blades, is located in the feeding cavity, and the other end of the stirring shaft is connected with an output shaft of the stirring motor.

3. The bidirectional extrusion type cement material crushing, drying and stirring device as claimed in claim 1, wherein the extrusion material outlets are uniformly arranged on the lower peripheral surface of the extrusion chamber.

4. The bidirectional extrusion type cement material crushing, drying and stirring device as claimed in claim 1, wherein the drying and conveying mechanism comprises a conveying driving motor, a driving roller, a driven roller and a conveying belt, the conveying driving motor is connected with the driving roller, and the conveying belt is arranged on the driving roller and the driven roller.

5. The bidirectional extrusion type cement material crushing, drying and stirring device according to claim 1, wherein a vibration screening unit is arranged between the first drying unit and the second crushing unit, the vibration screening unit comprises a screening component and a vibration component, the screening component comprises a screen surface and sliding grooves for the screen surface to slide and symmetrically arranged, the screen surface is located below a blanking end of the drying and transmission mechanism, a reset elastic part is arranged in the sliding grooves, one end of the reset elastic part is connected with the sliding grooves, the other end of the reset elastic part is connected with the screen surface, the vibration component comprises a vibration motor and a cam connected with a rotating shaft of the vibration motor, and the cam and the reset elastic part jointly push the screen surface to reciprocate in the sliding grooves.

6. The bidirectional extrusion type cement material crushing, drying and stirring device as claimed in claim 1 or 5, wherein an inverted cone-shaped aggregate bin is arranged below a blanking end of the drying and conveying mechanism, an aggregate outlet is arranged at the conical bottom of the inverted cone-shaped aggregate bin, and the aggregate outlet is positioned above an extrusion gap between the left extrusion roller and the right extrusion roller.

7. The bidirectional extrusion type cement material crushing, drying and stirring device as claimed in claim 1, wherein the left extrusion roller and/or the right extrusion roller are/is connected with a driving motor, when the left extrusion roller and/or the right extrusion roller are/is driven and extruded on one side, the left extrusion roller and the right extrusion roller are/is connected with the driving motor, and when the left extrusion roller and the right extrusion roller are driven and extruded on two sides, the left extrusion roller and the right extrusion roller are/is connected with the driving motor.

8. The bidirectional extrusion type cement material crushing, drying and stirring device as claimed in claim 1, wherein the hot air generating chambers are arranged on both sides of the heating chamber, and the air outlet ends of the hot air generating chambers are arranged obliquely upwards.

9. The bidirectional extrusion type cement material crushing, drying and stirring device as claimed in claim 8, wherein a V-shaped material distributing plate is arranged in the heating chamber, and the position of the V-shaped material distributing plate is higher than the position of the connection between the hot air generating chamber and the heating chamber.

10. The bidirectional extrusion type cement material crushing, drying and stirring device as claimed in claim 1, wherein a humidifying mechanism is arranged in the feeding cavity.

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