CN215312126U - Novel concrete admixture compounding equipment - Google Patents

Abstract

The utility model discloses novel concrete admixture compounding equipment which comprises a container, a raw material storage assembly, a water storage tank, a finished product tank, a mixing assembly and a small material storage assembly, wherein the container is provided with a container body; the raw material storage component is arranged outside the container; the water storage tank is arranged outside the container; the finished product tank is arranged outside the container; the mixing component is arranged on the inner wall of the container and comprises a batching tank, a large weighing tank, a middle weighing tank, a small weighing tank and a connecting pipeline, and the discharge ends of the large weighing tank, the middle weighing tank and the small weighing tank are communicated with the feed end of the batching tank through the connecting pipeline respectively; the small material storage assembly is arranged inside the container. The utility model has the beneficial effects that: the mixing component is loaded by the container, so that the whole device can be integrated, and various tanks, pumps, valves and other accessories are assembled in the standard container, so that the compounding equipment is movable, flexible and changeable, and is suitable for various scenes, and particularly, a terminal customer can realize a mother liquor compounding finished product.

Description

Novel concrete admixture compounding equipment

Technical Field

The utility model relates to compounding equipment, in particular to novel concrete admixture compounding equipment, and belongs to the technical field of automatic equipment.

Background

The concrete admixture is a substance which is added in the process of mixing concrete and is used for improving the performance of the concrete, and the adding amount is not more than 5 percent of the mass of cement (except special cases). The application of various concrete admixtures improves the performance of new mixed hardened concrete, promotes the development of new concrete technology, promotes more application of industrial byproducts in a cementing material system, is beneficial to saving resources and protecting environment, and gradually becomes an essential material of high-quality concrete.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems and provide novel concrete admixture compounding equipment.

The utility model realizes the purpose through the following technical scheme, and the novel concrete admixture compounding equipment comprises:

the container comprises a container, a door and a door, wherein one side of the container is provided with a plurality of through holes, and the other side of the container is provided with a closed door;

the raw material storage assembly is arranged outside the container and is positioned on one side provided with the through holes;

the water storage tank is arranged outside the container and is positioned on one side of the raw material storage assembly;

the finished product tank is arranged outside the container and is positioned on the front side of the container;

the mixing component is arranged on the inner wall of the container and comprises a proportioning tank, a large weighing tank, a middle weighing tank, a small weighing tank and a connecting pipeline, and the discharge ends of the large weighing tank, the middle weighing tank and the small weighing tank are communicated with the feed end of the proportioning tank through the connecting pipeline respectively;

the small material storage assembly is arranged inside the container.

Preferably, the raw material storage assembly comprises a first raw material tank, a second raw material tank and a third raw material tank, wherein the discharge end of the first raw material tank is communicated with the feed end of the medium-and medium-weighing tank through a connecting pipeline, the discharge end of the second raw material tank is communicated with the feed end of the large-weighing tank through a connecting pipeline, and the discharge end of the third raw material tank is communicated with the feed end of the small-weighing tank of the large-weighing tank through a connecting pipeline.

Preferably, the small material storage assembly comprises a first small material tank, a second small material tank and a third small material tank, wherein the first small material tank, the second small material tank and the third small material tank are respectively communicated with the proportioning tank, the large weighing tank, the medium weighing tank and the small weighing tank through connecting pipelines.

Preferably, the feed end of finished product jar link up mutually through the discharge end of connecting tube and batching jar, between finished product jar and the batching jar, and the connecting tube department that is close to the batching jar is provided with first charge pump, between finished product jar and the batching jar, and the connecting tube department that is close to the finished product jar is provided with first bleeder valve, the feed end of batching jar is provided with first feeding valve.

Preferably, the discharge end of batching jar is provided with the second bleeder valve, the discharge end of well weighing tank is provided with the third bleeder valve, the discharge end of big weighing tank is provided with the fourth bleeder valve, the discharge end of little weighing tank is provided with the fifth bleeder valve.

Preferably, a second electric pump is arranged at the feeding end of the middle weighing tank, and a second feeding valve and a first water valve are respectively arranged between the second electric pump and the connecting pipelines of the first raw material tank and the water storage tank.

Preferably, a third electric pump is arranged at the feeding end of the large-scale tank, a third feeding valve and a fourth feeding valve are respectively arranged between the third electric pump and the connecting pipelines of the second raw material tank and the third raw material tank, and a second water valve is arranged at the connecting pipeline between the third electric pump and the water storage tank.

Preferably, the feed end of little weighing tank is provided with the fourth charge pump, the connecting pipeline department of fourth charge pump and first little material jar, the little material jar of second and the little material jar of third is provided with first little bleeder valve, the little bleeder valve of second and the little bleeder valve of third respectively, the connecting pipeline department of fourth charge pump and water storage tank is provided with the fourth water valve, the feed end of first little material jar is provided with first little feeding valve, the feed end of the little material jar of second is provided with the little feeding valve of second, the feed end of the little material jar of third is provided with the little feeding valve of third.

Preferably, the connecting pipeline at the feeding end of the small weighing tank and the connecting pipeline at the discharging end of the small weighing tank are communicated with each other, a third water valve is arranged, and the connecting pipelines at the discharging ends of the batching tank, the large weighing tank, the medium weighing tank and the small weighing tank are communicated with each other.

A weighing method of novel concrete admixture compounding equipment comprises the following steps of weighing operation of each weighing tank;

the first process is as follows: firstly, carrying out distribution weighing on raw material mother liquor and small materials by using each weighing tank according to a formula, and then calculating the weight of liquid actually extracted from each weighing tank according to the mapping relation of a hydraulic sensor of each weighing tank;

and a second process: in the process of weighing the raw material mother liquor and the small materials by the weighing tanks, performing quantitative adjustment on the extraction of the raw material mother liquor and the small materials according to the ascending amount of each valve on each weighing tank;

the third process: after each weighing tank finishes weighing of the solution once, the weighing tank after liquid weighing needs to pump water from the water storage tank (4), the inner part of each tank is cleaned, each weighing tank is cleaned, then next liquid weighing is carried out, and water pumping and cleaning are carried out after weighing is finished every time.

The utility model has the beneficial effects that:

firstly, the mixing component is loaded by the container, so that the whole device can be integrated, and various tanks, pumps, valves and other accessories are assembled in a standard container, so that the compounding equipment is movable, flexible and changeable, and is suitable for various scenes, and especially a terminal customer can realize mother liquor compounding finished products.

Secondly, various valves and electric pumps in the utility model are intelligently controlled, so that the automation degree of the compounding system is high, the equipment system adopts the singlechip technology, and various control points and signals can realize cloud operation and check.

Thirdly, the mother liquid can be divided into three types through three raw material tanks, and the small materials can be divided into three types through three small material tanks, so that the types of additive products are greatly enriched, and the types of preparation of the composite liquid are diversified.

And fourthly, the pressure sensors are arranged at the bottoms of the large weighing tank, the middle weighing tank and the small weighing tank, and the maintenance difficulty is reduced compared with the conventional flat-plate scale by utilizing a mechanism that the pressure value of the high-precision hydraulic sensor corresponds to the weight.

Drawings

FIG. 1 is a top view of the overall structure of the present invention;

FIG. 2 is a top view of the container and its internal structure according to the present invention;

FIG. 3 is an enlarged view of the structure at A in FIG. 2 according to the present invention;

FIG. 4 is an enlarged view of the structure at B in FIG. 2 according to the present invention;

FIG. 5 is an enlarged view of the structure of FIG. 2 at C according to the present invention;

FIG. 6 is an enlarged view of the structure shown in FIG. 2D according to the present invention;

FIG. 7 is a weighing operation flow of each weighing tank of the present invention.

In the figure: 1. a first raw material tank; 2. a second feed tank; 3. a third raw material tank; 4. a water storage tank; 5. A finished product tank; 6. a dosing tank; 7. a medium weighing tank; 8. a large-scale tank; 9. a small weighing tank; 10. a first small material tank; 11. a second small material tank; 12. a third small charging bucket; 13. a container; 1301. a closing door; 14. a first discharge valve; 15. a first feed valve; 16. a second discharge valve; 17. a third discharge valve; 18. a fourth discharge valve; 19. a second feed valve; 20. a first water valve; 21. a third feed valve; 22. A fourth feed valve; 23. a second water valve; 24. a third water valve; 25. a fourth water valve; 26. a third small discharge valve; 27. a second small discharge valve; 28. a first small discharge valve; 29. a fifth discharge valve; 30. A first small feed valve; 31. a second small feed valve; 32. a third small feed valve; 33. a first electric pump; 34. a second electric pump; 35. a third electric pump; 36. a fourth electric pump.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, a novel concrete admixture compounding apparatus includes:

a container 13, wherein one side of the container 13 is provided with a plurality of through holes, and the other side of the container 13 is provided with a closed door 1301;

the packing cupboard 13 is used for bearing whole compounding subassembly, just so can carry out certain protection of bearing to the compounding subassembly, also makes whole device can remove in a flexible way simultaneously, through activity articulated closed door 1301, can enter into the inside of packing cupboard 13 and overhaul the compounding subassembly.

The raw material storage component is arranged outside the container 13 and is positioned on one side provided with the through holes;

the raw material storage assembly comprises a first raw material tank 1, a second raw material tank 2 and a third raw material tank 3, wherein the discharge end of the first raw material tank 1 is communicated with the feed end of a medium weighing tank 7 through a connecting pipeline, the discharge end of the second raw material tank 2 is communicated with the feed end of a large weighing tank 8 through a connecting pipeline, and the discharge end of the third raw material tank 3 is respectively communicated with the feed ends of small weighing tanks 9 of the large weighing tank 8 through connecting pipelines;

mother liquor with different raw material types is respectively stored in the first raw material tank 1, the second raw material tank 2 and the third raw material tank 3, and raw liquor batching is provided for the configuration of the composite liquid.

The water storage tank 4 is arranged outside the container 13 and positioned at one side of the raw material storage component, water used in the whole mixing process is stored in the water storage tank 4, and the water storage tank 4 is communicated with the proportioning tank 6, the large weighing tank 8, the middle weighing tank 7 and the small weighing tank 9 through connecting pipelines respectively;

the finished product tank 5 is arranged outside the container 13, and is positioned on the front side of the container 13;

the feeding end of the finished product tank 5 is communicated with the discharging end of the batching tank 6 through a connecting pipeline, a first electric pump 33 is arranged between the finished product tank 5 and the batching tank 6 and close to the connecting pipeline of the batching tank 6, a first discharging valve 14 is arranged between the finished product tank 5 and the batching tank 6 and close to the connecting pipeline of the finished product tank 5, and a first feeding valve 15 is arranged at the feeding end of the batching tank 6;

first material inlet valve 15 is pressed close to the feed end setting of batching jar 6, and first material inlet valve 15 sets up between first charge pump 33 and first bleeder valve 14, and the end of intaking and the drainage end of first charge pump 33 are connected with the discharge end and the feed end of batching jar 6 respectively, through the switching adjustment to between each valve for first charge pump 33 can enough lead the feeding operation in the batching jar 6, can take out the material that mixes in the batching jar 6 again in the finished product jar 5.

The mixing component is arranged on the inner wall of the container 13 and comprises a proportioning tank 6, a large weighing tank 8, a middle weighing tank 7, a small weighing tank 9 and a connecting pipeline, and the discharge ends of the large weighing tank 8, the middle weighing tank 7 and the small weighing tank 9 are communicated with the feed end of the proportioning tank 6 through the connecting pipeline respectively;

the large weighing tank 8, the medium weighing tank 7 and the small weighing tank 9 are weighed by installing a pressure sensor at the bottom of the tank, and determining the actual weighing value through data obtained by the feedback of the pressure sensor and a tank calibration curve of pressure and weight.

The large weighing tank 8, the medium weighing tank 7 and the small weighing tank 9 are connected with the batching tank 6 by connecting pipelines, and the connecting pipelines used at the three positions are communicated with each other.

The discharge end of the proportioning tank 6 is provided with a second discharge valve 16, the discharge end of the middle weighing tank 7 is provided with a third discharge valve 17, the discharge end of the large weighing tank 8 is provided with a fourth discharge valve 18, and the discharge end of the small weighing tank 9 is provided with a fifth discharge valve 29;

the stepwise discharging management and control of the weighing tanks 7, the large weighing tank 8 and the small weighing tank 9 are realized through the third discharging valve 17, the fourth discharging valve 18 and the fifth discharging valve 29, so that the adding and the preparation among all materials of the whole ingredient are more convenient and ordered.

The connecting pipeline at the feeding end of the small weighing tank 9 is communicated with the connecting pipeline at the discharging end of the small weighing tank 9, the third water valve 24 is arranged, and the connecting pipelines at the discharging ends of the batching tank 6, the large weighing tank 8, the middle weighing tank 7 and the small weighing tank 9 are communicated with each other;

the third water valve 24 is arranged at the joint of the plurality of pipelines, so that the plurality of tanks can be opened and closed to draw water from the water storage tank 4 through the connection condition between the connecting pipelines by using the third water valve 24.

The small material storage component is arranged inside the container 13 and provides some key additives for the preparation of the whole composite liquid, so that the preparation of the whole composite liquid is more accurate and stable;

the small material storage assembly comprises a first small material tank 10, a second small material tank 11 and a third small material tank 12, wherein the first small material tank 10, the second small material tank 11 and the third small material tank 12 are respectively communicated with the proportioning tank 6, the large weighing tank 8, the middle weighing tank 7 and the small weighing tank 9 through connecting pipelines;

the first small material tank 10, the second small material tank 11 and the third small material tank 12 are mainly connected with the small weighing tank 9, a fourth water valve 25 is arranged at a connecting pipeline connected with the large weighing tank 8 and the medium weighing tank 7, and meanwhile, the fourth water valve 25 also mainly controls the small weighing tank 9 to be connected with the water storage tank 4 in an opening and closing mode.

As a technical optimization scheme of the utility model, a second electric pump 34 is arranged at the feed end of the middle weighing tank 7, and a second feeding valve 19 and a first water valve 20 are respectively arranged between the second electric pump 34 and the connecting pipelines of the first raw material tank 1 and the water storage tank 4;

the middle weighing tank 7 mainly extracts the raw material mother liquor from the second raw material tank 2 and the third raw material tank 3, and in the actual process, the path of extracting the raw material mother liquor is determined by controlling the opening and closing of the second feed valve 19 and the first water valve 20 according to the need of the preparation of the composite liquid.

As a technical optimization scheme of the utility model, a third electric pump 35 is arranged at the feed end of the large weighing tank 8, a third feeding valve 21 and a fourth feeding valve 22 are respectively arranged between the third electric pump 35 and the connecting pipelines of the second raw material tank 2 and the third raw material tank 3, and a second water valve 23 is arranged at the connecting pipeline between the third electric pump 35 and the water storage tank 4.

As a technical optimization scheme of the utility model, a fourth electric pump 36 is arranged at the feed end of the small weighing tank 9, a first small discharge valve 28, a second small discharge valve 27 and a third small discharge valve 26 are respectively arranged at the connecting pipelines of the fourth electric pump 36 and the first small charging bucket 10, the second small charging bucket 11 and the third small charging bucket 12, and a fourth water valve 25 is arranged at the connecting pipeline of the fourth electric pump 36 and the water storage tank 4;

the small weighing tank 9 realizes a path for extracting small materials from the first small material tank 10, the second small material tank 11 and the third small material tank 12 through the opening and closing adjustment of the first small discharge valve 28, the second small discharge valve 27 and the third small discharge valve 26, and the fourth electric pump 36 is arranged at the feeding end of the small weighing tank 9 and is used as a power source for extracting the small materials and water from the small weighing tank 9.

As a technical optimization scheme of the utility model, a first small feeding valve 30 is arranged at the feeding end of a first small charging bucket 10, a second small feeding valve 31 is arranged at the feeding end of a second small charging bucket 11, and a third small feeding valve 32 is arranged at the feeding end of a third small charging bucket 12;

the first small charging bucket 10, the second small charging bucket 11 and the third small charging bucket 12 respectively perform small material supplement in the buckets through the opening and closing adjustment of the first small charging valve 30, the second small charging valve 31 and the third small charging valve 32.

The first discharge valve 14, the first feeding valve 15, the second discharge valve 16, the third discharge valve 17, the fourth discharge valve 18, the second feeding valve 19, the first water valve 20, the third feeding valve 21, the fourth feeding valve 22, the second water valve 23, the third water valve 24, the fourth water valve 25, the third small discharge valve 26, the second small discharge valve 27, the first small discharge valve 28, the fifth discharge valve 29, the first small feeding valve 30, the second small feeding valve 31 and the third small feeding valve 32 used in the present invention all adopt electromagnetic valves, all of which can be controlled through a cloud, and the first electric pump 33, the second electric pump 34, the third electric pump 35 and the fourth electric pump 36 also adopt a circuit board for cloud control.

As shown in FIG. 7, the weighing operation of each weighing tank of the weighing method of the apparatus of the present invention includes the following processes;

the first process is as follows: firstly, carrying out distribution weighing on raw material mother liquor and small materials by using each weighing tank according to a formula, and then calculating the weight of liquid actually extracted from each weighing tank according to the mapping relation of a hydraulic sensor of each weighing tank;

mapping of the actual weight of the hydraulic sensor:

each different weighing tank needs to go through this process, such as: 6T weigh tank, hydraulic sensor mapping weight from: 500kg, 1T, 1.5T, 2T, 2.5T, 3T, 3.5T, 4T, 4.5T, 5T, 5.5T and 6T; fitting a standard curve according to the relation between the digital signal of the hydraulic sensor and the weight, and establishing the relation between the digital signal value of the sensor and the weight: m is K0(S reading-S standard), M is the actual weight of the liquid in the tank, S standard is the digital signal value of the hydraulic pressure sensor in the air under standard environment, S reading is the actual digital signal value of the hydraulic pressure sensor, and K0 is the proportionality coefficient of weight to digital signal value.

And a second process: in the process of weighing the raw material mother liquor and the small materials by the weighing tanks, performing quantitative adjustment on the extraction of the raw material mother liquor and the small materials according to the ascending amount of each valve on each weighing tank;

the precise control method in the batching process comprises the following steps:

after the formula selection is determined, the accuracy of the ingredients is related to the accuracy of the hydraulic sensor and the valve closing control in the ingredients process. Therefore, a valve entering the weighing tank selects a fast valve (1S is closed), and the control flow of the system is additionally provided with the parameter of the ascending quantity of each valve; the rise parameter is defined as the volume that continues to be input from the valve to the weigh tank after each valve program is closed.

The third process: after each weighing tank finishes the weighing of the solution for one time, the weighing tank after liquid weighing needs to pump water from the water storage tank 4 to clean the interior of each tank, and after each weighing tank is cleaned, the next liquid weighing is carried out, and after each weighing is finished, the water pumping and cleaning are carried out;

after each weighing operation is finished, the pipeline in the last tank of each weighing tank is filled with water, so that the starting point of each batching is ensured to be consistent.

When the utility model is used, referring to fig. 1 to 6, liquid is compounded;

implementing the first step, starting the third water valve 24, the first feeding valve 15 and the first electric pump 33, and pumping the right amount of water from the water storage tank 4 to the dosing tank 6;

then, starting a second feeding valve 19 and a second electric pump 34, and pumping the mother liquor in the first raw material tank 1 into the middle weighing tank 7;

then, the third feeding valve 21 (or the fourth feeding valve 22) and the third electric pump 35 are started, and the mother liquid in the second raw material tank 2 (or the third raw material tank 3) is pumped into the large-weighing tank 8;

finally, the third small discharge valve 26 and the fourth electric pump 36 are started to pump the small materials in the third small material tank 12 into the small weighing tank 9.

The second step of operation is implemented, the second electric pump 34, the third electric pump 35, the fourth electric pump 36, the second feeding valve 19, the third feeding valve 21 and the third small discharging valve 26 are closed;

then the third discharge valve 17, the fourth discharge valve 18 and the fifth discharge valve 29 are opened, and the liquid in the middle weighing tank 7, the large weighing tank 8 and the small weighing tank 9 is pumped into the proportioning tank 6.

The third step of operation is implemented, the third discharging valve 17, the fourth discharging valve 18, the fifth discharging valve 29 and the first feeding valve 15 are firstly closed;

then the second electric pump 34, the third electric pump 35, the fourth electric pump 36, the first water valve 20, the second water valve 23 and the fourth water valve 25 are opened, and water is pumped from the water storage tank 4 to the middle weighing tank 7, the large weighing tank 8 and the small weighing tank 9.

Implementing a fourth operation of first turning off the second electric pump 34, the third electric pump 35, the fourth electric pump 36, the first water valve 20, the second water valve 23 and the fourth water valve 25;

then the third discharge valve 17, the fourth discharge valve 18 and the fifth discharge valve 29 are opened, and the liquid in the middle weighing tank 7, the large weighing tank 8 and the small weighing tank 9 is pumped into the proportioning tank 6.

The fifth step of operation is implemented, the third discharging valve 17, the fourth discharging valve 18, the fifth discharging valve 29 and the first feeding valve 15 are firstly closed;

then the fourth electric pump 36 and the fourth water valve 25 are opened to pump liquid water from the water storage tank 4 into the small weighing tank 9.

The sixth operation is performed, first the fourth electric pump 36 and the fourth water valve 25 are closed;

the third water valve 24, the first feeding valve 15 and the first electric pump 33 are then opened to draw water from the water storage tank 4 to the proportioning tank 6.

The seventh operation is performed by first closing the third water valve 24 and then opening the second outlet valve 16 for the homogenization step.

And performing the eighth step of operation, closing the first feeding valve 15, then opening the first discharging valve 14, pumping the mixed liquid into the finished product tank 5, and closing all valves and the electric pump after the pumping is finished.

The technical solutions in the embodiments can also be combined appropriately to form other embodiments that can be understood by those skilled in the art.

Claims (9)

1. The utility model provides a novel concrete admixture is compound equipment which characterized in that includes:

the container (13), one side of the container (13) is provided with a plurality of through holes, and the other side of the container (13) is provided with a closed door (1301);

the raw material storage assembly is arranged outside the container (13) and is positioned on one side provided with the through holes;

the water storage tank (4) is arranged outside the container (13) and is positioned at one side of the raw material storage assembly;

the finished product tank (5) is arranged outside the container (13) and is positioned on the front face of the container (13);

the mixing component is arranged on the inner wall of the container (13), and comprises a proportioning tank (6), a large weighing tank (8), a middle weighing tank (7), a small weighing tank (9) and a connecting pipeline, wherein the discharge ends of the large weighing tank (8), the middle weighing tank (7) and the small weighing tank (9) are communicated with the feed end of the proportioning tank (6) through the connecting pipeline respectively;

the small material storage assembly is arranged inside the container (13).

2. The novel concrete admixture compounding equipment according to claim 1, characterized in that: the raw materials storage assembly comprises a first raw material tank (1), a second raw material tank (2) and a third raw material tank (3), wherein the discharge end of the first raw material tank (1) is communicated with the feed end of a medium weighing tank (7) through a connecting pipeline, the discharge end of the second raw material tank (2) is communicated with the feed end of a large weighing tank (8) through a connecting pipeline, and the discharge end of the third raw material tank (3) is communicated with the feed end of a small weighing tank (9) of the large weighing tank (8) through a connecting pipeline.

3. The novel concrete admixture compounding equipment according to claim 1, characterized in that: the small material storage assembly comprises a first small material tank (10), a second small material tank (11) and a third small material tank (12), wherein the first small material tank (10), the second small material tank (11) and the third small material tank (12) are respectively communicated with the batching tank (6), the large weighing tank (8), the medium weighing tank (7) and the small weighing tank (9) through connecting pipelines.

4. The novel concrete admixture compounding equipment according to claim 1, characterized in that: the feed end of finished product jar (5) link up mutually through the discharge end of connecting tube and batching jar (6), between finished product jar (5) and batching jar (6), and be close to the connecting tube department of batching jar (6) and be provided with first charge pump (33), between finished product jar (5) and the batching jar (6), and be close to the connecting tube department of finished product jar (5) and be provided with first bleeder valve (14), the feed end of batching jar (6) is provided with first material valve (15) of entrying.

5. The novel concrete admixture compounding equipment according to claim 1, characterized in that: the discharge end of the batching tank (6) is provided with a second discharge valve (16), the discharge end of the middle weighing tank (7) is provided with a third discharge valve (17), the discharge end of the large weighing tank (8) is provided with a fourth discharge valve (18), and the discharge end of the small weighing tank (9) is provided with a fifth discharge valve (29).

6. The novel concrete admixture compounding equipment according to claim 5, characterized in that: and a second electric pump (34) is arranged at the feed end of the middle weighing tank (7), and a second feeding valve (19) and a first water valve (20) are respectively arranged between the second electric pump (34) and the connecting pipelines of the first raw material tank (1) and the water storage tank (4).

7. The novel concrete admixture compounding equipment according to claim 5, characterized in that: the feed end of the large-weighing tank (8) is provided with a third electric pump (35), a third feeding valve (21) and a fourth feeding valve (22) are respectively arranged between the third electric pump (35) and connecting pipelines of the second raw material tank (2) and the third raw material tank (3), and a second water valve (23) is arranged at the connecting pipeline between the third electric pump (35) and the water storage tank (4).

8. The novel concrete admixture compounding equipment according to claim 5, characterized in that: the feed end of little weighing tank (9) is provided with fourth charge pump (36), fourth charge pump (36) and the connecting pipeline department of first little charging bucket (10), second little charging bucket (11) and third little charging bucket (12) are provided with first little bleeder valve (28), the little bleeder valve of second (27) and the little bleeder valve of third (26) respectively, the connecting pipeline department of fourth charge pump (36) and water storage tank (4) is provided with fourth water valve (25), the feed end of first little charging bucket (10) is provided with first little charging valve (30), the feed end of second little charging bucket (11) is provided with the little charging valve of second (31), the feed end of third little charging bucket (12) is provided with the little charging valve of third (32).

9. The novel concrete admixture compounding equipment according to claim 1, characterized in that: the connecting pipeline of the feed end of the small weighing tank (9) and the connecting pipeline of the discharge end are communicated with each other, a third water valve (24) is arranged, and the connecting pipelines of the batching tank (6), the large weighing tank (8), the medium weighing tank (7) and the discharge end of the small weighing tank (9) are communicated with each other.

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