CN211466957U - Batching device - Google Patents

Abstract

The utility model relates to a light castable production facility technical field especially relates to a dosing unit. The batching device comprises a material storing mechanism, a weighing mechanism, a material gathering mechanism and a rack; the material storage mechanism is provided with a plurality of material storage cavities; the weighing mechanism is used for weighing the raw materials output by the corresponding storage cavity; the material gathering mechanism is provided with a material gathering cavity, and the material gathering cavity is used for gathering the raw materials weighed by the weighing mechanism; the storage mechanism, the weighing mechanism and the gathering mechanism are all arranged on the frame. The utility model provides a dosing unit to alleviate the big and technical problem of batching inefficiency of light castable batching process manual labor intensity who exists among the prior art.

Description

Batching device

Technical Field

The utility model belongs to the technical field of light castable production facility technique and specifically relates to a dosing unit is related to.

Background

The castable is an unshaped refractory material with high temperature resistance, low volume density and low thermal conductivity, wherein the light castable has many advantages of both the castable and the light refractory material and is more and more concerned in the high-temperature industry. The light castable is prepared from light refractory aggregate, light refractory powder, a bonding agent and an additive, wherein the performance of the light refractory aggregate has direct influence on the performance of the light castable.

The light castable can be divided into nine kinds of raw material light castable and six kinds of raw material light castable according to the number of the types of the used raw materials, and on a construction site, a plurality of raw materials are mixed according to a certain proportion and are stirred by adding water for use. In the prior art, the light castable is mainly prepared by manual operation, so that the labor intensity of manual operation is high and the preparation efficiency is low.

The present application thus provides a new dosing device that addresses the above-mentioned problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a dosing unit to alleviate the big and technical problem of batching inefficiency of the artifical intensity of labour of light castable batching process that exists among the prior art.

Based on the above-mentioned purpose, the utility model provides a dosing unit, include:

the storage mechanism is provided with a plurality of storage cavities for storing raw materials;

the weighing mechanism is used for weighing the raw materials output by the corresponding storage cavity;

the material gathering mechanism is provided with a material gathering cavity, and the material gathering cavity is used for gathering the raw materials weighed by the weighing mechanism;

and a frame; the material storing mechanism, the weighing mechanism and the material gathering mechanism are all arranged on the rack.

Further, the storage mechanism further comprises a first metering assembly for detecting the raw material output quantity of each storage cavity and a first valve body arranged on the output side of each storage cavity respectively.

Furthermore, the weighing mechanism comprises a plurality of weighing cavities which are communicated with the material storage cavities one by one and can receive the raw materials output by the material storage cavities, a second metering component which can respectively detect the output quantity of the raw materials of each weighing cavity, and a second valve body which is respectively arranged at the output side of each weighing cavity;

the weighing cavities are all communicated with the material collecting cavity.

Furthermore, the batching device also comprises a material conveying mechanism, and the material storage cavity is communicated with the weighing cavity through the material conveying mechanism;

the material conveying mechanism is a vibration material conveying mechanism, a spiral material conveying mechanism or a chute.

Furthermore, the material gathering mechanism further comprises a third metering assembly used for detecting the output quantity of the raw materials in the material gathering cavity and a third valve body arranged on the output side of the material gathering cavity.

Further, the batching device also comprises a control mechanism;

the first metering assembly, the first valve body, the second metering assembly, the second valve body, the third metering assembly and the third valve body are all connected with the control mechanism.

Further, the batching device further comprises a material conveying mechanism which can respectively convey the raw materials into the material storage cavities, and the material conveying mechanism is installed on the machine frame and connected with the control mechanism.

Further, the material transporting mechanism comprises a track mounted on the rack and a transport vehicle arranged on the track and capable of sliding to each material storage cavity along the track, and the transport vehicle is connected with the control mechanism.

Further, the dosing unit still includes filling mechanism, filling mechanism including set up in the conveyer belt of the delivery outlet in material gathering chamber with set up in spacing sensor on the conveyer belt, spacing sensor with the conveyer belt all with control mechanism connects.

Further, the material storage mechanism comprises a plurality of material storage containers which are connected to the rack, and the material storage cavity is arranged in the material storage containers;

the weighing mechanism comprises a plurality of weighing containers which are connected to the rack, and the weighing cavities are arranged in the weighing containers;

the material gathering mechanism comprises a material gathering container connected to the rack, and the material gathering cavity is arranged in the material gathering container.

Adopt above-mentioned technical scheme, the utility model discloses following beneficial effect has:

when using this dosing unit to be equipped with the light pouring material, at first place multiple raw materials in a plurality of storage chambeies respectively, accomplish the deposit of multiple raw materials, weigh the raw materials of storage chamber output through weighing mechanism to reach the raw materials volume of required ratio, the raw materials after rethread collection mechanism weighs the weighing mechanism gathers to the chamber of gathering together, thereby gathers the raw materials volume of intracavity for required ratio, also be the mixture after the batching.

To sum up, this dosing unit can replace the manual work to carry out the weighing operation and the mixing operation of raw materials, has reduced artificial intensity of labour, has practiced thrift the human cost, and has improved batching efficiency.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a top view of a dispensing device according to an embodiment of the present invention;

fig. 2 is a front view of a dispensing device according to an embodiment of the present invention;

fig. 3 is a schematic circuit structure diagram of a batching device provided by the embodiment of the present invention.

Icon: 1-a control mechanism; 2-a frame; 3-a material storage mechanism; 31-a storage container; 32-a first level indicator; 33-a first valve body; 34-a feeding mechanism; 4-a weighing mechanism; 41-weighing container; 42-a second level indicator; 43-a second valve body; 5-a material gathering mechanism; 51-a catchment container; 52-a third level gauge; 53-a third valve body; 6-a material conveying mechanism; 61-track; 62-a transport vehicle; 71-a conveyor belt; 72-limit sensor; 8-display screen.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Examples

Referring to fig. 1 and 2, the present embodiment provides a batching device, which includes a storing mechanism 3, a weighing mechanism 4, a gathering mechanism 5 and a frame 2. The material storage mechanism 3 is provided with a plurality of material storage cavities for storing raw materials; the weighing mechanism 4 is used for weighing the raw materials output by the corresponding storage cavity; the material gathering mechanism 5 is provided with a material gathering cavity which is used for gathering the raw materials weighed by the weighing mechanism 4; the storage mechanism 3, the weighing mechanism 4 and the gathering mechanism 5 are all connected to the frame 2.

When using this dosing unit to be equipped with light castable, at first place multiple raw materials in a plurality of storage chambeies respectively, accomplish the deposit of multiple raw materials, weigh the raw materials of storage chamber output through weighing mechanism 4 to reach the raw materials volume of required ratio, the raw materials after rethread collection mechanism 5 weighs weighing mechanism 4 gathers to the collection chamber, thereby gathers the raw materials volume of intracavity for required ratio, also be the mixture after the batching.

In conclusion, the batching device can replace the manual work to carry out the weighing operation and the mixing operation of raw materials, reduces the manual labor intensity, saves the labor cost, and improves the batching efficiency, thereby shortening the light castable supply period.

Preferably, in the present embodiment, the storage mechanism 3 further includes a first metering assembly for detecting the output amount of the raw material of each storage chamber and a first valve body 33 respectively disposed at the output side of each storage chamber.

Optionally, referring to fig. 3, the first gauge assembly comprises a first level gauge 32 for sensing the level of the raw material in the stock container 31.

It should be noted that, when the first valve body 33 is opened, the raw material in the storage cavity is output through the output side of the storage cavity, and therefore, the raw material in the storage cavity is gradually reduced.

The first metering assembly is arranged, when the first level indicator 32 detects that the material level of the raw material in the material storage cavity reaches a preset lowest material level, the storage of the raw material in the material storage cavity is insufficient, an operator is correspondingly reminded to close the first valve body 33 and stop outputting the raw material; when the raw materials are replenished into the material storage cavity, the material level of the raw materials in the material storage cavity gradually rises until the first material level meter 32 detects that the material level of the raw materials in the material storage cavity reaches the preset highest material level, and the operator is correspondingly reminded to stop replenishing the raw materials.

Optionally, the first level indicator 32 is a tuning fork type level indicator, a radar type level indicator, or a radio frequency admittance level indicator, which are all the prior art and are not described herein again.

Preferably, in this embodiment, the weighing mechanism 4 includes a plurality of weighing cavities that communicate one by one with the storage cavities and can receive the raw materials output by the storage cavities, a second metering component that can detect the raw material output amount of each weighing cavity respectively, and a second valve body 43 that is disposed on the output side of each weighing cavity respectively, and the plurality of weighing cavities are all communicated with the material collecting cavity.

It should be noted that the plurality of second valve bodies 43 are opened respectively, so that the raw materials in the weighing chamber are all collected to the collecting chamber through the second valve bodies 43. Wherein, weighing intracavity raw materials output's in-process, the output quantity of weighing intracavity raw materials is detected to the second measurement subassembly, when the output quantity that the second measurement subassembly detected this weighing intracavity raw materials reached the output quantity of predetermined required ratio, corresponds and reminds the operation personnel, corresponds and closes second valve body 43, makes the raw materials volume that gathers to the remittance chamber be the raw materials volume of required ratio, consequently, gathers to the remittance intracavity promptly for the mixture after the batching.

Preferably, with continued reference to FIG. 3, in the present embodiment, the second gauge assembly includes a second level gauge 42 for sensing the level of the source material in the weighing chamber.

According to the arrangement, in the process of outputting the raw materials in the weighing cavity, the level of the raw materials in the weighing cavity changes, and the output quantity of the raw materials in the weighing cavity can be calculated according to the density of the raw materials.

Optionally, the second level indicator 42 is a tuning fork level indicator, a radar level indicator, or a radio frequency admittance level indicator, which are all in the prior art and will not be described herein.

Preferably, the second metering assembly further comprises a display screen 8 for displaying parameters such as the output of the raw material in the weighing chamber or the real-time level of the raw material in the weighing chamber.

Preferably, with continued reference to fig. 2, in this embodiment, the dispensing apparatus further includes a material conveying mechanism 34, and the material storage chamber and the weighing chamber are communicated through the material conveying mechanism 34.

Wherein, defeated material mechanism 34's setting, the storage intracavity raw materials of being convenient for are carried to weighing the chamber, have reduced the risk that the raw materials blockked up, are detained in transportation process, have improved the transmission efficiency of raw materials.

Preferably, the material conveying mechanism 34 is a vibration material conveying mechanism, a screw material conveying mechanism or a chute, and the arrangement is such that the material conveying process does not generate dust to pollute the environment.

Preferably, with continued reference to fig. 2, in the present embodiment, the material converging mechanism 5 further includes a third metering assembly for detecting the output amount of the raw material in the material converging chamber and a third valve body 53 disposed at the output side of the material converging chamber.

With the arrangement, the third valve body 53 is opened, and the mixture in the material-gathering cavity is output through the third valve body 53. A filling container for filling the light castable mixture, such as a packaging bag or a packaging bottle, is placed at the output side of the blending chamber, so that the mixture in the blending chamber is filled into the filling container through the third valve body 53, wherein the output quantity of the raw material in the blending chamber is the input quantity of the mixture in the filling container, and when the third metering assembly detects that the output quantity of the raw material in the blending chamber reaches the preset filling quantity, the third valve body 53 is correspondingly reminded to close by an operator, and the filling is stopped.

In conclusion, the batching device can automatically control the filling amount of the raw materials in the filling container, thereby improving the automation degree of filling the raw materials into the filling container and further reducing the labor intensity of operators.

Preferably, with continued reference to FIG. 3, in the present embodiment, the third gauge assembly includes a third level gauge 52 for detecting the level of the feed material in the feed material chamber.

With this arrangement, the output of the raw material in the blending chamber can be calculated from the density of the blended material by changing the level of the raw material in the blending container 51 during the output of the raw material in the blending container 51.

Optionally, the third level indicator 52 is a tuning fork level indicator, a radar level indicator, or a radio frequency admittance level indicator, which are all in the prior art and will not be described herein.

When the third level gauge 52 detects that the level of the raw material in the material-blending chamber reaches the preset minimum level, and the stock of the raw material in the material-blending chamber is insufficient, the operator is reminded to close the third valve 53 and open the plurality of second valves 43 to continue stock of the raw material in the material-blending container 51; as the level of the raw material in the blending container 51 rises, the operator is reminded to close the plurality of second valve bodies 43 to stop the feeding until the third level gauge 52 detects that the level of the raw material in the blending container 51 reaches a preset maximum level.

Preferably, referring to fig. 3, the dosing device further comprises a control mechanism 1, and the first metering assembly, the first valve body 33, the second metering assembly, the second valve body 43, the third metering assembly and the third valve body 53 are all connected with the control mechanism 1.

Specifically, the first level gauge 32, the second level gauge 42, the display screen 8, and the third level gauge 52 are all connected to the control mechanism 1.

When the batching device is used for preparing the light castable, various raw materials are firstly respectively placed in a plurality of material storage cavities to finish the storage of the raw materials. The first valve body 33 is opened, so that the raw materials in the material storage cavity are conveyed into the weighing cavity through the first valve body 33, therefore, the raw materials in the material storage cavity are gradually reduced, when the first level indicator 32 detects that the level of the raw materials in the material storage cavity reaches the preset lowest level, the raw materials in the material storage cavity are insufficient, the control mechanism 1 correspondingly controls the first valve body 33 to close, and the output of the raw materials is stopped; when the raw material is replenished into the material storage container 31, the control mechanism 1 correspondingly reminds an operator along with the rising of the material level of the raw material in the material storage cavity until the first material level meter 32 detects that the material level of the raw material in the material storage cavity reaches the preset highest material level.

And then the plurality of second valve bodies 43 are respectively opened, so that the raw materials in the weighing cavity are gathered to the material gathering cavity through the second valve bodies 43. Wherein, weighing intracavity raw materials output's in-process, second charge level indicator 42 detects the output quantity of weighing intracavity raw materials, and when second charge level indicator 42 detected that this output quantity of weighing intracavity raw materials reached the output quantity of preset required ratio, this second valve body 43 of control mechanism 1 correspondence control was closed, made the raw materials volume of gathering to the collecting chamber be the raw materials volume of required ratio, consequently, gathers to the collecting chamber in order to be the mixture after the batching. In addition, during the process of outputting the raw material in the weighing cavity, the level of the raw material in the weighing cavity changes, the second level gauge 42 detects the level change value and sends the level change value to the control mechanism 1, and the control mechanism 1 calculates the output quantity of the raw material in the weighing cavity according to the density of the raw material.

And then the third valve body 53 is opened, and the mixture in the material-gathering cavity is output through the third valve body 53. A filling container for filling the light castable mixture, such as a packaging bag or a packaging bottle, is placed at the output side of the blending chamber, so that the mixture in the blending chamber is filled into the filling container through the third valve body 53, wherein the output quantity of the raw material in the blending chamber is the input quantity of the mixture in the filling container, and when the third level gauge 52 detects that the output quantity of the raw material in the blending chamber reaches the preset filling quantity, the control mechanism 1 correspondingly controls the third valve body 53 to close, and the filling is stopped.

When the third level gauge 52 detects that the level of the raw material in the blending cavity reaches a preset minimum level, the raw material in the blending cavity is insufficient, and the control mechanism 1 correspondingly controls the third valve 53 to close and controls the second valves 43 to open so as to continuously store the raw material in the blending cavity; as the level of the raw material in the material-collecting chamber rises, the control mechanism 1 controls the plurality of second valve bodies 43 to close correspondingly and stops the feeding until the third level gauge 52 detects that the level of the raw material in the material-collecting chamber reaches a preset maximum level.

To sum up, this dosing unit can replace the manual work to carry out the weighing operation and the mixing operation of raw materials, has reduced artificial intensity of labour, has practiced thrift the human cost, and has improved batching efficiency.

The first valve element 33, the second valve element 43, and the third valve element 53 are all connected to the control mechanism 1, that is, the second valve element 43, the first valve element 33, and the third valve element 53 are valve elements such as an electric valve, a hydraulic valve, or an air pressure valve that can be controlled by the control mechanism 1.

Preferably, the batching device further comprises an input mechanism (not shown in the figure), the input mechanism is connected with the control mechanism 1, and the output quantity of the preset required batching ratio can be sent to the control mechanism 1 by inputting the output quantity of the preset required batching ratio into the input mechanism, so that the control mechanism 1 compares the output quantity of the raw material in the weighing cavity detected by the second metering component with the output quantity of the preset required batching ratio.

Similarly, the input means is arranged to input a predetermined filling amount, a predetermined minimum level and a predetermined maximum level into the control means 1.

Preferably, referring to fig. 2, the storage mechanism 3 includes a plurality of storage containers 31 connected to the rack 2, and the storage cavities are disposed in the storage containers 31. Optionally, the first valve body 33 is disposed at an output port of the storage container 31 or at the material conveying mechanism 34, and both of them can realize on-off control of input of raw materials in the storage container 31. With such an arrangement, each storage container 31 can be used for storing one raw material, so that storage of multiple raw materials of the lightweight castable can be realized, and the batching efficiency is improved.

Preferably, with continued reference to fig. 2, the weighing mechanism 4 comprises a plurality of weighing containers 41 each connected to the housing 2, the weighing chambers being provided in the weighing containers 41. Due to the arrangement, the weighing of various raw materials can be realized, and the batching efficiency is further improved.

Preferably, with continued reference to fig. 2, the gathering mechanism 5 includes a gathering receptacle 51 connected to the frame 2, and the gathering chamber is disposed in the gathering receptacle 51.

Alternatively, the storage container 31 may be a storage tank, a storage hopper, a storage barrel, or the like, and the shape of the storage container 31 is not limited herein. The weighing container 41 is a weighing tank, a weighing hopper, a weighing cylinder, or the like, and the shape of the weighing container 41 is not limited herein. The blending container 51 is a blending bin, a blending barrel or a blending hopper, and preferably, the blending container 51 is a blending hopper so that the mixture is output through the blending hopper.

Alternatively, the number of the storage containers 31 is two, three, four, five, six, seven, eight, or nine, which is not limited herein, and is determined according to the number of the kinds of raw materials required for the lightweight castable, and the number of the weighing containers 41 is the same as the number of the storage containers 31.

Preferably, with continued reference to fig. 2, in the present embodiment, the batching device further includes a material conveying mechanism 6 capable of conveying the raw materials into each material storage container 31, and the material conveying mechanism 6 is installed on the rack 2 and connected to the control mechanism 1.

When the batching device is used for preparing the light castable, the raw materials are firstly placed in the material conveying mechanism 6, and are conveyed into the material storage container 31 through the material conveying mechanism 6, so that the raw materials are stored; and then another raw material is placed in the material conveying mechanism 6, the raw material is conveyed into another material storage container 31 through the material conveying mechanism 6, and the circulation is repeated for many times until a plurality of raw materials required by preparing the light castable are conveyed into different material storage containers 31.

In addition, when the first level gauge 32 detects that the level of the raw material in the storage container 31 reaches a preset lowest level, at this time, the storage of the raw material in the storage container 31 is insufficient, the control mechanism 1 correspondingly controls the first valve body 33 to close and controls the material conveying mechanism 6 to convey the raw material into the storage container 31, so as to continuously store the raw material in the storage container 31; as the material conveying mechanism 6 conveys the material into the material storage container 31, the material level of the material in the material storage container 31 rises until the first material level gauge 32 detects that the material level of the material in the material storage container 31 reaches the preset highest material level, and the control mechanism 1 correspondingly controls the material conveying mechanism 6 to stop conveying the material into the material storage container 31.

Preferably, with continuing reference to fig. 1 and 2, in the present embodiment, the material transporting mechanism 6 includes a rail 61 mounted on the frame 2 and a transport vehicle 62 disposed on the rail 61 and capable of sliding along the rail 61 to the input port of each storage container 31, and the transport vehicle 62 is connected to the control mechanism 1.

With this arrangement, when the transport vehicle 62 discharges the raw material, the raw material can be input into the magazine 31 through the input port, for example, the transport vehicle 62 is located above the input port of the magazine 31, and when the transport vehicle 62 discharges the raw material, the raw material can fall into the magazine 31 located below the transport vehicle 62, and the conveyance of the raw material into the magazine 31 is realized. Wherein the transport vehicle 62 can slide along the rails 61 above each storage container 31, enabling the delivery of raw material for each storage container 31.

Optionally, the rails 61 and the transport cart 62 form a row cart for transporting the raw material for the magazine 31. Wherein, the driving is the common name of people to cranes such as crane, navigation car, overhead traveling crane, such setting to the workman puts into raw materials to transport vechicle 62. Or the material conveying mechanism 6 is an electric hoist.

Preferably, with continuing reference to fig. 2 and fig. 3, in this embodiment, the batching device further includes a filling mechanism, the filling mechanism includes a conveyor belt 71 disposed at the output port of the material-gathering chamber and a limit sensor 72 disposed on the conveyor belt 71, and both the limit sensor 72 and the conveyor belt 71 are connected to the control mechanism 1.

Through placing the filling container in conveyer belt 71, and a plurality of filling containers set up along the direction of delivery interval of conveyer belt 71, the intracavity mixture that gathers materials exports to the filling container, has realized for the filling container filling. When the filling container moves to the output port of the converging mechanism 5, the filling container triggers the limit sensor 72, the control mechanism 1 correspondingly controls the conveying belt 71 to stop moving, and controls the third valve body 53 to be opened to fill the filling container; when the third level gauge 52 detects that the output quantity of the raw material in the blending chamber reaches the preset filling quantity, the control mechanism 1 correspondingly controls the third valve body 53 to close, stops filling, and controls the conveyer belt 71 to continue moving until the next filling container moves to the output opening of the blending chamber.

In conclusion, the batching device realizes the automatic operation of sequentially filling the mixture into a plurality of filling containers, and further reduces the labor intensity of operators.

Preferably, the filling mechanism further comprises a sealer (not shown in the figures, as known in the art) disposed at a downstream position of the conveyor belt 71, and the filled containers can be sealed by the sealer after being delivered by the conveyor belt 71.

Optionally, the control mechanism 1 is a controller such as a single chip microcomputer or a PLC controller, which is not described herein for the prior art. It should be noted that the connection of the control mechanism 1 with the second level gauge 42, the second valve body 43, the first level gauge 32, the first valve body 33, the material conveying mechanism 6, the third level gauge 52, the third valve body 53, the limit sensor 72 and the conveyor belt 71 is well known to those skilled in the art and will not be described again.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the embodiments of the present invention.

Claims (10)

1. A dispensing apparatus, comprising:

the material storage mechanism (3) is provided with a plurality of material storage cavities for storing raw materials;

the weighing mechanism (4) is used for weighing the raw materials output by the corresponding material storage cavity;

the material gathering mechanism (5) is provided with a material gathering cavity, and the material gathering cavity is used for gathering the raw materials weighed by the weighing mechanism (4); and

a frame (2); the storage mechanism (3), the weighing mechanism (4) and the material gathering mechanism (5) are all installed on the rack (2).

2. The dosing device according to claim 1, wherein the storage means (3) further comprises a first metering assembly for detecting the output of material from each storage chamber and a first valve body (33) arranged on the output side of each storage chamber.

3. The dispensing device according to claim 2, characterized in that the weighing mechanism (4) comprises a plurality of weighing chambers which are in one-to-one communication with the storage chambers and can receive the raw material output from the storage chambers, a second metering assembly which can respectively detect the raw material output of each weighing chamber, and a second valve body (43) which is respectively arranged at the output side of each weighing chamber;

the weighing cavities are all communicated with the material collecting cavity.

4. The dispensing device according to claim 3, characterized in that it further comprises a delivery mechanism (34), said storage chamber and said weighing chamber being in communication via said delivery mechanism (34);

the material conveying mechanism (34) is a vibration material conveying mechanism, a spiral material conveying mechanism or a chute.

5. The dosing device according to claim 3, characterized in that the dosing mechanism (5) further comprises a third metering assembly for detecting the output of raw material in the dosing chamber and a third valve body (53) arranged at the output side of the dosing chamber.

6. Dosing device according to claim 5, characterized in that it further comprises a control mechanism (1);

the first metering assembly, the first valve body (33), the second metering assembly, the second valve body (43), the third metering assembly and the third valve body (53) are all connected with the control mechanism (1).

7. The batching device according to claim 6, further comprising a material conveying mechanism (6) able to convey the material into each of said storage cavities respectively, said material conveying mechanism (6) being mounted to said machine frame (2) and being connected to said control mechanism (1).

8. The batching device according to claim 7, wherein said conveying means (6) comprise a rail (61) mounted to said frame (2) and a carriage (62) arranged on said rail (61) and able to slide along said rail (61) to each of said storage chambers, said carriage (62) being connected to said control means (1).

9. Dosing device according to claim 6, characterized in that it further comprises a filling means comprising a conveyor belt (71) arranged at the outlet opening of the collecting chamber and a limit sensor (72) arranged on the conveyor belt (71), the limit sensor (72) and the conveyor belt (71) both being connected to the control means (1).

10. The dosing device according to any one of claims 3-9, characterized in that the magazine mechanism (3) comprises a plurality of magazines (31) each connected to the machine frame (2), the magazine chambers being arranged in the magazines (31);

the weighing mechanism (4) comprises a plurality of weighing containers (41) which are connected to the rack (2), and the weighing cavities are arranged in the weighing containers (41);

the material gathering mechanism (5) comprises a material gathering container (51) connected to the rack (2), and the material gathering cavity is arranged in the material gathering container (51).

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