CN214605159U - L-shaped integrated stirring station with lower waiting bin - Google Patents

Abstract

The utility model relates to a stirring station technical field is a waiting for storehouse stirring station under L shape integration, and it includes proportioning machine, first conveyer, waits for storehouse, second conveyer, weighing and metering host computer platform, first frame and second frame, and first frame the place ahead is equipped with the ascending storehouse of waiting of opening, waits for the storehouse left and is equipped with the second frame, and first frame rear portion is equipped with the first conveyer that can be by back to preceding transported substance material, and first conveyer front end is located waits for the storehouse top. The utility model has reasonable and compact structure and convenient use, and can quickly realize the weighing and metering of the first powder bin, the second powder bin and the water bin by arranging the first weighing component, the second weighing component and the third weighing component, so that water and powder are added into the stirring host machine in required proportion; through setting up and waiting for the storehouse, make the required aggregate of single mixing stirring reserve in advance, realize not shutting down many batches of aggregate, powder and water continuous mixing stirring, have stable, reliable and quick weighing and metering's characteristics.

Description

L-shaped integrated stirring station with lower waiting bin

Technical Field

The utility model relates to a stirring station technical field is a waiting for storehouse stirring station under L shape integration.

Background

The mixing plant is mainly used for concrete engineering, mainly used for mixing mixed concrete, also called as a concrete mixing plant, and mainly suitable for large-scale infrastructure construction engineering such as urban commodity premixed concrete, roads and bridges, water conservancy projects, airports, ports and the like and places with large concrete demand.

The concrete mixing plant mainly comprises five systems such as a mixing host, a material weighing system, a material conveying system, a material storage system, a control system and the like, and other accessory facilities. The lower part of the material storage system is provided with a conveying pipe which conveys powder into the stirring chamber, the conveying line conveys aggregate such as sand and stone into the stirring chamber, the powder and the aggregate are stirred and mixed in the stirring chamber and then flow out from a discharge port arranged at the discharging part of the stirring chamber, and the concrete mixer truck is arranged below the discharge port and then follows the mixture of the aggregate and the powder flowing out from the discharge port.

The problem that current stirring station exists: (1) the whole body is in a straight line shape, and a long and narrow space needs to be built, so that the distance between a material storage system and a stirring chamber is longer, the material conveying process is longer, and the whole production efficiency is influenced; (2) the overall structure of the host platform is complex, and the powder in the powder bin cannot be quickly weighed; (3) the conveying efficiency of aggregate is low and host computer platform does not possess aggregate and stores the storehouse, need shut down to supply the aggregate after, start the stirring again, and then causes the problem that the stirring efficiency of mixing plant is low.

Disclosure of Invention

The utility model provides a wait for storehouse mixing plant under L shape integration has overcome above-mentioned prior art not enough, and it can effectively solve current host computer platform stirring inefficiency, and can't realize the problem of weighing to powder in the powder storehouse fast.

The technical scheme of the utility model is realized through following measure: an L-shaped integrated lower waiting bin stirring station comprises a proportioning machine, a first conveyor, a waiting bin, a second conveyor, a weighing and metering host platform, a first frame and a second frame, wherein the waiting bin with an upward opening is arranged in front of the first frame, the second frame is arranged on the left side of the waiting bin, the first conveyor capable of conveying materials from back to front is arranged on the rear portion of the first frame, the front end of the first conveyor is positioned above the waiting bin, the proportioning machine is arranged on the upper side of the rear portion of the first conveyor, the second frame is arranged in a left-high-right-low mode, the second conveyor capable of conveying materials from right to left is arranged on the right portion of the second frame, and the right end of the second conveyor is positioned below the waiting bin; a weighing and metering host platform is arranged on the upper side of the left end of the second frame, the weighing and metering host platform comprises a stirring platform, a metering platform, a first powder bin, a second powder bin, a water bin and a stirring host, the stirring host with the lower end positioned below the stirring platform is arranged on the upper side of the stirring platform, a main discharge port is arranged on the lower side of the stirring host, a main feed hole is arranged on the upper side of the right part of the stirring host corresponding to the position below the left end of the second conveyor, a first powder inlet hole, a second powder inlet hole and a water inlet hole are respectively arranged on the upper side of the left part of the stirring host, a metering platform with the upper end positioned above the stirring host is arranged on the outer side of the upper part of the stirring host, a first powder bin is arranged on the metering platform corresponding to the first powder inlet hole, a first weighing component is arranged between the first powder bin and the metering platform, a second powder bin is arranged on the metering platform corresponding to the second powder inlet hole, a second weighing component is arranged between the second powder bin and the metering platform corresponding to the water inlet hole, a water bin is arranged on the metering platform corresponding to the water inlet hole, and a third weighing component is arranged between the water bin and the metering platform.

The following are further optimization or/and improvement of the technical scheme of the utility model:

the metering platform can comprise a first weighing frame and a second weighing frame, a first powder bin and a second powder bin are arranged in the first weighing frame at intervals in the front-back direction, and a water bin is arranged in the second weighing frame; the first weighing component comprises a first pressing lug and first weighing sensors, at least two first weighing sensors are arranged on the upper side of a first weighing frame corresponding to the outer side of the first powder bin, the outer side of the first powder bin corresponding to each first weighing sensor is fixedly provided with the first pressing lug, and the lower side of each first pressing lug is positioned on the upper side of the first weighing sensor corresponding to the corresponding position; the second weighing component comprises a second pressing lug and second weighing sensors, at least two second weighing sensors are arranged on the upper side of the first weighing frame corresponding to the outer side of the second powder bin, a second pressing lug is fixedly arranged on the outer side of the second powder bin corresponding to each second weighing sensor, and the lower side of each second pressing lug is positioned on the upper side of the second weighing sensor corresponding to the corresponding position; the third weighing component comprises a third pressing lug and a third weighing sensor, at least two third weighing sensors are arranged on the upper side of the second weighing frame, a third pressing lug is fixedly mounted on the outer side of the water sump corresponding to the position of each third weighing sensor, and the lower side of each third pressing lug is located on the upper side of the corresponding third weighing sensor.

The above-mentioned still can include a metering section of thick bamboo, and the measurement platform still includes the installation roof beam, and first frame of weighing is located the second frame upper right side of weighing, and the second frame left side of weighing is equipped with two at least installation roof beams around the interval, all is equipped with the metering section of thick bamboo that is located the sump top on every installation roof beam.

The batching machine can comprise a storage hopper, weighing hoppers and weighing platforms, wherein at least three weighing platforms with the upper ends positioned above the first conveyor are arranged on the outer side of the rear part of the first frame at intervals from front to back, each weighing platform comprises a third weighing frame, a pressing frame and fourth weighing sensors, each third weighing frame is internally provided with a weighing hopper with the lower end positioned below the third weighing frame, the upper side of each third weighing frame is provided with at least two fourth weighing sensors, the outer sides of the upper parts of the weighing hoppers are fixedly provided with the pressing frames, and the lower sides of the pressing frames are positioned on the upper sides of the fourth weighing sensors; a storage hopper is arranged above each weighing hopper.

The powder bin comprises a main discharge hole, a main valve, a discharge valve, a weighing valve, a first valve, a second valve and a third valve, wherein the main discharge hole is provided with the main valve, the discharge hole of each storage hopper is provided with the discharge valve, the discharge hole of each weighing hopper is provided with the weighing valve, the first valve is fixedly installed between the discharge hole of the first powder bin and the first powder inlet hole, the second valve is fixedly installed between the discharge hole of the second powder bin and the second powder inlet hole, and the third valve is fixedly installed between the water outlet of the water bin and the water inlet hole.

The controller can be further included, the main valve, the emptying valve, the weighing valve, the first valve, the second valve and the third valve are all electric control valves, the first weighing sensor, the second weighing sensor, the third weighing sensor and the fourth sensor are all connected with the controller, and the controller is respectively connected with the main valve, the emptying valve, the weighing valve, the first valve, the second valve and the third valve.

The stirring main machine corresponding to the main feeding hole is provided with a feeding hopper which is of a semi-closed cover body structure with a right opening.

The stirring main machine can also comprise an inclined chute, and the right side of the stirring main machine is fixedly provided with the inclined chute which is inclined in a left-high-right low shape.

The utility model has reasonable and compact structure and convenient use, and can quickly realize the weighing and metering of the first powder bin, the second powder bin and the water bin by arranging the first weighing component, the second weighing component and the third weighing component, so that water and powder are added into the stirring host machine in required proportion; aggregate required by single mixing and stirring is reserved in advance by arranging the waiting bin, and continuous mixing and stirring of multiple batches of aggregate, powder and water without stopping the machine are realized; the first lug is matched with the first weighing sensor to realize weighing and metering of the first powder bin; the second powder bin is matched with a second weighing sensor through a second pressing lug to realize weighing and metering of the second powder bin; through the cooperation of the third pressing lug and the third weighing sensor, the weighing and metering of the water sump are realized, and the weighing and metering device has the characteristics of stability, reliability and quick weighing and metering.

Drawings

Fig. 1 is a schematic structural view of the preferred embodiment of the present invention.

Fig. 2 is a schematic perspective view of fig. 1.

Fig. 3 is a schematic front view of the weighing and metering host platform shown in fig. 1.

Fig. 4 is a schematic perspective view of the weighing and metering host platform shown in fig. 1.

Fig. 5 is a schematic perspective view of the dispensing machine shown in fig. 1.

The codes in the figures are respectively: 1 is stirring platform, 2 is first powder storehouse, 3 is the second powder storehouse, 4 is the sump, 5 is the stirring host computer, 6 is waiting the storehouse, 7 is the main discharge gate, 8 is first weighing frame, 9 is the second weighing frame, 10 is the third clamping lug, 11 is first clamping lug, 12 is first weighing sensor, 13 is the measuring cylinder, 14 is the installation roof beam, 15 is the feeder hopper, 16 is first frame, 17 is the second frame, 18 is first conveyer, 19 is the second conveyer, 20 is the storage hopper, 21 is the weighing hopper, 22 is the third weighing frame, 23 is the clamping frame, 24 is the fourth weighing sensor.

Detailed Description

The utility model discloses do not receive the restriction of following embodiment, can be according to the utility model discloses a technical scheme and actual conditions determine concrete implementation.

In the present invention, for convenience of description, the description of the relative position relationship of the components is described according to the layout mode of the attached drawing 1 in the specification, such as: the positional relationship of front, rear, upper, lower, left, right, etc. is determined in accordance with the layout direction of the drawings of the specification.

The invention will be further described with reference to the following examples and drawings:

as shown in fig. 1, 2, 3, 4 and 5, the L-shaped integrated lower waiting bin mixing station comprises a batching machine, a first conveyor 18, a waiting bin 6, a second conveyor 19, a weighing and metering host platform, a first frame 16 and a second frame 17, wherein the waiting bin 6 with an upward opening is arranged in front of the first frame 16, the second frame 17 is arranged on the left of the waiting bin 6, the first conveyor 18 capable of conveying materials from back to front is arranged at the rear part of the first frame 16, the front end of the first conveyor 18 is positioned above the waiting bin 6, the batching machine is arranged on the upper side of the rear part of the first conveyor 18, the second frame 17 is arranged in a left-high-right low state, the second conveyor 19 capable of conveying materials from right to left is arranged on the right part of the second frame 17, and the right end of the second conveyor 19 is positioned below the waiting bin 6; a weighing and metering host platform is arranged on the upper side of the left end of the second frame 17, the weighing and metering host platform comprises a stirring platform 1, a metering platform, a first powder bin 2, a second powder bin 3, a water bin 4 and a stirring host 5, the stirring host 5 is arranged on the upper side of the stirring platform 1, the lower end of the stirring host is positioned below the stirring platform, a main discharge port 7 is arranged on the lower side of the stirring host 5, a main feed port is arranged on the upper side of the right part of the stirring host 5 corresponding to the lower position of the left end of the second conveyor 19, a first powder inlet, a second powder inlet and a water inlet are respectively arranged on the upper side of the left part of the stirring host 5, a metering platform is arranged on the upper side of the stirring host 5, the upper end of the metering platform is positioned above the metering platform corresponding to the first powder inlet, a first powder bin 2 is arranged on the metering platform corresponding to the first powder bin 2, a first weighing component is arranged between the first powder bin 2 and the metering platform, a second powder bin 3 is arranged on the metering platform corresponding to the second powder inlet, a water sump 4 is arranged on the metering platform corresponding to the position of the water inlet hole, and a third weighing component is arranged between the water sump 4 and the metering platform. In the using process, the first weighing component, the second weighing component and the third weighing component are arranged, so that the weighing and metering of the first powder bin 2, the second powder bin 3 and the water bin 4 are quickly realized, and water and powder are added into the stirring host machine 5 in a required proportion; by arranging the waiting bin 6, aggregate required by single mixing and stirring is reserved in advance, and continuous mixing and stirring of multiple batches of aggregate, powder and water without stopping are realized, so that the stirring efficiency is improved; through setting up first frame 16 and second frame 17 into L shape, avoid the utility model discloses it is too long and narrow to set up the place, and can reduce the distance that the aggregate was carried. According to the requirement, the stirring main machine 5 is a known horizontal stirrer, and can be a JS-type double-horizontal-shaft forced stirrer; the first conveyor 18 and the second conveyor 19 are known screw conveyors, which may be of the type 273-9.

The utility model discloses specific application procedure can be:

a. the first conveyor 18 conveys the aggregate to the waiting bin 6 in advance for standby;

b. the ground conveying pipe conveys powder to the first powder bin 2 and the second powder bin 3, and the ground water conveying pipe conveys water to the water bin 4;

c. the second conveyor 19 adds the standby aggregate in the waiting bin 6 into the stirring host 5 through the main feeding hole, the powder in the first powder bin 2 is quantitatively added into the stirring host 5 according to the required proportion after the weighing and the metering of the first weighing component, the powder in the second powder bin 3 is quantitatively added into the stirring host 5 according to the required proportion after the weighing and the metering of the second weighing component, and the water in the water bin 4 is quantitatively added into the stirring host 5 according to the required proportion after the weighing and the metering of the third weighing component;

d. the aggregate, the powder and the water are stirred in the stirring host 5 according to the required proportion, and the aggregate is conveyed to the waiting bin 6 by the first conveyor 18;

e. after the stirring of the stirring main machine 5 is finished, discharging concrete from a main discharge port 7 into a concrete mixer truck below the stirring platform 1;

f. and (e) repeating the step (c) and the step (e) to realize continuous mixing and stirring of multiple batches of aggregate, powder and water without stopping the machine.

According to the actual need, the L-shaped integrated lower waiting bin stirring station can be further optimized or/and improved:

as shown in the attached figures 1, 2, 3, 4 and 5, the metering platform comprises a first weighing frame 8 and a second weighing frame 9, a first powder bin 2 and a second powder bin 3 are arranged in the first weighing frame 8 at intervals in the front and back direction, and a water bin 4 is arranged in the second weighing frame 9; the first weighing component comprises a first pressing lug 11 and first weighing sensors 12, at least two first weighing sensors 12 are arranged on the upper side of a first weighing frame 8 corresponding to the outer side of the first powder bin 2, the outer side of the first powder bin 2 corresponding to each first weighing sensor 12 is fixedly provided with the first pressing lug 11, and the lower side of the first pressing lug 11 is positioned on the upper side of the first weighing sensor 12 corresponding to the corresponding position; the second weighing component comprises a second pressing lug and second weighing sensors, at least two second weighing sensors are arranged on the upper side of the first weighing frame 8 corresponding to the outer side of the second powder bin 3, the outer side of the second powder bin 3 corresponding to each second weighing sensor is fixedly provided with the second pressing lug, and the lower side of each second pressing lug is located on the upper side of the second weighing sensor corresponding to the corresponding position; the third weighing component comprises a third pressing lug 10 and a third weighing sensor, at least two third weighing sensors are arranged on the upper side of the second weighing frame 9, a third pressing lug 10 is fixedly mounted on the outer side of the water sump 4 corresponding to the position of each third weighing sensor, and the lower side of each third pressing lug 10 is located on the upper side of the corresponding third weighing sensor. In the using process, the first weighing sensor 12 is arranged, so that the blanking amount of the first powder bin 2 can be calculated conveniently, quantitative control over the blanking amount of the first powder bin 2 can be realized through the existing well-known electromagnetic valve and controller, the blanking amount of the second powder bin 3 can be calculated conveniently by arranging the second weighing sensor, quantitative control over the blanking amount of the second powder bin 3 can be realized through the existing well-known electromagnetic valve and controller, the water adding amount of the water bin 4 into the stirring host machine 5 can be calculated conveniently by arranging the third weighing sensor, and quantitative control over the water adding amount of the water bin 4 can be realized through the existing well-known electromagnetic valve and controller, so that water and powder are added into the stirring host machine 5 in a required proportion, and the weighing and metering of the water bin 4 and the powder bins are realized rapidly. According to the requirement, the number of the first weighing sensor 12 and the second weighing sensor may be three, and the number of the third weighing sensor may be four, and the specific positions are distributed, for example, at the corresponding positions on the front side, the left side and the right side of the first powder bin 2, and at the corresponding positions on the front side, the rear side, the left side and the right side of the water bin 4. The first weight sensor 12, the second weight sensor and the third weight sensor are all known in the art according to the requirement, and may be pressure type sensors.

As shown in the attached figures 1, 2, 3, 4 and 5, the water sump measuring platform further comprises a measuring cylinder 13, the measuring platform further comprises a mounting beam 14, the first weighing frame 8 is positioned at the upper right of the second weighing frame 9, at least two mounting beams 14 are arranged on the left side of the second weighing frame 9 at intervals in the front and back direction, and each mounting beam 14 is provided with the measuring cylinder 13 positioned above the water sump 4. In the use process, the metering cylinder 13 is arranged, so that quantitative additives can be conveniently added into the water sump 4. The metering drum 13 is well known in the art and may employ a pendant sensor, as desired.

As shown in the attached drawings 1, 2, 3, 4 and 5, the batching machine comprises a storage hopper 20, a weighing hopper 21 and a weighing platform, at least three weighing platforms with upper ends positioned above a first conveyor 18 are arranged on the outer side of the rear part of a first frame 16 at intervals in the front and back direction, the weighing platform comprises third weighing frames 23, a pressing frame 23 and fourth weighing sensors 24, the weighing hopper 21 with the lower end positioned below the third weighing frame 23 is arranged in each third weighing frame 23, at least two fourth weighing sensors 24 are arranged on the upper side of each third weighing frame 23, the pressing frame 23 is fixedly arranged on the outer side of the upper part of each weighing hopper 21, and the lower side of each pressing frame 23 is seated on the upper side of each fourth weighing sensor 24; a storage hopper 20 is arranged above each weighing hopper 21. In the using process, a plurality of storage hoppers 20 are arranged to store a plurality of different materials, so that the requirement of storing aggregates with different components is met; different materials are discharged to the conveyor according to the required proportion by arranging the weighing hopper 21 and the weighing platform. The fourth weight sensor 24 is a well-known prior art sensor, which may be a piezo-type sensor, as desired.

As shown in the attached drawings 1, 2, 3, 4 and 5, the powder storage device further comprises a main valve, a discharge valve, a weighing valve, a first valve, a second valve and a third valve, the main discharge port 7 is provided with the main valve, the discharge port of each storage hopper 20 is provided with the discharge valve, the discharge port of each weighing hopper 21 is provided with the weighing valve, the first valve is fixedly installed between the discharge port of the first powder bin 2 and the first powder inlet hole, the second valve is fixedly installed between the discharge port of the second powder bin 3 and the second powder inlet hole, and the third valve is fixedly installed between the water outlet of the water bin 4 and the water inlet hole. In the using process, the plurality of valves are arranged, so that the aggregates with different components are prepared for the materials in the storage hoppers 20 according to the requirements, the discharged materials in the weighing hoppers 21 are prepared for the discharged materials with different proportions according to the requirements, and the prepared aggregates and powder are added into the stirring host machine 5 in the required proportion, then the valves are closed, and the stirring is completed. According to requirements, the first valve, the second valve and the third valve can adopt pneumatic butterfly valves; the material discharging valve and the weighing valve can adopt rotary pneumatic discharging valves; the blanking valve can adopt a pneumatic flap valve.

As shown in fig. 1, 2, 3, 4 and 5, the weighing system further comprises a controller, wherein the main valve, the emptying valve, the weighing valve, the first valve, the second valve and the third valve are all electric control valves, the first weighing sensor 12, the second weighing sensor, the third weighing sensor and the fourth weighing sensor are all connected with the controller, and the controller is respectively connected with the main valve, the emptying valve, the weighing valve, the first valve, the second valve and the third valve. In the using process, the aggregate and the powder can be added into the stirring main machine 5 in a required proportion by arranging the controller, so that the stirring is completed. The controller is well known in the art, and the model of the main control chip of the controller can be BOSHO 1200A.

As shown in fig. 1, 2, 3, 4 and 5, the stirring device further comprises a feeding hopper 15, the stirring main machine 5 corresponding to the position of the main feeding hole is provided with the feeding hopper 15, and the feeding hopper 15 is of a semi-closed cover structure with a right opening. In the use, through setting up semi-closed feeder hopper 15, be convenient for fall into stirring host computer 5 through the aggregate that material conveyor carried to main feed inlet.

As shown in the attached figures 1, 2, 3, 4 and 5, the stirring device further comprises an inclined chute, and the inclined chute which is high at the left and low at the right is fixedly installed on the right side of the stirring host machine 5. In the use, avoid the aggregate to fall on stirring platform 1 through setting up oblique chute, influence the operation environment.

Above technical feature constitutes the utility model discloses a best embodiment, it has stronger adaptability and best implementation effect, can increase and decrease unnecessary technical feature according to actual need, satisfies the demand of different situation.

Claims (10)

1. An L-shaped integrated lower waiting bin stirring station is characterized by comprising a proportioning machine, a first conveyor, a waiting bin, a second conveyor, a weighing and metering host platform, a first rack and a second rack, wherein the waiting bin with an upward opening is arranged in front of the first rack, the second rack is arranged on the left side of the waiting bin, the first conveyor capable of conveying materials from back to front is arranged on the rear portion of the first rack, the front end of the first conveyor is positioned above the waiting bin, the proportioning machine is arranged on the upper side of the rear portion of the first conveyor, the second rack is arranged in a left-high-right-low mode, the second conveyor capable of conveying materials from right to left is arranged on the right portion of the second rack, and the right end of the second conveyor is positioned below the waiting bin; a weighing and metering host platform is arranged on the upper side of the left end of the second frame, the weighing and metering host platform comprises a stirring platform, a metering platform, a first powder bin, a second powder bin, a water bin and a stirring host, the stirring host with the lower end positioned below the stirring platform is arranged on the upper side of the stirring platform, a main discharge port is arranged on the lower side of the stirring host, a main feed hole is arranged on the upper side of the right part of the stirring host corresponding to the position below the left end of the second conveyor, a first powder inlet hole, a second powder inlet hole and a water inlet hole are respectively arranged on the upper side of the left part of the stirring host, a metering platform with the upper end positioned above the stirring host is arranged on the outer side of the upper part of the stirring host, a first powder bin is arranged on the metering platform corresponding to the first powder inlet hole, a first weighing component is arranged between the first powder bin and the metering platform, a second powder bin is arranged on the metering platform corresponding to the second powder inlet hole, a second weighing component is arranged between the second powder bin and the metering platform corresponding to the water inlet hole, a water bin is arranged on the metering platform corresponding to the water inlet hole, and a third weighing component is arranged between the water bin and the metering platform.

2. The L-shaped integrated lower waiting bin stirring station as claimed in claim 1, wherein the metering platform comprises a first weighing frame and a second weighing frame, a first powder bin and a second powder bin are arranged in the first weighing frame at intervals in the front and back direction, and a water bin is arranged in the second weighing frame; the first weighing component comprises a first pressing lug and first weighing sensors, at least two first weighing sensors are arranged on the upper side of a first weighing frame corresponding to the outer side of the first powder bin, the outer side of the first powder bin corresponding to each first weighing sensor is fixedly provided with the first pressing lug, and the lower side of each first pressing lug is positioned on the upper side of the first weighing sensor corresponding to the corresponding position; the second weighing component comprises a second pressing lug and second weighing sensors, at least two second weighing sensors are arranged on the upper side of the first weighing frame corresponding to the outer side of the second powder bin, a second pressing lug is fixedly arranged on the outer side of the second powder bin corresponding to each second weighing sensor, and the lower side of each second pressing lug is positioned on the upper side of the second weighing sensor corresponding to the corresponding position; the third weighing component comprises a third pressing lug and a third weighing sensor, at least two third weighing sensors are arranged on the upper side of the second weighing frame, a third pressing lug is fixedly mounted on the outer side of the water sump corresponding to the position of each third weighing sensor, and the lower side of each third pressing lug is located on the upper side of the corresponding third weighing sensor.

3. The L-shaped integrated lower waiting bin mixing station as claimed in claim 2, further comprising a metering drum, wherein the metering platform further comprises mounting beams, the first weighing frame is positioned at the upper right of the second weighing frame, at least two mounting beams are arranged on the left side of the second weighing frame at intervals in front and back, and a metering drum positioned above the water bin is arranged on each mounting beam.

4. The L-shaped integrated lower waiting bin stirring station as claimed in claim 1, 2 or 3, wherein the batching machine comprises a storage hopper, weighing hoppers and weighing platforms, at least three weighing platforms with upper ends positioned above the first conveyor are arranged on the outer side of the rear part of the first frame at intervals in the front and back direction, each weighing platform comprises a third weighing frame, a pressing frame and a fourth weighing sensor, each third weighing frame is internally provided with one weighing hopper with a lower end positioned below the third weighing frame, the upper side of each third weighing frame is provided with at least two fourth weighing sensors, the outer sides of the upper parts of the weighing hoppers are fixedly provided with the pressing frames, and the lower sides of the pressing frames are seated on the upper sides of the fourth weighing sensors; a storage hopper is arranged above each weighing hopper.

5. The L-shaped integrated lower waiting bin mixing station as claimed in claim 4, further comprising a main valve, a discharge valve, a weighing valve, a first valve, a second valve and a third valve, wherein the main discharge port is provided with the main valve, the discharge port of each storage hopper is provided with the discharge valve, the discharge port of each weighing hopper is provided with the weighing valve, the first valve is fixedly installed between the discharge port of the first powder bin and the first powder inlet hole, the second valve is fixedly installed between the discharge port of the second powder bin and the second powder inlet hole, and the third valve is fixedly installed between the water outlet and the water inlet hole of the water bin.

6. The L-shaped integrated lower waiting bin stirring station as claimed in claim 5, further comprising a controller, wherein the main valve, the emptying valve, the weighing valve, the first valve, the second valve and the third valve are all electrically controlled valves, the first weighing sensor, the second weighing sensor, the third weighing sensor and the fourth weighing sensor are all connected with the controller, and the controller is respectively connected with the main valve, the emptying valve, the weighing valve, the first valve, the second valve and the third valve.

7. The L-shaped integrated lower waiting bin stirring station as claimed in claim 1, 2, 3, 5 or 6, further comprising a feeding hopper, wherein the stirring main machine corresponding to the position of the main feeding hole is provided with the feeding hopper, and the feeding hopper is of a semi-closed cover structure with a right opening.

8. The L-shaped integrated lower waiting bin stirring station as claimed in claim 4, further comprising a feeding hopper, wherein the stirring main machine corresponding to the position of the main feeding hole is provided with the feeding hopper, and the feeding hopper is of a semi-closed cover structure with a right opening.

9. The L-shaped integrated lower waiting bin stirring station as claimed in claim 1, 2, 3, 5, 6 or 8, which is characterized by further comprising an inclined chute, wherein the inclined chute which is inclined in a left-high-right low shape is fixedly arranged on the right side of the stirring main machine.

10. The L-shaped integrated lower waiting bin stirring station as claimed in claim 7, further comprising an inclined chute, wherein the inclined chute which is inclined in a left-high-right-low shape is fixedly installed on the right side of the stirring main machine.

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