CN111941639B

CN111941639B - Integrated efficient concrete production equipment

Info

Publication number: CN111941639B
Application number: CN202010728337.XA
Authority: CN
Inventors: 赵闯
Original assignee: Jiangsu Shengdafei Building Materials Co ltd
Current assignee: Jiangsu Shengdafei Building Materials Co ltd
Priority date: 2020-07-24
Filing date: 2020-07-24
Publication date: 2021-07-20
Anticipated expiration: 2040-07-24
Also published as: CN111941639A

Abstract

The application relates to the technical field of concrete production equipment, in particular to integrated efficient concrete production equipment which comprises a rack, a mixer and an integrated frame, wherein the mixer and the integrated frame are arranged on the rack; the batching mechanism includes along the vertical direction of integrated frame from last to down set gradually be used for screening the screening subassembly of grit, be used for saving the storage subassembly of grit and be used for weighing the subassembly of weighing of grit, promotes the discharge gate of subassembly and is linked together with the feed inlet of screening subassembly, is provided with the stirring subassembly on the integrated frame, and the stirring subassembly is located the below of weighing the subassembly. All parts in the batching mechanism in this application all set up along the vertical direction of integrated frame for top-down's that the grit can be quick transport, better improvement holistic transport efficiency, thereby improved production efficiency, and prevent a large amount of raise dusts from appearing.

Description

Integrated efficient concrete production equipment

Technical Field

The invention relates to the technical field of concrete production equipment, in particular to integrated efficient concrete production equipment.

Background

Concrete is a generic term for engineering composites where aggregates are cemented into a whole by cementitious materials. The term concrete generally refers to cement as the cementing material and sand and stone as the aggregate; the cement concrete, also called as common concrete, is obtained by mixing with water (which may contain additives and admixtures) according to a certain proportion and stirring, and is widely applied to civil engineering. The asphalt concrete is commonly called asphalt concrete, and is a mixture prepared by manually selecting mineral aggregate with a certain gradation composition, broken stone or crushed gravel, stone chips or sand, mineral powder and the like, and mixing the mineral aggregate, the broken stone or crushed gravel, the stone chips or sand, the mineral powder and a certain proportion of road asphalt material under strictly controlled conditions.

At present, the chinese patent application with publication number CN109352830A specifically discloses a concrete mixing plant and a control system for controlling the concrete mixing plant, wherein the concrete mixing plant comprises a batching station for supplying aggregate, a first conveyor for conveying aggregate, a powder tank for storing powder, and a mixing device for mixing, one end of the first conveyor is arranged below the batching station, the other end of the first conveyor is arranged on the mixing device, and the powder tank is connected with the mixing device; the control system comprises a main control module and a switch module which is connected with the main control module and used for controlling the concrete mixing plant to be turned on or turned off, and the switch module is respectively connected with the batching plant, the first conveyor, the powder tank and the mixing equipment. The concrete is prepared by the aggregate in the preparation process by the batching station, and the aggregate is conveyed to the stirring equipment through the first conveyor after batching, and meanwhile, the powder tank conveys the powder to the stirring equipment.

With respect to the related art in the above-mentioned comparison document, the inventors consider that the following drawbacks exist: at the in-process of batching, need batching station and first conveyer to the aggregate batching and carry, batching and transmission course all need consume more time to directly expose in the air at the in-process aggregate of batching and transmission, the powder also directly contacts with the air in the pan feeding, consequently the transmission of aggregate and powder all can lead to the raise dust, consequently concrete production system among the above-mentioned technical scheme still can produce a large amount of raise dusts when efficient.

Disclosure of Invention

In order to improve concrete mixing's production efficiency and reduce the raise dust in the production process, this application provides an integrated form high efficiency concrete production facility.

The application provides an integrated form high efficiency concrete production facility adopts following technical scheme:

an integrated efficient concrete production device comprises a rack, a mixer and an integrated frame, wherein the mixer and the integrated frame are arranged on the rack, a lifting machine is arranged on the integrated frame, a discharge port of the mixer is communicated with a feed port of the lifting machine, and a batching mechanism is arranged on the integrated frame;

batching mechanism includes along the vertical direction of integrated frame from last to down set gradually be used for screening the grit the screening subassembly, be used for the storage subassembly of storage grit and be used for the subassembly of weighing the grit, hoist mechanism's discharge gate is linked together with the feed inlet of screening subassembly, be provided with the stirring subassembly on the integrated frame, the stirring subassembly is located the below of the subassembly of weighing.

Through adopting above-mentioned technical scheme, the frame is used for bearing and installing the blendor, the blendor is used for heating former raw material and reclaimed materials, integrated frame is used for installing dosing mechanism, the lifting machine is arranged in promoting the material to screening components, screening components is arranged in sieving native material, so that sieve into the grit of the different particle diameters of multiclass with the raw materials, storage components is used for the grit that the storage sieved, so that can quick utilization when needs production asphalt concrete and commodity concrete. The weighing assembly is used for weighing the raw materials so as to enable the raw materials to be more accurately dispensed. The stirring assembly is used for containing raw materials, asphalt and other materials. All parts in the batching mechanism all set up along the vertical direction of integrated frame for the top-down's that the grit can be quick transport, better improvement holistic conveying efficiency, thereby improved production efficiency. And the raw materials after the blendor heating directly enters into the lifting machine, the lifting machine can transport the raw materials to batching mechanism in, when the lifting machine transports the material, the material can not be large-area and external contact, consequently can not make the material produce a large amount of raise dusts when conveying the material, and batching mechanism sets up in vertical direction, the material is conveying, the in-process of weighing and stirring is less with external contact, consequently the difficult phenomenon that takes place a large amount of raise dusts in the in-process of concrete production.

Preferably, be provided with powder collection mechanism on the integrated frame, powder collection mechanism is including setting up the go-between in dosing mechanism, the collecting ring that is located the go-between below, the fender curtain of being connected with the collecting ring and set up the collecting pipe way that is linked together in collecting ring below and with the collecting ring, the go-between is connected with dosing mechanism with the collecting ring, the fender curtain sets up between go-between and collecting ring, just the upper end and the go-between fixed connection of fender curtain, the lower extreme and the collecting ring fixed connection of fender curtain, fixedly connected with powder in the frame keeps in a section of thick bamboo, the pipeline that gathers materials is linked together with the powder and keeps in a section of thick bamboo.

Through adopting above-mentioned technical scheme, when batching mechanism transmitted concrete raw materials, the check apron between go-between and the collecting ring can play spacing effect to the powder, consequently when the raise dust phenomenon takes place for the powder, the check apron can carry on spacingly to the powder, consequently the raise dust can not spread in the air, can reduce the raise dust. And the raise dust can deposit on the collector ring, and the powder can be lasting enter into the collection pipeline and the powder section of thick bamboo of keeping in, can retrieve the powder and collect, prevents that a large amount of dusts from diffusing in the air.

Preferably, the powder collecting mechanisms are arranged in two groups, one group of the powder collecting mechanisms is arranged between the storage component and the bearing component, and the other group of the powder collecting mechanisms is arranged between the bearing component and the stirring component.

Through adopting above-mentioned technical scheme, ejection of compact subassembly and bearing component and the powder between bearing component and the stirring subassembly is collected the mechanism and can be comparatively comprehensive collect the raise dust, at the in-process of concrete raw materials transmission, is difficult to produce a large amount of raise dusts, consequently can improve the environment of concrete mixing processing.

Preferably, a powder cleaning mechanism corresponding to the powder collecting mechanism is arranged on the integrated frame, the powder cleaning mechanism comprises a cleaning assembly connected with the batching mechanism, the batching mechanism is movably connected with a connecting rod, the cleaning assembly comprises a cleaning rod connected with the connecting rod and a limiting plate fixedly connected with the cleaning rod, the cleaning rod is connected with the curtain through a spring, one end of the spring is fixedly connected with the cleaning rod, and the other end of the spring is fixedly connected with the curtain; the powder cleaning mechanism further comprises a driving assembly for driving the cleaning rod to slide.

Through adopting above-mentioned technical scheme, after the powder was collected the mechanism and has collected more dust, can make the clearance pole swing, can drive the spring at clearance pole wobbling in-process to the spring can drive the check apron, when the check apron takes place to rock, can shake off the powder of adhesion on the check apron, consequently can collect the utilization to the powder, reduces the dust and takes place a large amount of accumulations' phenomenon.

Preferably, the one end that the connecting rod is close to the clearance pole articulates there is solid fixed ring, gu fixed ring slides the cover and establishes on the clearance pole.

Through adopting above-mentioned technical scheme, the clearance pole can slide in the fixed ring to when the clearance pole removes, also can take place to rock between solid fixed ring and the connecting rod, can reduce the limiting displacement to the clearance pole when rocking, thereby it is bigger to make its range of rocking when driving the stop curtain and rock, consequently can effectually collect the dust.

Preferably, be connected with the fixed plate on the batching mechanism, drive assembly include with the fixed plate rotate the swivel becket be connected and with swivel becket fixed connection's first magnet, the one end that the clearance pole is close to the swivel becket articulates there is the second magnet.

Through adopting above-mentioned technical scheme, the swivel becket can rotate on the fixed plate, can drive first magnet in the time of the pivoted and rotate, first magnet pivoted in-process can link with second magnet, and second magnet drives the clearance pole and removes, can drive the check curtain production when the clearance pole removes and rock to the adhesion can be along with rocking the whereabouts on the check curtain, consequently can carry out comprehensive collection to the dust, avoids the dust to spread in the air.

Preferably, the driving assembly further comprises a driving motor fixedly connected with the batching mechanism, a driving gear connected with the output end of the driving motor and a driven gear ring meshed with the driving gear, and the driven gear ring is coaxially and fixedly connected with the rotating ring.

Through adopting above-mentioned technical scheme, when clearing up the dust on the check apron, start driving motor, driving motor drives the driving gear and rotates, the driving gear meshing drives driven gear when the pivoted rotates, driven gear can drive the swivel becket when the pivoted and rotate, the swivel becket can drive first magnet synchronous rotation in the pivoted, can drive the clearance pole at the pivoted in-process and rock, and can be abundant shake off the dust of adhesion on the check apron, advance comprehensive collection to the dust.

Preferably, the check apron all sets up to dismantle with go-between and collecting ring and is connected, all be provided with coupling assembling between check apron and the go-between and between check apron and the collecting ring, coupling assembling includes the first magnetic stripe with go-between and collecting ring fixed connection and sets up the second magnetic stripe on the check apron, the annular has all been seted up on go-between and the collecting ring, first magnetic stripe inlays to be established in the annular.

Through adopting above-mentioned technical scheme, when need overhaul or maintain concrete production facility, can dismantle the check curtain with go-between and collecting ring, after dismantling, conveniently overhaul and maintain batching mechanism to make the check curtain link together with go-between and collecting ring through first magnetic stripe and second magnetic stripe, make the junction closely laminate, consequently can further prevent that the dust from diffusing to the outside air.

In summary, the present application includes at least one of the following beneficial technical effects:

1. all parts in the batching mechanism are arranged along the vertical direction of the integrated frame, so that the sand and stones can be quickly conveyed from top to bottom, the integral conveying efficiency is better improved, and the production efficiency is improved;

2. when the elevator conveys materials, the materials cannot be in large-area contact with the outside, so that a large amount of dust can not be generated when the materials are conveyed, and the batching mechanism is arranged in the vertical direction, so that the materials are less in contact with the outside in the processes of conveying, weighing and stirring, and the phenomenon of a large amount of dust is not easy to occur in the concrete production process;

3. the powder collecting mechanism can collect the raise dust in the concrete production process, can prevent a large amount of dust from diffusing into the air, and can intercept the raise dust, so that the environmental protection property in the concrete production process can be ensured.

Drawings

FIG. 1 is a schematic view showing the overall construction of a concrete production facility;

FIG. 2 is a schematic view of a partial structure in a concrete production facility;

FIG. 3 is a schematic sectional perspective view showing the powder collecting mechanism and the powder cleaning mechanism in a highlighted manner;

FIG. 4 is an enlarged view of the structure of portion A of FIG. 3;

fig. 5 is an enlarged schematic view of the structure of part B in fig. 3.

Description of reference numerals: 1. a frame; 2. a mixer; 3. an integration frame; 4. a hoist; 5. a batching mechanism; 51. a screen assembly; 52. a material storage assembly; 53. a weighing assembly; 6. a stirring assembly; 7. a powder collecting mechanism; 71. a connecting ring; 72. a collection ring; 73. a curtain; 74. a material collecting pipeline; 8. a powder temporary storage cylinder; 9. an induced draft fan; 10. a connecting assembly; 101. a first magnetic stripe; 102. a second magnetic stripe; 12. a powder cleaning mechanism; 121. cleaning the assembly; 1211. cleaning the rod; 1212. a limiting plate; 122. a drive assembly; 1221. a rotating ring; 1222. a first magnet; 1223. a second magnet; 1224. a drive motor; 1225. a driving gear; 1226. a driven gear ring; 13. a connecting rod; 14. a spring; 15. a fixing ring; 16. a connecting member; 161. a connecting seat; 162. a screw; 17. and (7) fixing the plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses integrated form high efficiency concrete production facility, refer to fig. 1, which comprises a frame 1, blendor 2 and integrated frame 3 of setting in frame 1, be provided with hoist mechanism on the integrated frame 3, the discharge gate of blendor 2 is linked together with hoist mechanism's feed inlet, hoist mechanism can select for use hoist 4, blendor 2 can carry out heat treatment to the former raw and reclaimed materials of concrete, material after heat treatment can enter into hoist 4, hoist 4 upwards transmits the material.

Referring to fig. 1, be equipped with feed proportioning mechanism 5 on integrated frame 3, feed proportioning mechanism 5 includes along integrated frame 3 vertical direction from last to down set gradually be used for sieving the grit sieve subassembly 51, be used for storing the storage component 52 of grit and the subassembly 53 of weighing the grit, the discharge gate of lifting machine 4 is linked together with sieve subassembly 51's feed inlet, the material can enter into sieve subassembly 51 under lifting action of lifting machine 4, sieve subassembly 51 can sieve the grit of different particle sizes in the material.

Referring to fig. 1, be provided with stirring subassembly 6 on integrated frame 3, stirring subassembly 6 is located the below of subassembly 53 of weighing, and the material after the screening stores in storage component 52, and screening subassembly 51 sets up with storage component 52 as an organic whole, and in the in-process raise dust of material screening and transmission can not spread the air, reduces the raise dust. When needs are processed the concrete, make the material enter into weighing component 53, weighing component 53 can weigh the raw materials, and the material after weighing can enter into stirring subassembly 6 and stir. In the whole concrete mixing process, the materials can not directly contact with the outside in a large area, so that a large amount of dust can not be diffused into the air.

Referring to fig. 2 and 3, a powder collecting mechanism 7 is disposed between the storage component 52 and the weighing component 53 and between the weighing component 53 and the stirring component 6, the powder collecting mechanism 7 includes a connecting ring 71 disposed in the batching mechanism 5, a collecting ring 72 located below the connecting ring 71, a baffle 73 connected with the connecting ring 71 and the collecting ring 72, and a material collecting pipe 74 disposed below the collecting ring 72 and communicated with the collecting ring 72, a powder temporary storage cylinder 8 is fixedly connected to the frame 1, and the material collecting pipe 74 is communicated with the powder temporary storage cylinder 8.

Referring to fig. 2, an induced draft fan 9 can be arranged on the powder temporary storage barrel 8, and the induced draft fan 9 can provide a power source, so that negative pressure is generated in the material collecting pipeline 74 and the powder temporary storage barrel 8, and powder can be collected and guided into the powder temporary storage barrel 8. A plurality of discharge gates have been seted up on the collector ring 72, and collecting pipe 74 also is provided with a plurality of branch pipes corresponding with a plurality of discharge gates, and in the powder can entered into powder section of thick bamboo 8 of keeping in through collecting pipe 74, the powder of collecting in the powder section of thick bamboo 8 of keeping in can carry out reuse.

Referring to fig. 3, the connection ring 71 and the collecting ring 72 are connected to the dosing mechanism 5, the curtain 73 is disposed between the connection ring 71 and the collecting ring 72, an upper end of the curtain 73 is detachably connected to the connection ring 71, and a lower end of the curtain 73 is detachably connected to the collecting ring 72.

Referring to fig. 4, the connection assembly 10 is disposed between the curtain blocking 73 and the connection ring 71 and between the curtain blocking 73 and the collecting ring 72, the connection assembly 10 includes a first magnetic stripe 101 fixedly connected to the connection ring 71 and the collecting ring 72 and a second magnetic stripe 102 disposed on the curtain blocking 73, ring grooves are disposed on the connection ring 71 and the collecting ring 72, and the first magnetic stripe 101 is embedded in the ring grooves. The curtain 73 can be connected to the connection ring 71 and the collecting ring 72 through the first magnetic stripe 101 and the second magnetic stripe 102, which is more convenient for repair and maintenance. Meanwhile, the blocking curtain 73 can be reinforced by using bolts, so that the connection between the blocking curtain 73 and the connecting ring 71 and the collecting ring 72 is firmer, and the bolts are more convenient to detach.

Referring to fig. 3, a powder cleaning mechanism 12 corresponding to the powder collecting mechanism 7 is disposed on the integrated frame 3, and the powder cleaning mechanism 12 includes a cleaning assembly 121 connected to the batching mechanism 5 and a driving assembly 122 for driving the cleaning assembly 121 to operate. The material mixing mechanism 5 is movably connected with a connecting rod 13, the connecting rod 13 can be connected with the material mixing mechanism 5 in a ball joint mode, the cleaning assembly 121 comprises a cleaning rod 1211 connected with the connecting rod 13 and a limiting plate 1212 fixedly connected with the cleaning rod 1211, the cleaning rod 1211 is connected with the blocking curtain 73 through a spring 14, one end of the spring 14 is fixedly connected with the cleaning rod 1211, and the other end of the spring 14 is connected with the blocking curtain 73.

Referring to fig. 3, a connecting member 16 is disposed between the spring 14 and the curtain block 73, a connecting seat 161 is fixedly connected to an outer side of the curtain block 73, the connecting seat 161 and the curtain block 73 can be connected by a bolt, a screw 162 is rotatably connected to one end of the spring 14 close to the curtain block 73, a threaded hole matched with the screw 162 is formed in the connecting seat 161, and the screw 162 can be screwed into the threaded hole to connect the spring 14 and the curtain block 73.

One end of the connecting rod 13 close to the cleaning rod 1211 is hinged with a fixing ring 15, the fixing ring 15 is sleeved on the cleaning rod 1211 in a sliding mode, and the cleaning rod 1211 can drive the blocking curtain 73 to shake when moving, so that powder can be cleaned.

Referring to fig. 3, the fixed plate 17 is connected to the dosing mechanism 5, and the driving assembly 122 includes a rotating ring 1221 rotatably connected to the fixed plate 17 and a first magnet 1222 fixedly connected to the rotating ring 1221.

Referring to fig. 5, one end of the cleaning rod 1211 adjacent to the rotating ring 1221 is hinged with a second magnet 1223.

Referring to fig. 3, the driving assembly 122 further includes a driving motor 1224 fixedly connected to the dosing mechanism 5, a driving gear 1225 connected to an output end of the driving motor 1224, and a driven gear ring 1226 engaged with the driving gear 1225, wherein the driven gear ring 1226 is coaxially and fixedly connected to the rotating ring 1221.

The driving motor 1224 is activated, the driving motor 1224 drives the driving gear 1225 to rotate, the driving gear 1225 drives the driven gear ring 1226 to rotate when rotating, the driven gear ring 1226 drives the rotating ring 1221 to rotate, the rotating ring 1221 drives the first magnet 1222 to rotate when rotating, when the first magnet 1222 rotates to a position corresponding to the second magnet 1223, the first magnet 1222 attracts the second magnet 1223, so the cleaning rod 1211 moves downward, and at this time, the spring 14 is in a stretching state. When the cleaning rod 1211 moves downwards, the blocking curtain 73 is dragged, so that the blocking curtain 73 greatly shakes, powder can be shaken off, and the powder can be recycled. When the rotating ring 1221 drives the first magnet 1222 to rotate to other positions, the second magnet 1223 is not affected by the magnetic force, the cleaning rod 1211 moves upward under the elastic potential energy of the spring 14, and a larger abutting force is generated when the cleaning rod 1211 is reset, so that the blocking curtain 73 can be fully abutted, and the powder adhered in the blocking curtain 73 enters the concrete material.

The implementation principle of the integrated efficient concrete production equipment in the embodiment of the application is as follows: and starting the induced draft fan 9, wherein the raised dust generated in the concrete production process can be collected into the powder temporary storage barrel 8. When the dust adhered to the curtain 73 needs to be cleaned, the driving motor 1224 is started, the driving motor 1224 drives the driving gear 1225 to rotate, the driving gear 1225 drives the driven gear ring 1226 to rotate when rotating, the driven gear ring 1226 drives the rotating ring 1221 to rotate, the rotating ring 1221 drives the first magnet 1222 to rotate when rotating, when the first magnet 1222 rotates to a position corresponding to the second magnet 1223, the first magnet 1222 attracts the second magnet 1223, therefore, the cleaning rod 1211 moves downwards, and at the moment, the spring 14 is in a stretching state. When the cleaning rod 1211 moves downwards, the blocking curtain 73 is dragged, so that the blocking curtain 73 greatly shakes, powder can be shaken off, and the powder can be recycled. When the rotating ring 1221 drives the first magnet 1222 to rotate to other positions, the second magnet 1223 is not affected by magnetic force, the cleaning rod 1211 moves upward under the elastic potential energy of the spring 14, and a larger abutting force is generated when the cleaning rod 1211 is reset, so that the blocking curtain 73 can be fully abutted, and the powder adhered in the blocking curtain 73 enters the concrete material, thereby recycling the dust.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides an integrated form high efficiency concrete production facility which characterized in that: the mixer comprises a rack (1), a mixer (2) and an integration frame (3), wherein the mixer (2) and the integration frame (3) are arranged on the rack (1), a lifting mechanism is arranged on the integration frame (3), a discharge hole of the mixer (2) is communicated with a feed inlet of the lifting mechanism, and a batching mechanism (5) is arranged on the integration frame (3);

the material distribution mechanism (5) comprises a screening component (51) for screening gravel, a storage component (52) for storing gravel and a weighing component (53) for weighing gravel, which are sequentially arranged along the vertical direction of the integrated frame (3) from top to bottom, the discharge port of the lifting mechanism is communicated with the feed port of the screening component (51), a stirring component (6) is arranged on the integrated frame (3), and the stirring component (6) is positioned below the weighing component (53);

the integrated frame (3) is provided with a powder collecting mechanism (7), the powder collecting mechanism (7) comprises a connecting ring (71) arranged in the batching mechanism (5), a collecting ring (72) positioned below the connecting ring (71), a baffle curtain (73) connected with the collecting ring (72) and a collecting pipeline (74) arranged below the collecting ring (72) and communicated with the collecting ring (72), the connecting ring (71) and the collecting ring (72) are connected with the batching mechanism (5), the curtain (73) is arranged between the connecting ring (71) and the collecting ring (72), the upper end of the baffle curtain (73) is connected with the connecting ring (71), the lower end of the baffle curtain (73) is connected with the collecting ring (72), a powder temporary storage cylinder (8) is fixedly connected to the rack (1), and the collecting pipeline (74) is communicated with the powder temporary storage cylinder (8).

2. The integrated high efficiency concrete production plant according to claim 1, wherein: the powder collecting mechanisms (7) are arranged in two groups, one group of the powder collecting mechanisms (7) is arranged between the storage component (52) and the bearing component, and the other group of the powder collecting mechanisms (7) is arranged between the bearing component and the stirring component (6).

3. The integrated high efficiency concrete production plant according to claim 1, wherein: the integrated frame (3) is provided with a powder cleaning mechanism (12) corresponding to the powder collecting mechanism (7), the powder cleaning mechanism (12) comprises a cleaning component (121) connected with the batching mechanism (5), the batching mechanism (5) is movably connected with a connecting rod (13), the cleaning component (121) comprises a cleaning rod (1211) connected with the connecting rod (13) and a limiting plate (1212) fixedly connected with the cleaning rod (1211), the cleaning rod (1211) is connected with the curtain (73) through a spring (14), one end of the spring (14) is fixedly connected with the cleaning rod (1211), and the other end of the spring (14) is fixedly connected with the curtain (73); the powder cleaning mechanism (12) further comprises a driving component (122) for driving the cleaning rod (1211) to slide.

4. The integrated high efficiency concrete production plant according to claim 3, wherein: one end of the connecting rod (13) close to the cleaning rod (1211) is hinged with a fixing ring (15), and the fixing ring (15) is sleeved on the cleaning rod (1211) in a sliding mode.

5. The integrated high efficiency concrete production plant according to claim 3, wherein: be connected with fixed plate (17) on batching mechanism (5), drive assembly (122) including with fixed plate (17) rotate swivel becket (1221) of being connected and with swivel becket (1221) fixed connection's first magnet (1222), the one end that clearance pole (1211) is close to swivel becket (1221) articulates there is second magnet (1223).

6. The integrated high efficiency concrete production plant according to claim 5, wherein: the driving assembly (122) further comprises a driving motor (1224) fixedly connected with the batching mechanism (5), a driving gear (1225) connected with the output end of the driving motor (1224) and a driven gear ring (1226) meshed with the driving gear (1225), and the driven gear ring (1226) is coaxially and fixedly connected with the rotating ring (1221).

7. The integrated high efficiency concrete production plant according to claim 1, wherein: keep off curtain (73) and go up ring (71) and collecting ring (72) and all set up to dismantle and connect, keep off between curtain (73) and go up ring (71) and keep off curtain (73) and collecting ring (72) between all be provided with coupling assembling (10), coupling assembling (10) include with go up ring (71) and collecting ring (72) fixed connection's first magnetic stripe (101) and set up second magnetic stripe (102) on keeping off curtain (73), the annular has all been seted up on go up ring (71) and collecting ring (72), first magnetic stripe (101) are inlayed and are established in the annular.