CN215139487U - Liquid preparation production system - Google Patents

Abstract

The utility model relates to a liquid preparation production system. Comprises a mixing and stirring device, wherein the mixing and stirring device comprises a mixing kettle and a stirrer arranged in the mixing kettle; the liquid preparation production system also comprises a plurality of feeding branches for feeding the raw materials to be mixed into the mixing kettle; each feeding branch comprises a batching device and a feeding device; the feeding device comprises a material storage barrel and a feeding pipeline for feeding the raw materials stored in the material storage barrel into the mixing kettle; the batching device comprises a batching pipeline used for feeding raw materials into the storage barrel. The utility model discloses a dosing unit and throw the material device and can reduce artifical batching and throw the operation of material, can improve production efficiency, save the labour.

Description

Liquid preparation production system

Technical Field

The utility model relates to a liquid preparation production system.

Background

In the production process of liquid preparations in the chemical field, various raw materials are generally prepared in advance according to a predetermined proportion, then are respectively put into a mixing kettle, are mixed and stirred by a stirrer, and finally are output to a product which is uniformly mixed in the mixing kettle. In the prior art, the preparation of raw materials and the operation of putting into a mixing kettle mostly adopt manual operation, and the production efficiency is lower.

Disclosure of Invention

The utility model aims to provide a liquid preparation production system, which comprises a mixing and stirring device, wherein the mixing and stirring device comprises a mixing kettle and a stirrer arranged in the mixing kettle; the liquid preparation production system also comprises a plurality of feeding branches for feeding the raw materials to be mixed into the mixing kettle; each feeding branch comprises a batching device and a feeding device; the feeding device comprises a material storage barrel and a feeding pipeline for feeding the raw materials stored in the material storage barrel into the mixing kettle; the batching device comprises a batching pipeline used for feeding raw materials into the storage barrel.

The utility model discloses a dosing unit and throw the material device and can reduce artifical batching and throw the operation of material, can improve production efficiency, save the labour.

Drawings

Fig. 1 shows a schematic structural view of the present invention;

fig. 2 shows a schematic structural view of the batching device of the present invention;

figure 3 shows a perspective view of the cylinder of the present invention;

fig. 4 shows a schematic structural view of the storage bucket of the present invention;

fig. 5 shows a schematic structural diagram of the feeding device of the present invention;

figure 6 shows a schematic view of a feed supplement mechanism of the present invention;

FIG. 7 is a schematic view showing the piston driven to the left by a predetermined distance on the basis of FIG. 6;

fig. 8 shows a schematic structural view of the mixing and stirring device of the present invention;

figure 9 shows a schematic view of an intermittent motion mechanism of the present invention;

FIG. 10 shows a perspective view of the rotating shaft and the first and second intermediate gears thereon;

fig. 11 is a schematic view showing the parts exploded from fig. 10.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

A liquid formulation production system as shown in fig. 1, comprising a mixing and stirring apparatus 10, the mixing and stirring apparatus 10 comprising a mixing tank 101 and a stirrer 102 provided in the mixing tank 101;

the liquid preparation production system further includes a plurality of feeding branches for feeding the raw materials to be mixed into the mixing tank 101, and the number of the feeding branches is shown as 2 in fig. 1, however, the number of the feeding branches is not limited to the number shown in the figure, and the number of the feeding branches is set according to the kind of the raw materials required for preparing the preparation, for example, when there are 3 kinds of the raw materials required for preparing the preparation, the number of the feeding branches is set as 3; also, when 4 kinds of raw materials are required for preparing the preparation, the number of feeding branches is set to 4 pieces.

Each feeding branch comprises a material proportioning device 20 and a feeding device 30;

the feeding device 30 comprises a storage barrel 301 and a feeding pipeline 302 for feeding the raw materials stored in the storage barrel 301 into the mixing kettle 101;

the dosing device 20 comprises a dosing conduit for feeding raw material into the stock tank 301.

The utility model discloses a dosing unit and throw the material device and can reduce artifical batching and throw the operation of material, can improve production efficiency, save the labour.

As shown in fig. 2 to 4, the dispensing device 20 further includes a pumping pump 201;

the ingredient conduits include a suction conduit and a discharge conduit 202;

the front end of the discharge pipe 202 is connected with the discharge port of the pump 201, and the tail end of the discharge pipe 202 extends to the storage barrel 301 to be communicated with the storage barrel;

the tail end of the suction pipeline is connected with a suction inlet of the pumping pump 201;

the suction pipeline comprises a front section 203, a middle section 204 and a tail section 205, wherein the tail end of the front section 203 is connected with the front end of the middle section 204, the tail end of the middle section 204 is connected with the front end of the tail section 205, the tail end of the tail section 205 is the tail end of the suction pipeline, and the front end of the front section 203 is the front end of the suction pipeline;

the front section 203 and the tail section 205 are hard pipes (e.g., metal pipes), and the middle section 204 is a flexible pipe.

The dispensing apparatus further comprises a controller 206, and the controller 206 is provided with a control button 207 for controlling the pumping pump 201 to be turned on or off.

The dosing unit working process that this technical scheme discloses as follows, irritate the raw materials (the splendid attire has the raw materials) and carry to the position of the anterior segment that is close to the suction line, irritate the interior through artifical manual front end with the anterior segment of suction line inserts the raw materials, then open the pumpingh pump, the raw materials drops into the stock bucket behind suction line, pumpingh pump and the discharge line in proper order, it can to close the pumpingh pump after accomplishing the stock bucket and throwing the material.

This technical scheme adopts the pump to absorb the raw materials in order to realize the work of throwing material of storage bucket, and reducible manual operation improves production efficiency, saves the labour. And the middle section through with the suction line sets up to the hose to the removal adjusting position improves the flexibility of using.

A liquid level detection mechanism for detecting the liquid level height is arranged in the storage barrel 301;

the liquid level detection mechanism includes an ultrasonic level gauge and a cylinder 208;

the upper end 209 and lower end 210 of the cylinder each have an opening;

the lower end 210 of the cylinder extends towards the bottom of the storage bucket 301 to be inserted below the liquid level in the storage bucket 301, and the raw material in the storage bucket 301 enters the cylinder 208 through the opening of the lower end 210 of the cylinder;

the upper end 209 of the cylinder extends towards the top of the storage bucket 301 to be exposed above the liquid level in the storage bucket 301;

the probe 211 of the ultrasonic level gauge extends into the cylinder 208 through an opening at the upper end 209 of the cylinder.

This technical scheme adopts the ultrasonic wave level gauge can realize contactless measurement liquid level, has nimble mounting means, convenient to use. And can detect the liquid level change in real time to the staff can in time learn the raw materials surplus in the storage bucket.

Furthermore, since the tail end of the discharge conduit is disposed above the liquid level (e.g., the top of the storage bucket), as shown in FIG. 4. In the process of charging materials into the storage barrel, liquid level fluctuation and even bubbles are caused, and the accuracy of liquid level measurement is influenced by the conditions. And this embodiment sets up the drum of inserting the liquid level, and drum lower extreme opening and storage bucket intercommunication make in raw materials liquid gets into the drum through drum lower extreme opening, and the liquid level height in the drum can actually reflect the liquid level height of storage bucket, that is to say, can obtain the liquid level height of storage bucket through the liquid level height in measuring the drum to through the separation effect of drum, the liquid level does not have obvious liquid level fluctuation in the drum, also does not have obvious bubble and produces, provides the measuring degree of accuracy. Meanwhile, the probe of the ultrasonic liquid level meter extends into the cylinder through the upper end opening of the cylinder to play a role in limiting the ultrasonic emission range, and the measurement reliability can be improved.

As shown in fig. 8 to 11, the blender 102 includes a motor 103, a center blending mechanism, and an edge blending mechanism;

the central stirring mechanism comprises a central rod 104 and a central blade 105 mounted on the central rod 104, in the embodiment, the lower end of the central rod extends towards the bottom of the mixing kettle, the central blade is mounted at the lower end of the central rod, and the central rod and the central blade are located in the middle of the mixing kettle;

the edge stirring mechanism comprises a rotating frame 106 and edge blades 107 arranged on the rotating frame 106, wherein the edge blades 107 are provided with a plurality of pieces, all the edge blades are close to the side wall of the mixing kettle, and all the edge blades 107 are distributed at intervals around the circumference of a central blade 105;

the motor 103 is arranged to drive the central rod 104 and the rotating frame 106 in rotation.

In this embodiment, each of the edge blades 107 has a long sheet shape whose length direction is parallel to the length direction of the center bar.

In this embodiment, the central rod and the rotating frame are rotatably mounted in the mixing tank (e.g., via bearings), respectively, and the rotation axis of the central rod coincides with the rotation axis of the rotating frame, and all the edge blades are equally circumferentially spaced around the rotation axis of the central rod.

The existing stirrer is usually only provided with a central blade, the stirring working process can only stir the raw materials in the middle of the mixing kettle, and the raw materials at the edge position of the mixing kettle close to the side wall can not be stirred, so that a more uniform mixture is difficult to obtain, and the quality of a preparation is difficult to ensure.

And this technical scheme can stir the raw materials that mix the marginal position that the cauldron is close to the lateral wall through setting up edge rabbling mechanism for the mixture is more even, in order to guarantee the quality of preparation.

The output shaft of the motor 103 is connected with the upper end of the central rod 104, so that the motor 103 drives the central rod 104 to rotate;

a transmission mechanism which drives the rotating frame 106 to rotate when the central rod 104 rotates is arranged between the central rod 104 and the rotating frame 106, and the transmission mechanism is an intermittent motion mechanism;

the intermittent motion mechanism is configured such that the rotating frame 106 is stopped when the center rod 104 rotates n consecutive turns and rotates 1 turn after the center rod 104 rotates n +1 turn;

because the raw material in the middle of the mixing kettle has larger aggregation, the raw material in the middle of the mixing kettle has higher stirring times and continuity requirements than the raw material at the edge of the side wall of the mixing kettle. This technical scheme makes central rabbling mechanism can work and edge rabbling mechanism work intermittently through adopting intermittent motion mechanism to accord with the stirring demand, can realize the stirring more rationally, need not edge rabbling mechanism continuous operation simultaneously, can save the power consumption use cost of motor and improve life.

The rotating frame 106 is provided with a cylinder 108, and the cylinder 108 is hollow outside the center rod 104 so that the center rod 104 can rotate relative to the cylinder 108;

the intermittent mechanism is an incomplete gear mechanism and comprises a driving gear 109, a first intermediate gear 110, a second intermediate gear 111, a driven gear 112 and a rotating shaft 113;

the driving gear 109 is fixedly sleeved on the central rod 104, the driven gear 112 is fixedly sleeved on the barrel part 108 of the rotating frame, and the axis of the driving gear 109 is overlapped with the axis of the driven gear 112;

the rotating shaft 113 is rotatably mounted in the mixing kettle 101, the rotating shaft 113 is rotatably mounted in the mixing kettle 101 through a bearing, for example, the axis of the rotating shaft 113 and the axis of the central rod 104 are parallel to each other;

the first intermediate gear 110 and the second intermediate gear 111 are respectively fixedly sleeved on the rotating shaft 113;

the driving gear 109 is in meshing transmission with a first intermediate gear 110, and the driven gear 112 is in meshing transmission with a second intermediate gear 111;

wherein the number of teeth on the second intermediate gear 111 is incomplete and includes a toothed portion 114 and a non-toothed portion 115;

the driven gear 112 is pushed to rotate by the second intermediate gear 111 when the toothed portion 114 of the second intermediate gear is engaged with the driven gear 112, and the driven gear 112 is stopped when the toothed portion 114 of the second intermediate gear is disengaged from the driven gear 112.

The intermittent motion mechanism disclosed by the technical scheme has the advantages of simple structure, reasonable design and convenience in implementation.

As shown in fig. 5 to 7, the front end of the feeding pipe 302 is connected to the material storage barrel 301, and the rear end of the feeding pipe 302 extends to the mixing kettle 101 to communicate with the mixing kettle;

a valve 303 for opening and closing the feeding pipeline is arranged on the feeding pipeline 302;

in this embodiment, the valve 303 is a pneumatic ball valve, the raw material in the storage barrel 301 can flow into the mixing kettle 101 by gravity, and a feeding pushing mechanism (e.g. a pump) for actively pushing the raw material can be arranged on the feeding pipeline 302;

the charging device 30 further includes a weighing mechanism for measuring the weight of the raw material stored in the stock tank 301 and a replenishing mechanism 40 for replenishing the mixing tank 101 with the raw material stored in the stock tank 301.

This technical scheme can tentatively master the volume of throwing the raw materials from the storage bucket to the mixing kettle through setting up weighing mechanism, for example, throw the weight that measuring of material front weighing mechanism is L1, throw the weight that measuring of material back front weighing mechanism is L2, then the weight of throwing the raw materials from the storage bucket to the mixing kettle is the difference between L1 and L2. Meanwhile, the function of real-time measurement of the weighing mechanism can be utilized to control the valve to close the feeding pipeline after a preset amount of raw materials are fed. However, since the real-time weighing in the feeding process is dynamic weighing, the accuracy of the measurement of the weighing mechanism is biased, and the valve response also requires time, which causes inaccurate feeding, and the inaccurate proportioning of the raw materials (especially some important raw materials) directly affects the quality of the preparation.

The technical scheme can solve the technical problem of inaccurate feeding by arranging the feeding mechanism. The rough feeding process is realized through the weighing mechanism, the fine feeding process is realized through the material supplementing mechanism, and the rough feeding process and the fine feeding process are carried out sequentially so as to achieve quick and accurate feeding.

The weighing mechanism comprises a plurality of weighing sensors 304 arranged at the bottom of the storage barrel 301;

the material supplementing mechanism 40 comprises a material supplementing pipeline, the front end of the material supplementing pipeline is connected with the material storage barrel 301, and the tail end of the material supplementing pipeline extends to the mixing kettle 101 and is communicated with the mixing kettle;

the feed supplement pipeline is provided with a feed supplement pushing mechanism for actively pushing the raw materials;

the feeding material pushing mechanism comprises a syringe, the syringe comprises a cylinder 402 and a piston 403 arranged in the cylinder, the cylinder 402 is provided with a suction inlet 404 and a discharge outlet 405;

the material supplementing pipeline 401 comprises a material sucking pipe 401 and a material discharging pipe 406, the front end of the material sucking pipe 401 is the front end of the material feeding pipeline, the tail end of the material sucking pipe 401 is connected with a suction port 404 of the cylinder barrel, the front end of the material discharging pipe 406 is connected with a discharge port 405 of the cylinder barrel, and the tail end of the material discharging pipe 406 is the tail end of the material supplementing pipeline;

the suction pipe 401 is provided with a first check valve 407 which allows the raw material to flow from the storage barrel 301 to the cylinder 402 and prohibits the raw material from flowing back to the storage barrel 301 from the cylinder 402;

the discharge conduit 406 is provided with a second one-way valve 408 that permits the flow of material from the cylinder 402 to the trailing end of the discharge conduit 406 while inhibiting the flow of material from the trailing end of the discharge conduit 406 back into the cylinder 402.

The technical scheme has a simple structure, and the feeding mechanism can quantitatively and accurately feed the preset raw materials into the mixing kettle. The first one-way valve and the second one-way valve are arranged to prevent the injector from reflowing in the process of sucking and discharging materials.

In this embodiment, when the piston 403 of the syringe moves to the left side in fig. 6, the cylinder 402 sucks the raw material from the storage barrel 301 through the suction pipe 401, and the discharge pipe 406 is provided with the second check valve 408, so that the phenomenon that the raw material flows back to the cylinder 402 from the tail end of the discharge pipe 406 can be avoided, and when the piston 403 finally moves to the left to the position shown in fig. 7, the cylinder 402 sucks a predetermined amount of raw material.

As shown in fig. 7, when the piston 403 of the syringe moves to the right in fig. 7, the raw material in the cylinder 402 is discharged through the discharge pipe 406 and falls into the mixing kettle 101, while the suction pipe 401 is provided with the first check valve 407, so that the phenomenon that the material storage barrel 301 is returned from the cylinder 402 can be avoided, and when the piston 403 finally moves to the right to the position shown in fig. 6, the cylinder 402 discharges a predetermined amount of raw material.

The feeding pushing mechanism further comprises an electric driving mechanism for driving the piston 403 of the injector to move, the electric driving mechanism comprises a transmission component (not shown in the figure) and a controller component 410, the transmission component is used for driving the piston 403 of the injector, the controller component 410 is used for controlling the movement stroke of the piston 403 of the injector through the transmission component, and the suction amount and the extrusion amount of the raw materials (namely the amount of the raw materials which are fed into the storage barrel and are stored in the mixing kettle) can be controlled by controlling the stroke of the piston through the electric driving mechanism.

The utility model also discloses a liquid preparation production method for the raw materials that weight is T is put into to mixing kettle, including the initial weight of raw materials in measuring the stock bucket, be T1 with the initial weight record of raw materials in the stock bucket, still include:

first, rough feeding

Opening a feeding pipeline for communicating the material storage barrel and the mixing kettle so that the raw materials in the material storage barrel flow into the mixing kettle through the feeding pipeline;

measuring the weight of the raw materials left in the storage barrel in real time, and when the weight of the raw materials left in the storage barrel is T2, closing the feeding pipeline, wherein T is more than T1-T2;

two, fine feeding

After the charging pipe is closed, measuring the actual weight of the raw material left in the storage bucket again, and recording the actual weight of the raw material left in the storage bucket as T3, wherein T3 may not be equal to T2 due to the dynamic measurement and the valve response error;

and (3) feeding a raw material with the weight of T4 into the mixing kettle by using a feeding mechanism, wherein T is T1-T3+ T4.

The liquid preparation production method can solve the technical problem of inaccurate feeding by arranging the material supplementing mechanism. The rough feeding process is realized through the weighing mechanism, the fine feeding process is realized through the material supplementing mechanism, and the rough feeding process and the fine feeding process are carried out sequentially so as to achieve quick and accurate feeding.

The raw materials fed into the mixing kettle by the material supplementing mechanism come from a material storage barrel.

The liquid preparation production method of the utility model can be applied to the liquid preparation production system.

For example, a mixing kettle needs to be charged with a weight T of raw materials, specifically:

firstly, measuring the initial weight of the raw material in the storage bucket through a weighing mechanism, and recording the initial weight of the raw material in the storage bucket as T1;

then, opening a valve, opening a feeding pipeline, and enabling the raw materials in the storage barrel to flow into the mixing kettle through the feeding pipeline, wherein in the process, the weighing mechanism can measure the weight of the residual raw materials in the storage barrel in real time, when the weight of the residual raw materials in the storage barrel is measured in real time and reaches T2, the valve is closed to close the feeding pipeline, and the raw materials in the storage barrel stop flowing into the mixing kettle, of course, the preset T2 meets the condition that T is greater than T1-T2, in the embodiment, T2 is used as a condition for closing the valve, and the operation of opening and closing the valve can be completed by adopting an automatic control technology without manually opening or closing the valve;

measuring again the actual weight of the remaining material in the storage vessel after the valve is closed and recording the actual weight of the remaining material in the storage vessel as T3, the value of T3 excluding the effects of dynamic measurements and valve response errors being a relatively accurate value;

obtaining a value of T4 according to a calculation formula of T1-T3+ T4;

sucking a raw material with the weight of T4 from the storage barrel 301 through an injector of the feeding mechanism;

finally, injecting the raw material with the weight of T4 into the mixing kettle from the injector;

of course, the syringe sucking the raw material with a weight of T4 from the stock tank and injecting the raw material with a weight of T4 into the mixing tank can be achieved by controlling the stroke of the piston by the controller 410.

Claims (8)

1. The utility model provides a liquid preparation production system, includes mixing stirring device, this mixing stirring device including mix the cauldron with locate the mixer in mixing the cauldron, its characterized in that:

the liquid preparation production system also comprises a plurality of feeding branches for feeding raw materials into the mixing kettle;

each feeding branch comprises a batching device and a feeding device;

the feeding device comprises a material storage barrel and a feeding pipeline for feeding the raw materials stored in the material storage barrel into the mixing kettle;

the batching device comprises a batching pipeline used for feeding raw materials into the storage barrel.

2. The liquid formulation production system according to claim 1, characterized in that:

the batching device also comprises a pumping pump;

the ingredient pipeline comprises a suction pipeline and a discharge pipeline;

the front end of the discharge pipeline is connected with a discharge port of the pumping pump, and the tail end of the discharge pipeline extends to the material storage barrel;

the tail end of the suction pipeline is connected with a suction inlet of the pumping pump;

the suction pipeline comprises a front section, a middle section and a tail section, wherein the tail end of the front section is connected with the front end of the middle section, the tail end of the middle section is connected with the front end of the tail section, and the tail end of the tail section is the tail end of the suction pipeline;

wherein, this anterior segment and tail section are the hard tube, and this middle section is the hose.

3. The liquid formulation production system according to claim 2, characterized in that:

a liquid level detection mechanism for detecting the liquid level height is arranged in the material storage barrel;

the liquid level detection mechanism comprises an ultrasonic liquid level meter and a cylinder;

the upper end and the lower end of the cylinder are provided with openings;

the lower end of the cylinder extends towards the bottom of the storage bucket so as to be inserted below the liquid level in the storage bucket, and raw materials in the storage bucket enter the cylinder through the lower end opening of the cylinder;

the upper end of the cylinder extends to the top of the storage bucket to be exposed above the liquid level in the storage bucket;

the probe of the ultrasonic liquid level meter extends into the cylinder through the upper end opening of the cylinder.

4. The liquid formulation production system according to claim 1, characterized in that:

the stirrer comprises a motor, a central stirring mechanism and an edge stirring mechanism;

the central stirring mechanism comprises a central rod and a central blade arranged on the central rod;

the edge stirring mechanism comprises a rotating frame and edge blades arranged on the rotating frame, wherein the edge blades are provided with a plurality of blades, and all the edge blades are circumferentially distributed around a central blade at intervals;

the motor is arranged to drive the central rod and the swivel frame in rotation.

5. The liquid formulation production system according to claim 4, characterized in that:

the output shaft of the motor is connected with the upper end of the central rod, so that the motor drives the central rod to rotate;

a transmission mechanism which drives the rotating frame to rotate when the central rod rotates is arranged between the central rod and the rotating frame, and the transmission mechanism is an intermittent motion mechanism;

the intermittent motion mechanism is set in such a way that the rotating frame stops when the central rod rotates for n circles continuously and rotates for 1 circle after the central rod rotates for n +1 circles;

the rotating frame is provided with a cylinder part which is sleeved outside the central rod in a hollow way so that the central rod can rotate relative to the cylinder part;

the intermittent motion mechanism is an incomplete gear mechanism and comprises a driving gear, a first intermediate gear, a second intermediate gear, a driven gear and a rotating shaft;

the driving gear is fixedly sleeved on the central rod, and the driven gear is fixedly sleeved on the cylinder part of the rotating frame;

the rotating shaft is rotatably arranged in the mixing kettle, and the axis of the rotating shaft is parallel to the axis of the central rod;

the first intermediate gear and the second intermediate gear are respectively fixedly sleeved on the rotating shaft;

the driving gear is in meshing transmission with the first intermediate gear, and the driven gear is in meshing transmission with the second intermediate gear;

wherein the number of teeth on the second intermediate gear is incomplete and includes a toothed portion and a non-toothed portion;

the driven gear is urged to rotate by the second intermediate gear when the toothed portion of the second intermediate gear is engaged with the driven gear, and the driven gear is stopped when the toothed portion of the second intermediate gear is disengaged from the driven gear.

6. The liquid formulation production system according to claim 5, characterized in that:

the front end of the feeding pipeline is connected with the storage barrel, and the tail end of the feeding pipeline extends to the mixing kettle;

the feeding pipeline is provided with a valve for opening and closing the feeding pipeline;

the feeding device also comprises a weighing mechanism for measuring the weight of the raw materials stored in the material storage barrel and a material supplementing mechanism for supplementing the raw materials stored in the material storage barrel to the mixing kettle.

7. The liquid formulation production system according to claim 6, wherein:

the feed supplement mechanism comprises a feed supplement pipeline, the front end of the feed supplement pipeline is connected with the storage barrel, and the tail end of the feed supplement pipeline extends to the mixing kettle;

the feed supplement pipeline is provided with a feed supplement pushing mechanism for actively pushing the raw materials;

the feed supplement pushing mechanism comprises a syringe, the syringe comprises a cylinder barrel and a piston arranged in the cylinder barrel, and the cylinder barrel is provided with a suction inlet and a discharge outlet;

the material supplementing pipeline comprises a material sucking pipe and a material discharging pipe, wherein the front end of the material sucking pipe is the front end of the material feeding pipeline, the tail end of the material sucking pipe is connected with a suction inlet of the cylinder barrel, the front end of the material discharging pipe is connected with a discharge outlet of the cylinder barrel, and the tail end of the material discharging pipe is the tail end of the material supplementing pipeline;

the material suction pipe is provided with a first one-way valve which allows the raw material to flow from the material storage barrel to the cylinder barrel and prohibits the raw material from flowing back to the material storage barrel from the cylinder barrel;

the discharge conduit is provided with a second check valve for permitting the flow of the material from the cylinder to the trailing end of the discharge conduit while inhibiting the flow of the material from the trailing end of the discharge conduit back into the cylinder.

8. The liquid formulation production system according to claim 7, wherein:

the feeding material pushing mechanism also comprises a power-driven driving mechanism used for driving the piston of the injector to move, the power-driven driving mechanism comprises a transmission part and a controller part, the transmission part is used for driving the piston of the injector, and the controller part is used for controlling the movement stroke of the piston of the injector.

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