CN113789699B - High-performance regenerated asphalt concrete processing complete equipment - Google Patents

Abstract

The invention discloses a high-performance regenerated asphalt concrete processing complete equipment, which comprises a primary mixing device, wherein the side end position of the primary mixing device is communicated with a processing mixing device, one end of the bottom position of the processing mixing device is communicated with a first primary filtering device, the other end of the bottom position of the processing mixing device is communicated with a second primary filtering device, the primary mixing device comprises a mixing structure and a communicating structure, the communicating structure is arranged at the bottom position of the inner end of the primary mixing device, the upper end position of the communicating structure is communicated with the mixing structure, the mixing structure comprises a first motor, a cover plate frame, a second motor, a sleeve frame and a reaction kettle, the first motor is arranged at the top position of the inner end of the mixing structure, and the lower end of the first motor is communicated with the cover plate frame. The invention relates to complete equipment for processing high-performance recycled asphalt concrete, which achieves the aim of preliminary mixing at the inner end through the arrangement of a preliminary mixing device.

Description

High-performance regenerated asphalt concrete processing complete equipment

Technical Field

The invention relates to the technical field of asphalt concrete equipment, in particular to high-performance regenerated asphalt concrete processing complete equipment.

Background

According to chinese patent number CN211571323U, the utility model belongs to the technical field of pitch processing equipment, specifically a high performance regeneration pitch mixes earth processing complete sets, including the device main part, waste asphalt regenerant pump, old asphalt mixture breaker and urceolus, the bottom opposite side fixedly connected with waste asphalt regenerant pump of device main part, one side fixedly connected with old asphalt mixture breaker of waste asphalt regenerant pump, top one side swing joint of old asphalt mixture breaker has the conveyer belt, the bottom fixedly connected with feed inlet of conveyer belt, the feed inlet sets up in the bottom of conveyer belt, make old pitch can fall in the middle of the feed inlet, then open the motor of feed inlet bottom, stir old pitch through stirring the peripheral epitaxial edge of turning round, the solid-state mobility of old pitch has been increased, so that old pitch can smooth through the feed inlet, consequently, through anti-blocking mechanism, the condition that the feed inlet takes place to block up has been avoided, the work efficiency of device main part has been promoted.

The invention relates to a production device, in particular to a mineral powder production device for a traffic road asphalt and muddy soil pavement layer according to Chinese patent number CN 106938212A. The invention aims to solve the technical problem of providing the mineral powder production device for the traffic road asphalt and muddy soil pavement layer, which is convenient to add ores and can crush ores in multiple directions. In order to solve the technical problems, the invention provides a mineral powder production device for a road surface layer of asphalt and cement soil of a traffic road, which comprises a grinding box, a first bearing seat, a first rotating rod, a crushing rod, a first filter screen, a driving mechanism and the like; the upper, lower, left and right sides of the upper parts of the left wall and the right wall of the grinding box are respectively connected with first bearing seats, and the number of the first bearing seats is 4. The invention is provided with the driving mechanism, and the purpose of thoroughly crushing ores can be realized by controlling the motor to rotate so as to enable the first rotating rods on the upper side and the lower side to continuously rotate in opposite directions and in opposite directions alternately.

The high-performance recycled asphalt concrete processing complete equipment can help to carry out complete processing work of the high-performance recycled asphalt concrete, the quality of the recycled asphalt concrete can be improved through the setting of the high-performance recycled asphalt concrete processing complete equipment, the control work of the quality is carried out from the source, the screening work of the inner end is convenient to carry out, the high-performance recycled asphalt concrete with qualified quality is produced and processed, thereby the aim of controlling the whole quality is realized, the production grade of the recycled asphalt concrete is improved, and the rapid inspection is facilitated through the setting of the high-performance recycled asphalt concrete processing complete equipment, the productivity is improved, the follow-up interference is not caused, the collaborative inspection transmission work is realized, the rapid erection and use are convenient, but the following problems still exist in the current high-performance recycled asphalt concrete processing complete equipment:

the phenomenon that the inner ends are inconvenient to carry out complete set matching can cause certain operation inconvenience, and meanwhile, the phenomenon that the inner ends are inconvenient to carry out multiple mixing and stirring production exists, so that improvement is needed.

Disclosure of Invention

The invention aims to provide high-performance recycled asphalt concrete processing complete equipment so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the high-performance regenerated asphalt concrete processing complete equipment comprises a primary mixing device, wherein a processing mixing device is communicated with the side end position of the primary mixing device, one end of the bottom position of the processing mixing device is communicated with a first primary filtering device, and the other end of the bottom position of the processing mixing device is communicated with a second primary filtering device;

the primary mixing device comprises a mixing structure and a communicating structure, the communicating structure is arranged at the bottom of the inner end of the primary mixing device, and the upper end of the communicating structure is communicated with the mixing structure;

the mixing structure comprises a first motor, a cover plate frame, a second motor, a sleeve column frame and a reaction kettle, wherein the first motor is arranged at the top position of the inner end of the mixing structure, the lower end of the first motor is communicated with the cover plate frame, the lower end of the cover plate frame is closed with the reaction kettle, the sleeve column frame is arranged at the side end of the reaction kettle, and the second motor is arranged at the top position of the sleeve column frame;

the communication structure comprises a treatment pump, an installation stabilizing frame, a communication pipe orifice, a communication pipeline, a storage disc and a communication vertical pipe, wherein the communication pipeline is arranged at the bottom position of the inner end of the communication structure, one end of the communication pipeline is communicated with the storage disc, the upper end position of the storage disc is communicated with the communication pipe orifice, the side end of the communication pipe orifice is positioned on the storage disc and is fixedly connected with the installation stabilizing frame, the side end position of the storage disc is communicated with the communication vertical pipe, and the treatment pump is arranged at the top position of the communication vertical pipe;

the processing mixing device comprises a reaction structure and a conduction structure, wherein the reaction structure is arranged at the top of the inner end of the processing mixing device, and the lower end of the reaction structure is communicated with the conduction structure;

the reaction structure comprises a third motor, a sleeve disc top frame and a reaction treatment barrel, the reaction treatment barrel is arranged at the bottom of the inner end of the reaction structure, the upper end of the reaction structure is fixedly connected with the sleeve disc top frame, and the third motor is arranged at the top of the sleeve disc top frame;

the reaction structure further comprises a rotating frame, a stable sleeve disc frame, a connecting surrounding disc and a rotating plug frame, wherein the rotating plug frame is rotationally connected to the bottom end position of the sleeve disc top frame, the lower end position of the rotating plug frame is fixedly connected with the rotating frame, the bottom position of the rotating frame is fixedly connected with the stable sleeve disc frame, and the bottom position of the stable sleeve disc frame is fixedly connected with the connecting surrounding disc;

the conducting structure comprises a conducting port, a communicating main pipe and communicating branch pipes, the communicating main pipe is arranged at the center position of the inner end of the conducting structure, the side end position of the communicating main pipe is communicated with the communicating branch pipes, and the top position of the communicating main pipe is communicated with the conducting port;

the utility model discloses a filter screen, including first preliminary filtration device, first preliminary filtration device is including filter screen frame, communicating pipe end, transmission guide slot, arc division board and rotation roller frame, the transmission guide slot is established in first preliminary filtration device's inner bottom, the upper end of transmission guide slot is equipped with the arc division board, the top position rotation of arc division board is connected with the rotation roller frame, the side position of rotation roller frame is fixed connection with filter screen frame, the side position of arc division board is linked together with communicating pipe end.

Preferably, the communicating pipe end is communicated with the side end position of the communicating branch pipe.

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

1. through installing preliminary mixing arrangement, preliminary stirring work can be carried out to preliminary mixing arrangement's inner for regeneration melts pitch and mixes earth and can carry out built-in stirring, carries out abundant stirring and breaks up work, and can carry out the addition work of admixture, conveniently carries out built-in the joining, helps the mixing stirring operation of inner, realizes pitch and mixes the regeneration function of earth.

2. Through installing processing mixing arrangement, processing mixing arrangement can carry out the remixing again, realizes the dropwise add of additive and mixes, helps carrying out the remixing of inner, realizes the joining of multistage formula, helps improving the efficiency of reaction, realizes the control function on the flow, through installing first preliminary filter equipment and second preliminary filter equipment, first preliminary filter equipment and second preliminary filter equipment can help carrying out subsequent preliminary screening filtration, conveniently carries out the accuse of quality, realizes the intercommunication of subsequent process.

3. Through installation connection transmission band and firm mount pad, connection transmission band and firm mount pad establish the side position at the arc division board, through control, realize filterable function, and connect the transmission band and discharge filterable filter residue, realize mechanized integrative operation, firm mount pad help to connect the bearing support work of transmission band, conveniently carry out the inner erection joint of first preliminary filter equipment.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed for the description of 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 that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the main structure of the present invention;

FIG. 2 is a schematic view of the primary mixing device of the present invention;

FIG. 3 is a schematic structural view of a hybrid structure of the present invention;

FIG. 4 is a schematic structural view of a communication structure according to the present invention;

FIG. 5 is a schematic view of a process mixing device according to the present invention;

FIG. 6 is a schematic structural view of the reaction structure of the present invention;

FIG. 7 is a schematic diagram of a resolution structure of the reaction structure of the present invention;

FIG. 8 is a schematic diagram of a conductive structure of the present invention;

FIG. 9 is a schematic view of the structure of the first preliminary filtering device of the present invention;

FIG. 10 is a schematic view showing the structure of a second embodiment of the first preliminary filtering device of the present invention.

In the figure: 1-a primary mixing device; 2-processing and mixing device; 3-a first preliminary filtration device; 4-a second preliminary filtration device; 5-mixing structure; 6-communication structure; 7-a first motor; 8-a cover plate frame; 9-a second motor; 10-a sleeve column frame; 11-a reaction kettle; 12-a treatment pump; 13-installing a steady frame; 14-connecting the pipe orifice; 15-communicating pipes; 16-a storage disk; 17-connecting a vertical pipe; 18-reaction structure; 19-conductive structures; 20-a third motor; 21-a tray top frame; 22-a reaction treatment barrel; 23-rotating frame; 24-firmly sleeving a tray frame; 25-connect surrounding disks; 26-rotating the plug holder; 27-a conductive port; 28-connecting a main pipe; 29-communicating branch pipes; 30-filtering net rack; 31-communicating the pipe end; 32-a transport chute; 33-arc-shaped partition plates; 34-rotating the roller housing; 35-connecting a transmission belt; 36-a stable mount.

Detailed Description

In order to make the present application solution better understood by those skilled in the art, the following description will be made in detail and with reference to the accompanying drawings in the embodiments of the present application, it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, shall fall within the scope of the present application.

It should be noted that the terms "first," "second," and the like in the description and claims of the present application and in the above-described figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate in order to describe the embodiments of the present application described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The invention is further described below with reference to the accompanying drawings.

Example 1

The utility model provides a high performance regeneration asphalt concrete processing complete sets, as shown in figure 1, includes preliminary mixing device 1, and preliminary mixing device 1's side end position communicates has processing mixing device 2, and processing mixing device 2's bottom position one end communicates has first preliminary filtration device 3, and processing mixing device 2's bottom position other end communicates has second preliminary filtration device 4;

as shown in fig. 2, the primary mixing device 1 comprises a mixing structure 5 and a communicating structure 6, wherein the communicating structure 6 is arranged at the bottom position of the inner end of the primary mixing device 1, and the upper end position of the communicating structure 6 is communicated with the mixing structure 5;

as shown in fig. 3, the mixing structure 5 comprises a first motor 7, a cover plate frame 8, a second motor 9, a sleeve column frame 10 and a reaction kettle 11, wherein the first motor 7 is arranged at the top position of the inner end of the mixing structure 5, the lower end of the first motor 7 is communicated with the cover plate frame 8, the lower end position of the cover plate frame 8 is closed with the reaction kettle 11, the sleeve column frame 10 is arranged at the side end position of the reaction kettle 11, and the second motor 9 is arranged at the top position of the sleeve column frame 10;

as shown in fig. 4, the communication structure 6 comprises a treatment pump 12, a mounting stabilizing frame 13, a communication pipe orifice 14, a communication pipe 15, a storage disk 16 and a communication vertical pipe 17, wherein the communication pipe 15 is arranged at the bottom position of the inner end of the communication structure 6, one end of the communication pipe 15 is communicated with the storage disk 16, the upper end position of the storage disk 16 is communicated with the communication pipe orifice 14, the side end of the communication pipe orifice 14 is fixedly connected with the mounting stabilizing frame 13 on the storage disk 16, the side end position of the storage disk 16 is communicated with the communication vertical pipe 17, and the treatment pump 12 is mounted at the top position of the communication vertical pipe 17;

as shown in fig. 5, the processing and mixing device 2 comprises a reaction structure 18 and a conducting structure 19, wherein the reaction structure 18 is arranged at the top position of the inner end of the processing and mixing device 2, and the lower end of the reaction structure 18 is communicated with the conducting structure 19;

as shown in fig. 6, the reaction structure 18 includes a third motor 20, a tray top frame 21 and a reaction processing barrel 22, the reaction processing barrel 22 is disposed at the bottom of the inner end of the reaction structure 18, the upper end of the reaction structure 18 is fixedly connected with the tray top frame 21, and the third motor 20 is mounted at the top position of the tray top frame 21;

as shown in fig. 7, the reaction structure 18 further includes a rotating frame 23, a stable disk sleeving frame 24, a connection surrounding disk 25 and a rotating plug frame 26, wherein the rotating plug frame 26 is rotatably connected at the bottom end position of the disk sleeving top frame 21, the lower end position of the rotating plug frame 26 is fixedly connected with the rotating frame 23, the bottom position of the rotating frame 23 is fixedly connected with the stable disk sleeving frame 24, and the bottom position of the stable disk sleeving frame 24 is fixedly connected with the connection surrounding disk 25;

as shown in fig. 8, the conductive structure 19 includes a conductive port 27, a communication manifold 28 and a communication branch 29, the communication manifold 28 is provided at the center of the inner end of the conductive structure 19, the side end position of the communication manifold 28 is provided in communication with the communication branch 29, and the top position of the communication manifold 28 is provided in communication with the conductive port 27;

as shown in fig. 9, the first preliminary filtration device 3 includes a filter screen frame 30, a communicating pipe end 31, a transmission guide groove 32, an arc-shaped partition plate 33 and a rotating roller frame 34, the transmission guide groove 32 is provided at the bottom of the inner end of the first preliminary filtration device 3, the arc-shaped partition plate 33 is provided at the upper end of the transmission guide groove 32, the rotating roller frame 34 is connected at the top position of the arc-shaped partition plate 33, the side end position of the rotating roller frame 34 is fixedly connected with the filter screen frame 30, and the side end position of the arc-shaped partition plate 33 is communicated with the communicating pipe end 31.

The communicating pipe end 31 is communicated with the side end position of the communicating branch pipe 29, the upper end position of the conducting port 27 is communicated with the bottom of the reaction treatment barrel 22, the communicating pipe orifice 14 is communicated with the bottom position of the reaction kettle 11, the communicating structure 6 is communicated with the outside through the communicating pipe 15, the storage disc 16 is provided with a valve body at the connecting position of the communicating vertical pipe 17, the third motor 20 drives the rotating frame 23, the stable sleeve disc frame 24, the connecting encircling disc 25 and the rotating plug frame 26 to rotate and connect the inner end of the reaction treatment barrel 22, the sleeve disc top frame 21 is communicated with the communicating vertical pipe 17 through the top position, and the installation stable frame 13 is fixedly spliced with the bottom position of the reaction kettle 11.

When the device is used, a user firstly assembles and communicates the primary mixing device 1, the processing mixing device 2 and the first primary filtering device 3, communicates with the outside through the communication pipeline 15, places the outside heated and melted asphalt concrete into the device, closes the valve body between the storage disc 16 and the communication vertical pipe 17, the melted asphalt concrete reaches the position of the communication pipe orifice 14 through the storage disc 16, communicates with the reaction kettle 11, adds the additive, starts the first motor 7 and the second motor 9, drives the stirring part of the inner end through the first motor 7 and the second motor 9 to perform stirring movement, realizes the mixing treatment of the inner end, simultaneously enables the inner end to perform full stirring refinement, then opens the valve body, and the reacted asphalt concrete passes through the action of the treatment pump 12, the mixture is conducted to the position of a communicating vertical pipe 17, the mixture reaches the inner end of a sleeve tray top frame 21 through the communicating vertical pipe 17, the lower end of the sleeve tray top frame 21 reaches the position of a reaction treatment barrel 22 through a channel, additive is continuously dripped, a third motor 20 is started at the moment, a rotating plug frame 26 is driven to rotate through the third motor 20, a rotating frame 23 with the bottom end fixed, a stable sleeve tray frame 24 and a connecting surrounding tray 25 move along, stirring and mixing of the inner end are realized, the reaction treatment of the inner end is assisted, reacted asphalt concrete reaches the position of a communicating main pipe 28 through a conducting port 27, the reacted asphalt concrete is conducted to a communicating branch pipe 29 through the communicating main pipe 28 and then is communicated with a communicating pipe end 31, a filter screen body is placed on a filter screen frame 30, the position of the filter screen frame 30 is regulated through a rotating roller frame 34, and the filter work is carried out through the filter screen frame 30 and the filter screen body, the filtered asphalt concrete reaches the position of the transmission guide groove 32 through the arc-shaped separation plate 33, and is subjected to external communication setting through the transmission guide groove 32, so that the processing production is finished.

Example 2

On the basis of embodiment 1, as shown in fig. 10, the first preliminary filtration device 3 further includes a connection transmission belt 35 and a stable mount 36, the stable mount 36 is fixedly connected at a side end position of the arc-shaped partition plate 33, and a connection transmission belt 35 is rotatably connected at an upper end position of the stable mount 36.

When the filter cartridge is used, the fixing connection is performed between the fixing mounting seat 36 and the side end position of the arc-shaped partition plate 33 through the arrangement of the connecting transmission belt 35 and the fixing mounting seat 36, the connecting transmission belt 35 is mounted on the upper end face of the fixing mounting seat 36, the driving piece at the rear end is started, the connecting transmission belt 35 is driven to rotate, and filter residues at the upper end of the connecting transmission belt 35 can be discharged through the connecting transmission belt 35.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (1)

1. The utility model provides a high performance regeneration asphalt mixes earth processing complete sets, includes preliminary mixing arrangement (1), its characterized in that: the side end position of the primary mixing device (1) is communicated with a processing mixing device (2); one end of the bottom of the processing and mixing device (2) is communicated with a first preliminary filtering device (3), and the other end of the bottom of the processing and mixing device (2) is communicated with a second preliminary filtering device (4);

the primary mixing device (1) comprises a mixing structure (5) and a communicating structure (6), wherein the communicating structure (6) is arranged at the bottom position of the inner end of the primary mixing device (1), and the upper end position of the communicating structure (6) is communicated with the mixing structure (5);

the mixing structure (5) comprises a first motor (7), a cover plate frame (8), a second motor (9), a sleeve column frame (10) and a reaction kettle (11), wherein the first motor (7) is arranged at the top position of the inner end of the mixing structure (5), the lower end of the first motor (7) is communicated with the cover plate frame (8), the lower end position of the cover plate frame (8) is closed with the reaction kettle (11), the sleeve column frame (10) is arranged at the side end position of the reaction kettle (11), and the second motor (9) is arranged at the top position of the sleeve column frame (10);

the communication structure (6) comprises a treatment pump (12), an installation stabilizing frame (13), a communication pipe orifice (14), a communication pipeline (15), a storage disc (16) and a communication vertical pipe (17), wherein the communication pipeline (15) is arranged at the bottom position of the inner end of the communication structure (6), one end of the communication pipeline (15) is communicated with the storage disc (16), the upper end position of the storage disc (16) is communicated with the communication pipe orifice (14), the side end of the communication pipe orifice (14) is positioned on the storage disc (16) and fixedly connected with the installation stabilizing frame (13), the side end position of the storage disc (16) is communicated with the communication vertical pipe (17), and the treatment pump (12) is installed at the top position of the communication vertical pipe (17);

the processing mixing device (2) comprises a reaction structure (18) and a conducting structure (19), wherein the reaction structure (18) is arranged at the top of the inner end of the processing mixing device (2), and the lower end of the reaction structure (18) is communicated with the conducting structure (19);

the reaction structure (18) comprises a third motor (20), a sleeve disc top frame (21) and a reaction treatment barrel (22), the reaction treatment barrel (22) is arranged at the bottom of the inner end of the reaction structure (18), the upper end position of the reaction structure (18) is fixedly connected with the sleeve disc top frame (21), and the third motor (20) is arranged at the top position of the sleeve disc top frame (21); the reaction structure (18) further comprises a rotating frame (23), a stable tray sleeving frame (24), a connecting surrounding tray (25) and a rotating plug frame (26), wherein the rotating plug frame (26) is rotationally connected to the bottom end position of the tray sleeving top frame (21), the lower end position of the rotating plug frame (26) is fixedly connected with the rotating frame (23), the bottom position of the rotating frame (23) is fixedly connected with the stable tray sleeving frame (24), and the bottom position of the stable tray sleeving frame (24) is fixedly connected with the connecting surrounding tray (25);

the conducting structure (19) comprises a conducting port (27), a communicating main pipe (28) and communicating branch pipes (29), the communicating main pipe (28) is arranged at the center position of the inner end of the conducting structure (19), the side end position of the communicating main pipe (28) is communicated with the communicating branch pipes (29), and the top position of the communicating main pipe (28) is communicated with the conducting port (27);

the first preliminary filtering device (3) comprises a filter screen frame (30), a communicating pipeline end (31), a transmission guide groove (32), an arc-shaped partition plate (33) and a rotating roller frame (34), wherein the transmission guide groove (32) is arranged at the bottom of the inner end of the first preliminary filtering device (3), the arc-shaped partition plate (33) is arranged at the upper end of the transmission guide groove (32), the rotating roller frame (34) is rotationally connected to the top position of the arc-shaped partition plate (33), the side end position of the rotating roller frame (34) is fixedly connected with the filter screen frame (30), and the side end position of the arc-shaped partition plate (33) is communicated with the communicating pipeline end (31); the communicating pipe end (31) is communicated with the side end position of the communicating branch pipe (29);

the upper end position of the conduction port (27) is communicated with the bottom of the reaction treatment barrel (22);

the communicating pipe orifice (14) is communicated with the bottom of the reaction kettle (11);

the communication structure (6) is communicated with the outside through a communication pipeline (15);

the first preliminary filtering device (3) further comprises a connecting transmission belt (35) and a stable installation seat (36), the stable installation seat (36) is fixedly connected to the side end position of the arc-shaped partition plate (33), and the upper end position of the stable installation seat (36) is rotatably connected with the connecting transmission belt (35);

when in use, a user firstly assembles and communicates the primary mixing device (1), the processing mixing device (2) and the first primary filtering device (3), communicates with the outside through a communication pipeline (15), places the outside heated and melted asphalt concrete into the tank, closes a valve body between a storage disc (16) and a communication vertical pipe (17), the melted asphalt concrete reaches the position of a communication pipe orifice (14) through the storage disc (16) and communicates with a reaction kettle (11), at this time, an additive is added, a first motor (7) and a second motor (9) are started, a stirring part at the inner end is driven to perform stirring motion through the first motor (7) and the second motor (9), the inner end can be simultaneously made to perform sufficient stirring refinement, then a valve body is started, the reacted asphalt concrete is conducted to the position of the communication vertical pipe (17), reaches the inner end of a sleeve top frame (21) through the communication vertical pipe (17), the lower end of the sleeve top frame (21) reaches the position of a reaction processing barrel (22) through a channel, the third motor (24) is driven to continue to rotate and the sleeve top frame (20) is driven to move along with a third motor (25), the third motor (20) is driven to rotate, the third motor (20) is driven to continue to rotate, and the third motor (25) is driven to move, realize the stirring mixing of inner, help carrying out the reaction treatment of inner, the pitch that reacts mixes earth and reachs intercommunication house steward (28) position department through conductive port (27), on leading pipe (28) conduction to intercommunication branch pipe (29), afterwards be linked together with communicating pipe end (31), put the filter screen body on filter screen frame (30), carry out the regulation in filter screen frame (30) position through rotating roller frame (34), make and filter work through filter screen frame (30) and filter screen body, pitch that filters mixes earth and reachs transmission guide slot (32) position department through arc division board (33), carry out external intercommunication setting through transmission guide slot (32), accomplish processing production.