CN112476776A

CN112476776A - Fiber concrete preparation system of processing

Info

Publication number: CN112476776A
Application number: CN202011344346.5A
Authority: CN
Inventors: 丁小巧
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-26
Filing date: 2020-11-26
Publication date: 2021-03-12

Abstract

The invention relates to a fiber concrete preparation and processing system which comprises an installation substrate, a crushing external member and a stirring external member, wherein the crushing external member and the stirring external member are sequentially arranged on the installation substrate from top to bottom; the crushing kit comprises a supporting column, a crushing box, a fixed side plate, a rotating pressure plate, a blocking plate, an extrusion block, an eccentric rotating column, a driving rod, a driven gear, a transmission toothed belt and a first motor, and can solve the following problems in the production and preparation of the existing fiber concrete: a: when the existing fiber concrete is prepared, massive broken stone particles are often stored in the fiber concrete, so that the quality of the fiber concrete is influenced; b: when the existing fiber concrete is produced, due to the precedence of the chrysotile powder and the cement, the condition that the fiber concrete is not uniformly stirred can often occur, and therefore the condition that the fiber raw materials are not uniformly doped can often occur in the produced fiber concrete, and the quality of the fiber concrete is influenced.

Description

Fiber concrete preparation system of processing

Technical Field

The invention relates to the technical field of concrete preparation, in particular to a fiber concrete preparation and processing system.

Background

The fiber concrete is a general name of composite materials consisting of fibers and cement base materials (cement stone, mortar or concrete), and the main defects of the cement stone, the mortar and the concrete are as follows: the fiber concrete has the main varieties of asbestos concrete, steel fiber concrete, glass fiber concrete, polypropylene fiber concrete, carbon fiber concrete, plant fiber concrete and high-elastic-modulus synthetic fiber concrete, wherein the fiber concrete usually needs the steps of equipment inspection, manual feeding, fiber crushing, material stirring and the like when being prepared.

The existing fiber concrete has the following problems in production and preparation: a: when the existing fiber concrete is prepared, massive broken stone particles are often stored in the fiber concrete, so that the quality of the fiber concrete is influenced; b: when the existing fiber concrete is produced, due to the precedence of the chrysotile powder and the cement, the condition that the fiber concrete is not uniformly stirred can often occur, and therefore the condition that the fiber raw materials are not uniformly doped can often occur in the produced fiber concrete, and the quality of the fiber concrete is influenced.

Disclosure of Invention

In order to solve the problems, the invention provides a fiber concrete preparation and processing system which can solve the problems of the fiber concrete during production and preparation.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: the utility model provides a fibre concrete preparation system of processing, includes mounting substrate, broken external member and stirring external member, has set gradually broken external member and stirring external member from the top down on the mounting substrate.

The crushing kit comprises a supporting column, a crushing box, a fixed side plate, a rotating pressing plate, a blocking plate, an extrusion block, an eccentric rotating column, a driving rod, a driven gear, a transmission toothed belt and a motor, wherein the supporting column is installed on the lower end surface of an installation base plate in a welding mode, the crushing box is installed on the installation base plate, the fixed side plate is installed at the central position of the crushing box in a bolt connection mode, the rotating pressing plates are symmetrically arranged on the outer sides of the fixed side plates and are installed on the crushing box in a rotating connection mode, a spring is connected between the rotating pressing plates and the crushing box, the blocking plate is installed on the lower end surface of the rotating pressing plate, the extrusion block is installed on the rotating pressing plate in a rotating connection mode, the extrusion block is installed on the inner wall of the crushing box in a rotating connection mode, the spring is connected between the extrusion block and the installation base plate, eccentric rotary column fixed mounting is on the actuating lever, the actuating lever is installed on broken case through the mode of rotating the connection, fixed mounting has driven gear on the actuating lever, driven gear outside cover has the transmission cingulum that mutually supports and use, the output shaft of actuating lever and a motor is in the same place, a motor passes through the motor cabinet and installs on broken case outer wall, in operation, the manual work is poured into to broken case from the both sides of fixed sideboard respectively with broken warm asbestos piece of stone and cement of needs, later a motor work, it rotates to drive the actuating lever, thereby it follows the actuating lever and rotates to drive eccentric rotary column through driven gear and transmission cingulum effect, thereby drive extrusion piece extrusion rotating pressure plate, make the continuous extrusion fixed sideboard of rotating pressure plate, thereby reach the purpose of broken warm asbestos piece and bold cement.

The fixed side plate is fixedly provided with an extrusion convex plate, the extrusion convex plate is of a wave structure, a matching pressing plate which is matched with each other for use is arranged on the outer side of the extrusion convex plate, the matching pressing plate is fixedly arranged on the rotating pressing plate, the lower end face of the fixed side plate is symmetrically provided with a shoveling plate through a bolt connection mode, the shoveling plate is evenly provided with an arc-shaped groove A, and the inner wall of the arc-shaped groove A is provided with a material ejecting elastic plate through a spring connection mode.

The stirring kit comprises a guide seat, a stirring barrel, a stirring frame, a second motor, a sliding stop block and a discharging inclined tube, wherein the guide seat is fixedly arranged on the lower end face of the mounting base plate, the guide plate is connected with the lower end of the crushing box, the stirring barrel is connected with the lower end of the guide seat, the stirring frame is arranged in the stirring barrel and is fixedly arranged on an output shaft of the second motor, the second motor is arranged on the outer wall of the stirring barrel through the motor seat, the sliding stop block is arranged on the stirring barrel in a sliding connection mode, the upper end of the sliding stop block is abutted against the discharging inclined tube, the discharging inclined tube is arranged on the outer wall of the stirring barrel in a sliding connection mode, when the stirring kit works, a chrysotile cotton block and cement which are treated by the crushing kit enter the guide seat, the second motor works to drive the guide seat to secondarily extrude a mixture of chrysotile powder and cement, and the mixture generated after, wherein the stirring frame stirs the mixture because of No. two motor effects to reach the purpose of fibre concrete stirring, later the manual work is pressed and is arranged the pipe chute, makes row material pipe chute and agitator link together with slide damper, and the inside mixture of agitator enters into in collecting the bag through arranging the material pipe chute, thereby reaches the purpose that fibre concrete collected.

As a preferable technical scheme of the invention, the interception plate is uniformly provided with blanking through holes B, and the aperture of the blanking through holes B is gradually increased from top to bottom.

As a preferred technical scheme, the extrusion block comprises an arc-shaped plate, a sliding plate, a bearing rotating rod and a pushing rod, the arc-shaped plate abuts against an eccentric rotating column, the sliding plate is fixedly mounted at the lower end of the arc-shaped plate and is mounted on the inner wall of the crushing box in a sliding connection mode, a spring is connected between the sliding plate and the crushing box, the bearing rotating rod is mounted on the sliding plate in a rotating connection mode, the pushing rod is uniformly mounted on the bearing rotating rod, and the pushing rod is connected with the rotating pressing plate in a rotating connection mode.

The stirring frame includes threaded rod, drive post, sliding pressure plate, fixed slide bar and stirring board, the output shaft of threaded rod and No. two motors is in the same place, fixed mounting has the drive post on the threaded rod, above-mentioned threaded rod surface is provided with twice screw thread in opposite directions, sliding pressure plate is installed through threaded connection's mode symmetry on the threaded rod, sliding pressure plate passes through sliding connection's mode and installs on fixed slide bar, fixed slide bar fixed mounting is on the agitator inner wall, stir the board through evenly installing on the threaded rod, stir and evenly seted up through-hole C on the board.

As a preferred technical scheme of the invention, a circular truncated cone-shaped through groove D is formed in the flow guide seat, a discharging base is arranged on the flow guide seat, discharging holes E are uniformly formed in the discharging base, an eccentric rotary table is arranged on the discharging base in a rotary connection mode, a conical column is arranged on the eccentric rotary table, and the lower end of the eccentric rotary table is connected with a driving column.

Compared with the prior art, the invention has the following advantages:

1. the invention can solve the following problems in the production and preparation of the existing fiber concrete: a: when the existing fiber concrete is prepared, massive broken stone particles are often stored in the fiber concrete, so that the quality of the fiber concrete is influenced; b: when the existing fiber concrete is produced, due to the precedence of the chrysotile powder and the cement, the condition that the fiber concrete is not uniformly stirred can often occur, and therefore the condition that the fiber raw materials are not uniformly doped can often occur in the produced fiber concrete, and the quality of the fiber concrete is influenced.

2. According to the invention, the diversion seat is designed, the chrysotile fragments and cement processed by the crushing kit fall into the circular through groove D in the diversion seat for primary mixing, then the eccentric turntable on the diversion seat moves along with the driving column, so that the chrysotile fragments and cement are subjected to secondary crushing treatment, the qualified chrysotile fragments and cement enter the stirring barrel through the discharge hole E on the discharge base, the purpose of secondary extrusion of the chrysotile fragments and cement is realized, the occurrence of large chrysotile fragments and cement residues is greatly avoided, and the quality of fiber concrete is improved.

3. According to the invention, the crushing kit is designed, two feed inlets are arranged on the crushing box, the warm asbestos blocks and cement to be crushed are poured into the crushing box from two sides of the fixed side plate respectively by manpower, so that the mixture of the cement and the warm asbestos powder entering the stirring kit is more uniform, the condition that the mixture is not uniformly stirred due to the accumulation of the materials added firstly in the stirring kit when the materials are sequentially fed is avoided, meanwhile, when the materials enter the stirring barrel, the stirring frame rotates along with the second motor to drive the threaded rod to rotate, so that the sliding pressure plates are driven to oppositely move on the threaded rod through the thread matching effect, the mixture of the cement and the warm asbestos in the stirring barrel is stirred, the purpose of changing the position of the sliding pressure plates is achieved by controlling the forward and backward rotation of the second motor, when the threaded rod rotates, the stirring board on the threaded rod stirs the garrulous end of the inside chrysotile of churn and the mixture of cement, and the effect makes the garrulous end of the inside chrysotile of agitator and the mixture of cement mix more evenly through-hole C simultaneously, has improved mixed effect.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a front view of the structural schematic of the present invention;

FIG. 3 is a schematic cross-sectional view A-A of FIG. 2 of the present invention;

FIG. 4 is a schematic cross-sectional view B-B of FIG. 2 of the present invention;

FIG. 5 is a schematic structural view of a scraper plate of the present invention;

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 5, a fiber concrete preparation and processing system includes a mounting substrate 1, a crushing kit 2 and a stirring kit 3, wherein the crushing kit 2 and the stirring kit 3 are sequentially disposed on the mounting substrate 1 from top to bottom.

The crushing kit 2 comprises a supporting column 21, a crushing box 22, a fixed side plate 23, a rotating pressing plate 24, a blocking plate 25, an extrusion block 26, an eccentric rotating column 27, a driving rod 28, a driven gear 29, a transmission toothed belt 20 and a motor, wherein the supporting column 21 is installed on the lower end face of an installation base plate 1 in a welding mode, the crushing box 22 is installed on the installation base plate 1, the fixed side plate 23 is installed at the central position of the crushing box 22 in a bolt connection mode, the rotating pressing plates 24 are symmetrically arranged on the outer sides of the fixed side plate 23, the rotating pressing plates 24 are installed on the crushing box 22 in a rotating connection mode, a spring is connected between the rotating pressing plate 24 and the crushing box 22, the blocking plate 25 is installed on the lower end face of the rotating pressing plate 24, the extrusion block 26 is installed on the rotating pressing plate 24 in a rotating connection mode, and the extrusion block 26 is installed on the inner wall, a spring is connected between the extrusion block 26 and the mounting substrate 1, the upper end of the extrusion block 26 is abutted against an eccentric rotary column 27, the eccentric rotary column 27 is fixedly mounted on a driving rod 28, the driving rod 28 is mounted on a crushing box 22 in a rotating connection mode, a driven gear 29 is fixedly mounted on the driving rod 28, a transmission toothed belt 20 which is mutually matched for use is sleeved outside the driven gear 29, the driving rod 28 is connected with an output shaft of a motor I, the motor I is mounted on the outer wall of the crushing box 22 through a motor base, during specific work, a rock wool block and cement which need to be crushed are manually poured into the crushing box 22 from two sides of a fixed edge plate 23 respectively, the motor I works to drive the driving rod 28 to rotate, so that the eccentric rotary column 27 is driven to rotate along with the driving rod 28 through the action of the driven gear 29 and the transmission toothed belt 20, and the extrusion block 26 is driven to, make the continuous fixed sideboard 23 of extrusion of rotating the clamp plate 24, thereby reach the purpose of broken chrysotile piece and bold cement, and block board 25 can block unqualified bold cement and chrysotile garrulous end, and act on through rotating briquetting 23 and fixed sideboard 23, extrude once more, thereby avoided bold cement and chrysotile garrulous end to get into the condition emergence of a stirring external member 3 inside, when carrying out the material and adding simultaneously, required material adds from the both ends of fixed sideboard 23 simultaneously, thereby make the mixture that gets into a stirring external member 3 inside cement and chrysotile garrulous end more even, when having avoided material loading in proper order, the material that adds earlier is in stirring external member 3 inside appearance pile up and then lead to stirring inhomogeneous condition to take place.

The fixed side plate 23 is fixedly provided with an extrusion convex plate 231, the extrusion convex plate 231 is of a wave structure, the outer side of the extrusion convex plate 231 is provided with a matched pressing plate 232 which is matched with the extrusion convex plate for use, the matched pressing plate 232 is fixedly arranged on the rotating pressing plate 24, the lower end surface of the fixed side plate 23 is symmetrically provided with a shoveling plate 233 through a bolt connection mode, the shoveling plate 233 is uniformly provided with an arc-shaped groove A, the inner wall of the arc-shaped groove A is provided with a material ejecting elastic plate 234 through a spring connection mode, when the rotating pressing plate 23 extrudes the fixed side plate 23 due to the action of the extrusion block, the matched pressing plate 232 on the rotating pressing plate and the extrusion convex plate 231 on the fixed side plate 23 are engaged in a staggered mode, so that the purpose of crushing the warm asbestos blocks and the large cement blocks is achieved, materials which meet the size requirement after being crushed enter the stirring kit 3 through the interception plate 23, and the materials with unqua, unqualified materials are produced from the interception plate 25 under the action of the shoveling plate 233, the situation that the blanking through hole B is blocked by the unqualified materials is avoided, and then the fixed side plate 23 is continuously extruded through the rotary pressing plate 24, so that the purpose of crushing the warm asbestos blocks and the large cement blocks is achieved.

Blanking through holes B are uniformly formed in the interception plate 25, the aperture of each blanking through hole B is gradually increased from top to bottom, and during specific work, the situation that large waste cannot be shoveled out by the shoveling plate 233 after large fragments block the blanking through holes B due to the fact that the aperture of each blanking through hole B in the interception plate 25 is gradually increased from top to bottom is greatly avoided.

The extrusion block 26 comprises an arc plate 261, a sliding plate 262, a bearing rotating rod 263 and a pushing rod 264, the arc plate 261 abuts against the eccentric rotating column 27, the sliding plate 262 is fixedly installed at the lower end of the arc plate 261, the sliding plate 262 is installed on the inner wall of the crushing box 22 in a sliding connection mode, a spring is connected between the sliding plate 262 and the crushing box 22, the bearing rotating rod 263 is installed on the sliding plate 262 in a rotating connection mode, the pushing rod 264 is evenly installed on the bearing rotating rod 263, the pushing rod 264 is connected with the rotating pressing plate 24 in a rotating connection mode, during specific work, the arc-shaped block 261 drives the sliding plate 262 to slide on the inner wall of the crushing box 22 due to the extrusion action of the eccentric rotary column 27, thereby making the push rod 264 move and pushing the rotary pressing plate 24 outwards, thereby achieving the purpose of driving the rotary pressing plate 24 to extrude and fix the side plate 23 and further achieving the purpose of crushing the warm asbestos blocks and the large cement blocks.

The stirring external member 3 comprises a guide seat 31, a stirring barrel 32, a stirring frame 33, a second motor, a sliding block 34 and a discharge inclined tube 35, the guide seat 31 is fixedly arranged on the lower end face of the mounting base plate 1, the guide plate is connected with the lower end of the crushing box 22, the stirring barrel 32 is connected with the lower end of the guide seat 31, the stirring frame 33 is arranged in the stirring barrel 32, the stirring frame 33 is fixedly arranged on an output shaft of the second motor, the second motor is arranged on the outer wall of the stirring barrel 32 through a motor seat, the sliding block 34 is arranged on the stirring barrel 32 in a sliding connection mode, the discharge inclined tube 35 is arranged at the upper end of the sliding block 34 in a propping mode, the discharge inclined tube 35 is arranged on the outer wall of the stirring barrel 32 in a sliding connection mode, during specific work, chrysotile powder and cement processed by the crushing external member 2 enter the guide seat 31, the second motor works to drive the guide seat, carry out the secondary extrusion to the broken end of the inside chrysotile of water conservancy diversion seat 31 and cement, very big avoid the existence of bold chrysotile piece and bold cement, the broken end of chrysotile after the secondary crushing and cement get into agitator 32 in, agitator 33 follows No. two motors and rotates, thereby reach the purpose that the broken end of chrysotile and cement are very close, accomplish the back that mixes, the manual work is pressed and is arranged material pipe chute 35, it is ejecting with slip dog 34, later through the effect of agitator 33, arrange the inside mixture of agitator 32 into to arranging in the material pipe chute 35, thereby reach the purpose that the material was collected.

The stirring frame 33 comprises a threaded rod 331, a driving column 332, a sliding pressure plate 333, a fixed sliding rod 334 and a stirring plate 335, the threaded rod 331 is connected with an output shaft of a second motor, the driving column 332 is fixedly installed on the threaded rod 331, two opposite threads are arranged on the surface of the threaded rod 331, the sliding pressure plate 333 is symmetrically installed on the threaded rod 331 in a threaded connection mode, the sliding pressure plate 333 is installed on the fixed sliding rod 334 in a sliding connection mode, the fixed sliding rod 334 is fixedly installed on the inner wall of the stirring barrel 32, the stirring plate 335 is evenly installed on the threaded rod 331 through the stirring plate 335, through holes C are evenly formed in the stirring plate 335, when the stirring frame 33 works, when the stirring frame 33 rotates along with the second motor, the threaded rod 331 is driven to rotate, the sliding pressure plate 333 is driven to move on the threaded rod 331 in opposite directions through a thread fit effect, and the purpose of stirring the mixture of cement, and reach the purpose that changes sliding pressure plate 333 position through the positive and negative rotation of control No. two motors, when threaded rod 331 rotated, stirring board 335 on the threaded rod 331 stirred the inside broken asbestos powder of churn 32 and the mixture of cement, through the effect of through-hole C simultaneously, the position of the inside material of continuous stirring churn 32 for the mixture of the broken asbestos powder of the inside chrysotile of churn 32 and cement mixes more evenly, has improved the mixed effect.

The guide seat 31 is internally provided with a circular truncated cone-shaped through groove D, the guide seat 31 is provided with a discharge base 311, the discharge base 311 is uniformly provided with discharge holes E, the discharge base 311 is provided with an eccentric turntable 312 in a rotating connection mode, the eccentric turntable 312 is provided with a conical column 313, the lower end of the eccentric turntable 27 is connected with a driving column 332, when the device works in detail, the chrysotile powder and cement processed by the crushing kit 2 fall into the circular through groove D in the guide seat 31 to be mixed initially, then the eccentric turntable 312 on the guide seat 31 moves along with the driving column 332, so that the chrysotile powder and cement are crushed secondarily, the qualified chrysotile powder and cement enter a stirring barrel 32 through the discharge holes E on the discharge base 311, the secondary extrusion of the chrysotile powder and cement is realized, and the occurrence of massive chrysotile powder and cement residue is greatly avoided, the quality of the fiber concrete is improved.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A fiber concrete prepares system of processing, includes mounting substrate (1), broken external member (2) and stirring external member (3), its characterized in that: the mounting base plate (1) is sequentially provided with a crushing sleeve (2) and a stirring sleeve (3) from top to bottom;

the crushing kit (2) comprises a supporting column (21), a crushing box (22), a fixed side plate (23), a rotating pressing plate (24), a blocking plate (25), an extrusion block (26), an eccentric rotating column (27), a driving rod (28), a driven gear (29), a transmission toothed belt (20) and a motor, wherein the supporting column (21) is installed on the lower end face of an installation base plate (1) in a welding mode, the crushing box (22) is installed on the installation base plate (1), the fixed side plate (23) is installed at the central position of the crushing box (22) in a bolt connection mode, the rotating pressing plate (24) is symmetrically arranged on the outer side of the fixed side plate (23), the rotating pressing plate (24) is installed on the crushing box (22) in a rotating connection mode, a spring is connected between the rotating pressing plate (24) and the crushing box (22), the blocking plate (25) is installed on the lower end face of the rotating pressing plate (24), the rotary pressing plate (24) is provided with an extrusion block (26) in a rotary connection mode, the extrusion block (26) is arranged on the inner wall of the crushing box (22) in a rotary connection mode, a spring is connected between the extrusion block (26) and the mounting base plate (1), the upper end of the extrusion block (26) abuts against an eccentric rotary column (27), the eccentric rotary column (27) is fixedly arranged on a driving rod (28), the driving rod (28) is arranged on the crushing box (22) in a rotary connection mode, a driven gear (29) is fixedly arranged on the driving rod (28), a transmission toothed belt (20) which is matched with each other for use is sleeved on the outer side of the driven gear (29), the driving rod (28) is connected with an output shaft of a motor, and the motor is arranged on the outer wall of the crushing box (22) through a motor base;

the extrusion convex plate (231) is fixedly installed on the fixed side plate (23), the extrusion convex plate (231) is of a wave-shaped structure, a matched pressing plate (232) which is matched with the extrusion convex plate (231) for use is arranged on the outer side of the extrusion convex plate (231), the matched pressing plate (232) is fixedly installed on the rotating pressing plate (24), shoveling plates (233) are symmetrically installed on the lower end face of the fixed side plate (23) in a bolt connection mode, arc-shaped grooves A are uniformly formed in the shoveling plates (233), and ejection elastic plates (234) are installed on the inner walls of the arc-shaped grooves A in a spring connection mode;

stirring external member (3) are including water conservancy diversion seat (31), agitator (32), stirring frame (33), No. two motors, slip dog (34) and row material pipe chute (35), on water conservancy diversion seat (31) fixed mounting base plate (1) terminal surface down, and the lower extreme of guide plate and broken case (22) links together, water conservancy diversion seat (31) lower extreme is connected with agitator (32), agitator (32) inside is provided with stirring frame (33), stirring frame (33) fixed mounting is on the output shaft of No. two motors, No. two motors pass through the motor cabinet and install on agitator (32) outer wall, slip dog (34) is installed through sliding connection's mode on agitator (32), slip dog (34) upper end is provided with to lean on there is row material pipe chute (35), row material pipe chute (35) are installed on agitator (32) outer wall through sliding connection's mode.

2. The fiber concrete preparation and processing system of claim 1, wherein: blanking through holes B are uniformly formed in the interception plate (25), and the aperture of each blanking through hole B is gradually increased from top to bottom.

3. The fiber concrete preparation and processing system of claim 1, wherein: the extrusion block (26) comprises an arc plate (261), a sliding plate (262), a bearing rotating rod (263) and a push rod (264), the arc plate (261) is abutted against the eccentric rotating column (27), the sliding plate (262) is fixedly installed at the lower end of the arc plate (261), the sliding plate (262) is installed on the inner wall of the crushing box (22) in a sliding connection mode, a spring is connected between the sliding plate (262) and the crushing box (22), the bearing rotating rod (263) is installed on the sliding plate (262) in a rotating connection mode, the push rod (264) is evenly installed on the bearing rotating rod (263), and the push rod (264) is connected with the rotating pressing plate (24) in a rotating connection mode.

4. The fiber concrete preparation and processing system of claim 1, wherein: stirring frame (33) are including threaded rod (331), drive post (332), sliding plate (333), fixed slide bar (334) and mix board (335), the output shaft of threaded rod (331) and No. two motors is in the same place, fixed mounting has drive post (332) on threaded rod (331), above-mentioned threaded rod (331) surface is provided with two opposite screw threads, sliding plate (333) are installed through threaded connection's mode symmetry on threaded rod (331), sliding plate (333) are installed on fixed slide bar (334) through sliding connection's mode, fixed slide bar (334) fixed mounting is on agitator (32) inner wall, stirring board (335) is installed through evenly on threaded rod (331), through-hole C has evenly been seted up on stirring board (335).

5. The fiber concrete preparation and processing system of claim 4, wherein: the novel material discharging device is characterized in that a circular truncated cone-shaped through groove D is formed in the flow guide seat (31), a material discharging base (311) is installed on the flow guide seat (31), material discharging holes E are evenly formed in the material discharging base (311), an eccentric turntable (312) is installed on the material discharging base (311) in a rotating connection mode, a conical column (313) is installed on the eccentric turntable (312), and the lower end of the eccentric turntable (27) is connected with a driving column (332).