CN215619131U - Muddy water stirring system - Google Patents

Abstract

The utility model relates to a muddy water mixing system, which comprises a frame, the frame is equipped with mud stone separating centrifuge, pan feeding conveyor components and cement mixer in proper order, the discharge end of mud stone separating centrifuge is located pan feeding conveyor components's top, the material direction of delivery of mud stone separating centrifuge with pan feeding conveyor components's direction of delivery is opposite, pan feeding conveyor components be used for with the mud that mud stone separating centrifuge dropped is carried extremely cement mixer's pan feeding end. This application separates mud, stone through mud stone separating centrifuge to the realization is to the processing of raw materials, then carries to the cement mixer through pan feeding conveying component, and the cement mixer mixes mud raw materials and cement to form the soil cement that can directly be used for the engineering construction usefulness, is about to construct the mud stone preparation of output for soil cement, with greatly reduced cost.

Description

Muddy water stirring system

Technical Field

The application relates to the field of stirring systems, in particular to a muddy water stirring system.

Background

The cement soil and the concrete are indispensable materials for construction and construction, and the cement soil is different from the concrete in that the cement soil mainly takes local extra-fine sand (from windage or river channel dredging and the like) or sandy loam as a main raw material, a small amount of cement (accounting for 10-15 percent of the total amount) is added, and a trace amount of additive and a proper amount of water are uniformly mixed.

The mud stone is often produced at the in-process of drilling, excavation in the job site, if handle this mud stone to add to cement soil preparation as the raw materials, then can effectively reduce raw materials purchasing cost, raw materials cost of transportation, mud stone abandonment cost etc. thereby have very big economic benefits and accord with the principle of green construction.

Therefore, a stirring system is urgently needed to prepare the constructed mud stone into cement soil so as to greatly reduce the cost.

SUMMERY OF THE UTILITY MODEL

In order to reduce cost, the application provides a muddy water mixing system.

The application provides a mud water mixing system adopts following technical scheme:

the utility model provides a muddy water mixing system, includes the frame, the frame is equipped with mud stone separating centrifuge, pan feeding conveyor components and cement mixer in proper order, the discharge end of mud stone separating centrifuge is located pan feeding conveyor components's top, the material direction of delivery of mud stone separating centrifuge with pan feeding conveyor components's direction of delivery is opposite, pan feeding conveyor components be used for with mud that mud stone separating centrifuge dropped is carried extremely cement mixer's pan feeding end.

Through adopting above-mentioned technical scheme, at first through mud stone separating centrifuge to mud, the stone is separated, in order to realize the processing to the raw materials, and because the direction of delivery of mud stone separating centrifuge is opposite with pan feeding conveyor components's direction of delivery, consequently not the stone of separating then drops out through the transport of mud stone separating centrifuge, avoid the stone to drop the condition emergence on the pan feeding conveyor components promptly, then carry to the cement mixer through pan feeding conveyor components, the cement mixer mixes mud raw materials and cement, in order to form the soil cement that can directly be used for engineering construction usefulness, the mud stone that is about to construct the output is prepared into soil cement, in order to greatly reduced cost.

Optionally, the frame includes first frame and the second frame that the separation set up, mud stone separating centrifuge with pan feeding conveyor components all sets up in first frame, the cement mixer set up in on the second frame.

By adopting the technical scheme, the free combination of all the components is realized by arranging the separating frame, so that the free reasonable layout is carried out according to the actual construction site, the occupied space is reduced, and the flexibility is greatly improved; and, according to different height or cement mixer (mixing plant), can move first frame to with mud stone separating centrifuge and pan feeding conveyor components butt joint another kind of cement stirring structure, the commonality improves greatly promptly, the mode and the purpose of moving of second frame are the same as above.

Optionally, the frame is provided with a discharge conveying assembly, and the discharge conveying assembly is used for transferring the cement soil produced by the cement mixer.

Through adopting above-mentioned technical scheme, according to the cement storage device (cement tank car, storage storehouse) of difference, the optional ejection of compact conveying subassembly to shift cement soil more fast and accurately, ejection of compact flexibility ratio improves greatly promptly.

Optionally, ejection of compact conveying subassembly includes first ejection of compact conveyer belt, first measurement part, second ejection of compact conveyer belt in proper order, first ejection of compact conveyer belt is used for cement mixer's material is carried to first measurement part department, first measurement part is used for weighing and intermittent type formula discharge to the material of first ejection of compact conveyer belt output, second ejection of compact conveyer belt is used for shifting the discharged material of first measurement part.

Through adopting above-mentioned technical scheme, can weigh and discharge in batches in quantitative the cement soil finished product to be convenient for the subsequent standardized use of cement soil.

Optionally, the feeding conveying assembly sequentially comprises a first feeding conveying belt, a second metering component and a second feeding conveying belt, the first feeding conveying belt is used for conveying slurry falling from the mud-stone separator to the second metering component, the second metering component is used for weighing and intermittently discharging materials output by the first feeding conveying belt, and the second feeding conveying belt is used for conveying the materials discharged by the second metering component to the feeding end of the cement mixer.

Through adopting above-mentioned technical scheme, can weigh the raw materials that the mud stone separating centrifuge separated and discharge in batches of ration to satisfy the stirring requirement of ration ratio surely, thereby improve the shaping quality of cement soil.

Optionally, the rack is provided with a conveyor, the conveyor is used for conveying mud stones to the mud stone separator, and the conveying direction of the conveyor is the same as the conveying direction of the mud stone separator.

Through adopting above-mentioned technical scheme, the conveyer can carry the mud stone to the mud stone separating centrifuge comparatively uniformly to reduce because of concentrating on putting into the mud stone separating centrifuge, and lead to the untimely condition emergence of mud stone separating centrifuge separation, and then ensure the quality of mud raw materials.

Optionally, the discharge conveying assembly comprises a third discharge conveying belt and a cleaning structure, the cleaning structure comprises a rotating cylinder and a motor for driving the rotating cylinder to rotate, the rotating cylinder is located right below an output end of the third discharge conveying belt, the outer peripheral surface of the rotating cylinder is abutted against the lower surface of a belt body of the third discharge conveying belt, and the rotating direction of the rotating cylinder is consistent with the transmission direction of the third discharge conveying belt; the outer peripheral surface of the rotating cylinder is provided with a plurality of temporary storage grooves which are uniformly distributed along the circumference of the rotating cylinder.

Through adopting above-mentioned technical scheme, third ejection of compact conveyer belt is at the in-process of carrying soil cement, and partial cement soil will be attached to the area body surface of third ejection of compact conveyer belt, and the section of thick bamboo that rotates is at the rotation in-process, and the peripheral surface will scrape the soil cement that attaches on third ejection of compact conveyer belt surface to this soil cement will be stored temporarily in the groove of keeping in, then this soil cement shifts along with the rotation of rotating the section of thick bamboo and drops away, in order to ensure the ejection of compact completeness of third ejection of compact conveyer belt.

Optionally, the cleaning structure further includes a tilting plate, an upper surface of the tilting plate is located on a radial surface of the rotary drum, and a lower side of the tilting plate is lower than the rotary drum; and a rubber sheet extending into the adjacent temporary storage groove is fixed on the upper side of the dumping inclined plate.

Through adopting above-mentioned technical scheme, topple over the swash plate and can guide the soil cement slope of keeping in the inslot and discharge, and the sheet rubber then interferes with the emergence of rotating the section of thick bamboo, and the sheet rubber can sweep out the soil cement of keeping in the inslot at the interference in-process to it is difficult to take place from the condition that the inslot of keeping in to reduce cement soil.

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

mud and stones are separated by a mud-stone separator and then are conveyed to a cement mixer by a feeding conveying assembly, and the cement mixer mixes the mud raw materials with cement, i.e. mud stones produced by construction are prepared into cement soil, so that the cost is greatly reduced;

the separation rack is arranged to realize free combination of all components, so that free reasonable layout is performed according to an actual construction site, occupied space is reduced, and flexibility and universality are improved;

through setting up the second metering component, it can weigh the raw materials that the mud stone separating centrifuge separated and ration batch discharge to satisfy the stirring requirement of ration ratio, thereby improve the shaping quality of cement soil.

Drawings

Fig. 1 is a schematic view of the entire structure of embodiment 1.

FIG. 2 is a schematic view of the entire structure of embodiment 2.

Fig. 3 is a schematic structural view of the feeding conveying assembly of embodiment 3.

FIG. 4 is a schematic structural view of an outfeed conveyor assembly of embodiment 4.

Fig. 5 is a schematic structural view of the conveyor of embodiment 5.

Fig. 6 is a schematic structural view of a cleaning structure of embodiment 6.

Description of reference numerals: 1. a mud-stone separator; 2. a feeding conveying assembly; 3. a cement mixer; 4. a discharge conveying assembly; 10. a frame; 101. a first frame; 102. a second frame; 103. a traction head; 104. a traveling wheel; 11. a conveying roller; 12. a conveyor; 21. a first feeding conveyor belt; 22. a second metering member; 221. a transition hopper; 222. a metering bin; 23. a second feeding conveyer belt; 41. a first discharge conveyor belt; 42. a first metering member; 43. a second discharge conveyor belt; 44. a third discharge conveyor belt; 51. a rotating cylinder; 52. dumping the inclined plate; 53. a motor; 54. a support; 55. a temporary storage tank; 56. a rubber sheet.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The application discloses muddy water mixing system.

Example 1:

as shown in fig. 1, a mud and water mixing system comprises a frame 10, wherein the frame 10 is sequentially provided with a mud and stone separator 1, a feeding and conveying assembly 2 and a cement mixer 3, wherein the mud and stone separator 1 is used for separating mud and stones, the feeding and conveying assembly 2 is used for conveying the mud separated by the mud and stone separator 1 to the cement mixer 3, and the cement mixer 3 is used for mixing and stirring cement and mud to prepare cement soil.

The mud-stone separator 1 is provided with a plurality of conveying rollers 11, the conveying rollers 11 are arranged at intervals along the conveying direction of the mud-stone separator 1, mud stones can be poured into the mud-stone separator 1 through a forklift, a loader or a conveyor 12 and the like, then the mud-stone separator 1 conveys the mud stones along a certain direction, during the process, mud with smaller volume falls down from the gap of the adjacent conveying rollers 11, and stones with larger volume are discharged from one end of the mud-stone separator 1 along with the continuous conveying of the mud-stone separator 1, so that the mud-stone separation is completed.

The feeding conveying assembly 2 can be a single conveying belt or a plurality of conveying belts, the conveying belts are horizontal conveying belts and lifting conveying belts, and the arrangement of internal components of the feeding conveying assembly 2 is required to be set according to the layout of an actual construction site; the starting end of the feeding conveying component 2 is positioned right below the mud-stone separator 1 to receive the separated mud, and the conveying direction of the feeding conveying component 2 is opposite to the conveying direction of the mud-stone separator 1; and the terminal of pan feeding conveyor assembly 2 is located directly over cement mixer 3, and pan feeding conveyor assembly 2 carries mud to cement mixer 3 department promptly to through gravity with drop into cement mixer 3 with mud in.

In actual use, the cement in the cement mixer 3 can be manually or externally fed by means of auger delivery from an external cement silo.

Meanwhile, the position of the cement mixer 3 can also be set to be a high position, and then a cement tanker or other devices for storing cement soil are arranged below the discharge end of the cement mixer 3, namely the cement mixer 3 can directly discharge the cement soil into the cement tanker or other devices for storing cement soil; in this embodiment, set up ejection of compact conveying assembly 4 in cement mixer 3's discharge end, ejection of compact conveying assembly 4 can shift to in storing the soil cement device to improve the flexibility of overall structure overall arrangement to soil cement.

The implementation principle of the embodiment 1 is as follows: at first, separate mud, stone through mud stone separating centrifuge 1 to the realization is to the processing of raw materials, then carry to cement mixer 3 through pan feeding conveyor components 2, cement mixer 3 mixes mud raw materials and cement, in order to form the soil cement that can directly be used for the engineering construction usefulness, is about to construct the mud stone preparation of output and is the soil cement, with greatly reduced cost.

Example 2:

as shown in fig. 2, the difference from embodiment 1 is that the frame 10 includes a first frame 101 and a second frame 102, the first frame 101 and the second frame 102 are separately provided, the mudstone separator 1 and the feed conveyor assembly 2 are both provided on the first frame 101, and the cement mixer 3 is provided on the second frame 102.

The first frame 101 and the second frame 102 are provided with the travelling wheels 104 and the traction heads 103, and the first frame 101 and the second frame 102 can be dragged and moved by the traction equipment to change the positions of the first frame 101 and the second frame 102, so that the first frame 101 and the second frame 102 can be freely and reasonably arranged according to an actual construction site to reduce occupied space, and the flexibility of the first frame 101 and the second frame 102 is greatly improved.

In addition, other connecting structures or transferring structures can be added between the first frame 101 and the second frame 102 to convey the slurry of the mud-stone separator 1 to the cement mixer 3 in another way, and also convey the slurry of the mud-stone separator 1 to another cement mixing device; as above, by moving the second frame 102, the cement mixer 3 can be butt-jointed with another slurry conveying apparatus, so as to improve the combination flexibility of the whole structure.

Example 3:

as shown in fig. 3, the difference from embodiment 1 is that the feeding conveyor assembly 2 includes a first feeding conveyor belt 21, a second metering member 22, and a second feeding conveyor belt 23, which are sequentially disposed, wherein the first feeding conveyor belt 21, the second metering member 22, and the second feeding conveyor belt 23 may be disposed on the same rack 10, or may be combined in pairs or disposed on different racks 10 respectively.

The first feeding conveyer belt 21 is used for conveying slurry dropped by the mud-stone separator 1 to the second metering part 22, the second metering part 22 is used for weighing and intermittently discharging materials output by the first feeding conveyer belt 21, and the second feeding conveyer belt 23 is used for conveying the materials discharged by the second metering part 22 to the feeding end of the cement mixer 3.

The second metering unit 22 includes a transition hopper 221 and a metering bin 222, wherein the transition hopper 221 is mounted directly below the terminal end of the first infeed conveyor 21, the transition hopper 221 is configured to transfer slurry from the first infeed conveyor 21 into the metering bin 222, and the metering bin 222 is located directly below the transition hopper 221.

The working principle of the metering bin 222 is as follows: when the mud loaded in the measuring bin 222 reaches the required weight, a signal for stopping mud conveying is sent to the control structure of the first feeding conveyer belt 21 through a piezomagnetic dynamometer or other weight measuring structures arranged below the quantitative bin, then the gate of the measuring bin 222 is opened through an air cylinder for automatically or manually controlling the gate of the measuring bin 222, and the mud falls through the gate of the measuring bin 222.

The second feeding conveyer belt 23 conveys quantitative slurry to the cement mixer 3, so that quantitative feeding is completed, the stirring requirement of quantitative proportioning is met, and the forming quality of cement soil is improved.

Example 4:

as shown in fig. 4, the difference from embodiment 1 is that the discharging conveyor assembly 4 includes a first discharging conveyor belt 41, a first metering component 42, and a second discharging conveyor belt 43, which are sequentially arranged, wherein the first discharging conveyor belt 41, the first metering component 42, and the second discharging conveyor belt 43 may be jointly arranged on the same frame 10, or may be combined in pairs or respectively arranged on different frames 10.

The first discharging conveyer belt 41 is used for conveying the materials of the cement mixer 3 to the first metering component 42, and the structure of the first metering component 42 is the same as that of the second metering component 22, namely, the first metering component 42 is used for weighing the materials output by the first discharging conveyer belt 41 and intermittently and quantitatively discharging the materials, and the second discharging conveyer belt 43 is used for conveying the materials discharged by the first metering component 42 to a cement tanker or other cement soil storage devices.

Therefore, the finished cement soil products can be discharged in batches in a quantitative mode, so that the finished cement soil products can be stored in a quantitative mode, and the subsequent standardized use of the cement soil is facilitated.

Example 5:

as shown in fig. 5, the difference from embodiment 1 is that the frame 10 is provided with a conveyor 12, the conveyor 12 can be a plate chain conveyor, the conveyor 12 is higher than the debris separator 1, and the terminal end of the conveyor 12 is connected with the starting end of the debris separator 1.

When the mud-rock separating machine is used, mud-rock is poured into the conveyor 12 through a forklift, a loader and the like, and then is conveyed by the conveyor 12 so as to be uniformly thrown into the mud-rock separating machine 1, so that the separating effect of the mud-rock separating machine 1 is improved.

Example 6:

as shown in fig. 6, the difference from embodiment 1 is that the discharging conveyor assembly 4 includes a third discharging conveyor belt 44 and a cleaning structure, the third discharging conveyor belt 44 is erected on the frame 10, the third discharging conveyor belt 44 is a lifting conveyor belt, and the third discharging conveyor belt 44 is used for transferring the soil cement of the cement mixer 3 into the soil cement storage device.

The cleaning structure comprises a rotating drum 51, a motor 53 and a dumping inclined plate 52, wherein the rotating drum 51 is positioned under the terminal of the third discharging conveying belt 44, the rotating drum 51 is connected with the frame body of the third discharging conveying belt 44 through a support 54, the rotating drum 51 is rotatably arranged, the motor 53 is installed on the support 54, the motor 53 is used for driving the rotating drum 51 to rotate, and the rotating direction of the rotating drum 51 is consistent with the transmission direction of the third discharging conveying belt 44.

The peripheral surface of the rotating cylinder 51 abuts against the lower surface of the belt body of the third discharging conveyor belt 44, a plurality of temporary storage grooves 55 are formed in the peripheral surface of the rotating cylinder 51, and the temporary storage grooves 55 are uniformly distributed along the circumference of the rotating cylinder 51; the inclined dumping plate 52 is arranged on a bracket 54, the inclined dumping plate 52 is lower than the rotary drum 51, a rubber sheet 56 is fixed on the upper side of the inclined dumping plate 52, and part of the structure of the rubber sheet 56 extends into the adjacent temporary storage groove 55.

During the rotation of the rotary cylinder 51, the outer peripheral surface of the rotary cylinder will scrape off the attached soil cement on the surface of the third discharging conveyor belt 44, and the scraped soil cement will be temporarily stored in the temporary storage tank 55, then along with the rotation of the rotary cylinder 51, the soil cement will move to the lower part of the rotary cylinder 51, then the soil cement falls onto the dumping inclined plate 52 under the gravity, and the soil cement slides along the dumping inclined plate 52 to a cement tank truck or other device for storing soil cement, so as to reduce the occurrence of incomplete discharging of the third discharging conveyor belt 44.

In addition, in the rotating process of the rotating cylinder 51, the rubber sheets 56 sequentially deform to avoid the outer peripheral surface of the rotating cylinder 51 and sequentially extend into the temporary storage groove 55, so that the rubber sheets 56 can sweep out soil cement in the temporary storage groove 55, and the swept soil cement slides into a cement tank truck or other cement soil storage devices along the dumping inclined plate 52.

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 (9)

1. The utility model provides a muddy water mixing system which characterized in that: including frame (10), frame (10) are equipped with mud stone separating centrifuge (1), pan feeding conveyor components (2) and cement mixer (3) in proper order, the discharge end of mud stone separating centrifuge (1) is located the top of pan feeding conveyor components (2), the material direction of delivery of mud stone separating centrifuge (1) with the direction of delivery of pan feeding conveyor components (2) is opposite, pan feeding conveyor components (2) be used for with mud that mud stone separating centrifuge (1) dropped carries extremely the pan feeding end of cement mixer (3).

2. The mud water stirring system according to claim 1, wherein: the machine frame (10) comprises a first machine frame (101) and a second machine frame (102) which are arranged in a separated mode, the mud-stone separator (1) and the feeding conveying assembly (2) are arranged on the first machine frame (101), and the cement stirrer (3) is arranged on the second machine frame (102).

3. The mud water stirring system according to claim 1, wherein: the machine frame (10) is provided with a discharging conveying assembly (4), and the discharging conveying assembly (4) is used for transferring the cement soil produced by the cement stirring machine (3).

4. The mud water stirring system as set forth in claim 3, wherein: the discharging and conveying assembly (4) sequentially comprises a first discharging and conveying belt (41), a first metering component (42) and a second discharging and conveying belt (43), the first discharging and conveying belt (41) is used for conveying materials of the cement stirring machine (3) to the first metering component (42), the first metering component (42) is used for weighing the materials output by the first discharging and conveying belt (41) and discharging the materials intermittently, and the second discharging and conveying belt (43) is used for transferring the materials discharged by the first metering component (42).

5. The muddy water stirring system as set forth in any one of claims 1 to 3, wherein: pan feeding conveyor components (2) include first pan feeding conveyer belt (21), second metering unit (22), second pan feeding conveyer belt (23) in proper order, first pan feeding conveyer belt (21) are used for mud that mud stone separating centrifuge (1) dropped is carried to second metering unit (22) department, second metering unit (22) are used for weighing and the intermittent type formula is discharged the material of first pan feeding conveyer belt (21) output, second pan feeding conveyer belt (23) are used for carrying the material that second metering unit (22) discharged extremely the pan feeding end of cement mixer (3).

6. The muddy water stirring system as set forth in any one of claims 1 to 3, wherein: the mud-rock separating machine is characterized in that the rack (10) is provided with a conveyor (12), the conveyor (12) is used for conveying mud-rock to the mud-rock separating machine (1), and the conveying direction of the conveyor (12) is the same as that of the mud-rock separating machine (1).

7. The mud water stirring system as set forth in claim 5, wherein: the mud-rock separating machine is characterized in that the rack (10) is provided with a conveyor (12), the conveyor (12) is used for conveying mud-rock to the mud-rock separating machine (1), and the conveying direction of the conveyor (12) is the same as that of the mud-rock separating machine (1).

8. The mud water stirring system as set forth in claim 3, wherein: the discharging conveying assembly (4) comprises a third discharging conveying belt (44) and a cleaning structure, the cleaning structure comprises a rotating cylinder (51) and a motor (53) used for driving the rotating cylinder (51) to rotate, the rotating cylinder (51) is located right below the output end of the third discharging conveying belt (44), the peripheral surface of the rotating cylinder (51) is abutted to the lower surface of the belt body of the third discharging conveying belt (44), and the rotating direction of the rotating cylinder (51) is consistent with the transmission direction of the third discharging conveying belt (44); the peripheral surface of the rotating cylinder (51) is provided with a plurality of temporary storage grooves (55) which are uniformly distributed along the circumference of the rotating cylinder.

9. The mud water mixing system according to claim 8, wherein: the cleaning structure further comprises a dumping inclined plate (52), the upper surface of the dumping inclined plate (52) is positioned on the radial surface of the rotary cylinder (51), and the lower side of the dumping inclined plate (52) is lower than the rotary cylinder (51); and a rubber sheet (56) extending into the adjacent temporary storage groove (55) is fixed on the upper side of the inclined dumping plate (52).

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