CN117755562A - Material metering and automatic barreling transportation system and process - Google Patents

Abstract

The invention discloses a material metering and automatic barreling transportation system and a process, relates to the technical field of transportation and metering equipment, and solves the technical problems that the traditional chromic anhydride raw material barreling and metering method mainly depend on manual operation and have complicated operation, large error and low efficiency. The invention has reasonable design, adopts intelligent control technology to monitor data and control the working states of the valve and the metering device so as to realize accurate metering and barreling of chromic anhydride raw materials.

Description

Material metering and automatic barreling transportation system and process

Technical Field

The invention relates to the technical field of transportation and metering equipment, in particular to the technical field of a material metering and automatic barreling transportation system and a process.

Background

Chromic anhydride is an important chemical raw material and is widely applied to the fields of electroplating, catalysts, pigments and the like. Chromic anhydride is not combustible per se, but can cause the combustion of organic matters and combustible matters, is mixed with sulfur, phosphorus and certain organic matters, and has the danger of causing combustion explosion after friction and impact, and can form explosive mixture with soft powdery combustible matters, and the ethanol can be burnt violently after being mixed with the explosive mixture. Chromic anhydride is strongly carcinogenic and corrosive.

In the production process, chromic anhydride needs to be accurately barreled and metered so as to ensure the quality and the production efficiency of the product. The traditional barreling and metering method mainly depends on manual operation, and has the problems of complex operation, large error and low efficiency, and the problems of harm to human bodies, easiness in wetting and the like caused by raw material contact. Therefore, the development of the material metering and automatic barreling transportation system with high automation degree, high precision and simple operation has important practical significance.

Disclosure of Invention

the invention aims at: in order to solve the technical problems, the invention provides a material metering and automatic barreling transportation system and a process.

the invention adopts the following technical scheme for realizing the purposes:

The invention provides a material metering and automatic barreling conveying system, which comprises an incoming material conveying device, a metering device, a barreling conveying line, a material barrel and a control system, wherein a feed inlet of the metering device is matched with a discharge outlet of the incoming material conveying device, the barreling device is positioned below the discharge outlet of the metering device, the material barrel is placed on the barreling device, the barreling device is used for loading chromic anhydride raw materials metered by the metering device into the material barrel, and the incoming material conveying device, the metering device, the barreling conveying line and the barreling device are all electrically connected with the control system.

specifically, the material feeding and conveying device is used for conveying chromic anhydride raw materials to the metering device; the metering device is used for precisely metering the chromic anhydride raw materials conveyed by the incoming material conveying device and controlling the action of the barreling device; the barreling device is used for loading the chromic anhydride raw material metered by the metering device into a material barrel; the control system is used for controlling the working states of the incoming material conveying device, the metering device, the barreling conveying line and the barreling device, and realizing the automatic barreling and metering process of chromic anhydride.

In one embodiment, the incoming material conveying device comprises a frame, a feeding bin arranged at the top of the frame, a conveying belt for conveying chromic anhydride raw materials into the feeding bin, and a pneumatic valve arranged at the bottom of the feeding bin, wherein the pneumatic valve is electrically connected with the control system.

In one embodiment, the metering device comprises a shell, a metering feed port arranged at the top of the shell and communicated with the inside of the shell, a filling head arranged at the bottom of the shell and communicated with the inside of the shell, a weight sensor arranged in the filling head and used for measuring the weight of chromic anhydride raw material entering the material barrel, and a control valve arranged in the filling head and used for controlling the weight of chromic anhydride raw material entering the material barrel, wherein the weight sensor and the control valve are electrically connected with the control system.

Specifically, the chromic anhydride raw material metered by the metering device is filled into the material barrel by using the filling head, the size of a filling opening is controlled by the control valve, the filling speed of the material barrel is controlled, and the shaking mechanism is adopted to ensure that the chromic anhydride can be uniformly filled into the material barrel.

in one embodiment, the sensor is a tuning fork sensor, the tuning fork sensor is used to detect the weight of the chromic anhydride, and the control system controls the valve to open and close based on the amount of chromic anhydride material detected by the tuning fork sensor.

In one embodiment, the barreling device comprises a lifting platform arranged below the frame, a shaking mechanism arranged on the lifting platform and used for shaking a material barrel, and a lifting screw rod assembly arranged on the frame and used for driving the lifting platform to lift, wherein the material barrel is positioned on the shaking mechanism, a photoelectric correlation switch used for detecting whether the material barrel is lifted to a set position is arranged on the lifting platform, and the material barrel is positioned under the filling head.

In one embodiment, the control system includes a touch screen operation interface and a PLC controller, the touch screen operation interface being electrically connected to the PLC controller.

specifically, the operating parameters of the system are set and displayed by using a touch screen operation interface, and the working states of the incoming material conveying device, the metering device and the barreling device are controlled by using a PLC (programmable logic controller) according to the setting of the touch screen operation interface.

Another aspect of the present invention provides a process for metering materials and transporting automatic barrels, which comprises the steps of:

s1, conveying chromic anhydride raw materials to a metering device by using a material conveying device;

s2, accurately metering the chromic anhydride raw material by using a metering device and controlling the action of a barreling device;

S3, loading the chromic anhydride raw material metered by the metering device into a material barrel by using a barreling device;

s4, controlling working states of the feeding conveying device, the metering device and the barreling device by using the control system, and realizing automatic barreling and metering processes of chromic anhydride raw materials.

In one embodiment, the specific procedure of step S2 is as follows:

S21, conveying chromic anhydride raw materials to a feed bin by using a conveyor belt, and conveying a material barrel to the position below a filling head by using another conveyor belt;

S22, detecting whether a material barrel is right below a filling head by using a photoelectric opposite-injection switch;

S23, after the fact that the front face of the filling head is detected, the lifting platform lifts the material barrel to a set height, and the tuning fork sensor is used for detecting the blanking weight of the chromic anhydride raw material.

in one embodiment, the specific procedure of step S3 is as follows:

s31, controlling the lifting platform to lift the material barrel to a set height, and opening a control valve by using the PLC;

S32, filling the chromic anhydride raw material metered by the metering device into a material barrel by using a filling head, controlling the size of a filling opening by using a control valve, and further controlling the filling speed of the material barrel;

s33, simultaneously starting a shaking mechanism to ensure that chromic anhydride raw materials can be uniformly filled;

and S34, closing the control valve after the detected weight meets the requirement, stopping blanking, descending the lifting platform, and using another conveyor belt to convey the material barrel filled with the chromic anhydride raw material to a designated position.

in one embodiment, the specific process of step S4 is as follows:

s41, setting and displaying working parameters in the barreling system process by using a touch screen operation interface;

S42, controlling working states of the incoming material conveying device, the metering device and the barreling device by using the PLC according to the setting of the touch screen operation interface.

the beneficial effects of the invention are as follows:

1. the invention has reasonable design, can realize automatic and accurate weighing, adopts a homogenization technology to send the chromic anhydride raw material out of the material barrel (storage tank), and can reduce adhesion of the chromic anhydride raw material caused by external environment influence.

2. the invention uses the valve to control the size of the falling opening (the size of the filling opening) and is additionally provided with the shaking device, so that the chromic anhydride raw material can be uniformly filled into the barrel.

3. The invention adopts a tuning fork weight measurement technology to monitor the weight of chromic anhydride raw materials conveyed by the conveying pump in real time.

4. the invention adopts intelligent control technology to monitor data and control the working state of the valve so as to realize accurate measurement and barreling of chromic anhydride raw materials.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a top view of the removal control system of FIG. 1;

FIG. 3 is a right side view of the removal control system of FIG. 1;

FIG. 4 is a schematic diagram of the structure of the removal barrel transfer line, material barrels, and control system of FIG. 1;

FIG. 5 is a schematic view of the partial structure of FIG. 2;

FIG. 6 is a schematic diagram of the structure of the dithering mechanism;

FIG. 7 is a schematic view of the structure of the metering device;

FIG. 8 is a schematic diagram of a structure of a photoelectric correlation switch;

FIG. 9 is a schematic diagram of a control system;

reference numerals: 1-an incoming material conveying device, 2-a metering device, 3-a barreling device, 4-a barreling conveying line, 5-a material barrel and 6-a control system;

1-1 parts of a frame, 1-2 parts of a feed bin and 1-3 parts of a pneumatic valve;

2-1-shell, 2-2-weight sensor;

3-1-lifting platform, 3-2-shaking mechanism, 3-3-photoelectric correlation switch;

and the 6-1-PLC controller and the 6-2-touch screen operation interface.

Detailed Description

for the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures. Furthermore, the terms "first," "second," and the like, are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

In describing embodiments of the present invention, it should be noted that the directions or positional relationships indicated by the terms "inner", "outer", "upper", etc. are directions or positional relationships based on those shown in the drawings, or those that are conventionally put in place when the inventive product is used, are merely for convenience of description and simplification of description, and are not indicative or implying that the apparatus or element in question must have a specific orientation, be constructed and operated in a specific orientation, and therefore should not be construed as limiting the present invention.

Example 1

As shown in fig. 1 to 9, the embodiment provides a material metering and automatic barreling transportation system, which comprises an incoming material conveying device 1, a metering device 2, a barreling device 3, a barreling transportation line 4, a material barrel 5 and a control system 6, wherein a feeding hole of the metering device 2 is matched with a discharging hole of the incoming material conveying device 1, the barreling device 3 is positioned below the discharging hole of the metering device 2, the material barrel 5 is placed on the barreling device 3, the barreling device 3 is used for loading chromic anhydride raw materials metered by the metering device 2 into the material barrel 5, and the incoming material conveying device 1, the metering device 2, the barreling transportation line 4 and the barreling device 3 are all electrically connected with the control system 6.

specifically, the incoming material conveying device 1 is used for conveying chromic anhydride raw materials to the metering device 2; the metering device 2 is used for precisely metering the chromic anhydride raw materials conveyed by the incoming material conveying device 1 and controlling the action of the barreling device 3; the barreling device 3 is used for loading the chromic anhydride raw material metered by the metering device 2 into the material barrel 5; the control system 6 is used for controlling the working states of the feed conveying device 1, the metering device 2, the barreling conveying line 4 and the barreling device 3, and realizing the automatic barreling and metering process of chromic anhydride.

Example 2

As shown in fig. 1 to 9, the embodiment provides a material metering and automatic barreling transportation system, which comprises an incoming material conveying device 1, a metering device 2, a barreling device 3, a barreling transportation line 4, a material barrel 5 and a control system 6, wherein a feeding hole of the metering device 2 is matched with a discharging hole of the incoming material conveying device 1, the barreling device 3 is positioned below the discharging hole of the metering device 2, the material barrel 5 is placed on the barreling device 3, the barreling device 3 is used for loading chromic anhydride raw materials metered by the metering device 2 into the material barrel 5, and the incoming material conveying device 1, the metering device 2, the barreling transportation line 4 and the barreling device 3 are all electrically connected with the control system 6.

The feeding conveying device 1 comprises a frame 1-1, a feeding bin 1-2 arranged at the top of the frame 1-1, a conveyor belt for conveying chromic anhydride raw materials into the feeding bin 1-2, and a pneumatic valve arranged at the bottom of the feeding bin 1-2, wherein the pneumatic valve is electrically connected with a control system 6.

the metering device 2 comprises a shell 2-1, a metering feed inlet arranged at the top of the shell 2-1 and communicated with the interior of the shell 2-1, a filling head arranged at the bottom of the shell 2-1 and communicated with the interior of the shell 2-1, a weight sensor 2-2 arranged in the filling head and used for measuring the weight of chromic anhydride raw material entering the material barrel 5, and a control valve arranged in the filling head and used for controlling the weight of chromic anhydride raw material entering the material barrel 5, wherein the weight sensor 2-2 and the control valve are electrically connected with the control system 6.

Specifically, the chromic anhydride raw material metered by the metering device 2 is filled into the material barrel 5 by using the filling head, the size of a filling opening is controlled by the control valve, the filling speed of the material barrel 5 is controlled, and the shaking mechanism 3-2 is adopted to ensure that the chromic anhydride can be uniformly filled into the material barrel 5.

Example 3

As shown in fig. 1 to 9, the embodiment provides a material metering and automatic barreling transportation system, which comprises an incoming material conveying device 1, a metering device 2, a barreling device 3, a barreling transportation line 4, a material barrel 5 and a control system 6, wherein a feeding hole of the metering device 2 is matched with a discharging hole of the incoming material conveying device 1, the barreling device 3 is positioned below the discharging hole of the metering device 2, the material barrel 5 is placed on the barreling device 3, the barreling device 3 is used for loading chromic anhydride raw materials metered by the metering device 2 into the material barrel 5, and the incoming material conveying device 1, the metering device 2, the barreling transportation line 4 and the barreling device 3 are all electrically connected with the control system 6.

The feeding conveying device 1 comprises a frame 1-1, a feeding bin 1-2 arranged at the top of the frame 1-1, a conveyor belt for conveying chromic anhydride raw materials into the feeding bin 1-2, and a pneumatic valve arranged at the bottom of the feeding bin 1-2, wherein the pneumatic valve is electrically connected with a control system 6.

the metering device 2 comprises a shell 2-1, a metering feed inlet arranged at the top of the shell 2-1 and communicated with the interior of the shell 2-1, a filling head arranged at the bottom of the shell 2-1 and communicated with the interior of the shell 2-1, a weight sensor 2-2 arranged in the filling head and used for measuring the weight of chromic anhydride raw material entering the material barrel 5, and a control valve arranged in the filling head and used for controlling the weight of chromic anhydride raw material entering the material barrel 5, wherein the weight sensor 2-2 and the control valve are electrically connected with the control system 6.

the sensor is a tuning fork sensor, the tuning fork sensor is used for detecting the weight of chromic anhydride, and the control system 6 controls the start and stop of the valve according to the amount of chromic anhydride raw material detected by the tuning fork sensor.

the barreling device 3 comprises a lifting platform 3-1 arranged below the frame 1-1, a shaking mechanism 3-2 arranged on the lifting platform 3-1 and used for shaking a material barrel 5, and a lifting screw rod assembly arranged on the frame 1-1 and used for driving the lifting platform 3-1 to lift, the material barrel 5 is positioned on the shaking mechanism 3-2, a photoelectric opposite-shooting switch 3-3 used for detecting whether the material barrel 5 is lifted to a set position is arranged on the lifting platform 3-1, and the material barrel 5 is positioned under the filling head.

the control system 6 comprises a touch screen operation interface 6-2 and a PLC controller 6-1, wherein the touch screen operation interface 6-2 is electrically connected with the PLC controller 6-1.

Specifically, the operating parameters of the system are set and displayed by using a touch screen operation interface, and the operating states of the feed conveying device 1, the metering device 2 and the barreling device 3 are controlled by using the PLC controller 6-1 according to the setting of the touch screen operation interface 6-2.

Example 4

The embodiment provides a material metering and automatic barreling transportation process, which adopts the material metering and automatic barreling transportation system and comprises the following steps:

s1, conveying chromic anhydride raw materials to a metering device 2 by using a feed conveying device 1;

S2, accurately metering chromic anhydride raw materials by using a metering device 2 and controlling actions of a barreling device 3, wherein the method comprises the following steps of:

s21, conveying chromic anhydride raw materials into the feeding bin 1-2 by using a conveyor belt, and conveying the material barrel 5 to the position below the filling head by using another conveyor belt;

S22, detecting whether the material barrel 5 is right below the filling head by using a photoelectric correlation switch 3-3;

S23, after the fact that the charging head is right opposite to the charging head is detected, the lifting platform 3-1 lifts the material barrel 5 to a set height, and a tuning fork sensor is used for detecting the blanking weight of chromic anhydride raw materials;

S3, loading the chromic anhydride raw material metered by the metering device 2 into a material barrel 5 by using a barreling device 3, wherein the following concrete steps are as follows:

s31, after the lifting platform 3-1 is controlled to lift the material barrel 5 to a set height, a PLC controller 6-1 is used for opening a control valve;

s32, filling the chromic anhydride raw material metered by the metering device 2 into the material barrel 5 by using a filling head, controlling the size of a filling opening by using a control valve, and further controlling the filling speed of the material barrel 5;

S33, simultaneously starting the shaking mechanism 3-2, so that the chromic anhydride raw material can be uniformly filled;

S34, after the detected weight meets the requirement, closing a control valve, stopping blanking, descending the lifting platform 3-1, and using another conveyor belt to convey the material barrel 5 filled with chromic anhydride raw material to a designated position;

S4, controlling working states of the feeding conveying device 1, the metering device 2 and the barreling device 3 by using the control system 6 to realize automatic barreling and metering processes of chromic anhydride raw materials, wherein the working states are as follows:

S41, setting and displaying working parameters in the barreling system process by using the touch screen operation interface 6-2;

s42, using the PLC controller 6-1, controlling the working states of the incoming material conveying device 1, the metering device 2 and the barreling device 3 according to the setting of the touch screen operation interface 6-2.

Claims (10)

1. The utility model provides a material measurement and automatic barreling conveying system, its characterized in that, including feed conveyor (1), metering device (2), barreling device (3), barreling transportation line (4), material bucket (5) and control system (6), the feed inlet of metering device (2) with the discharge gate cooperation of feed conveyor (1), barreling device (3) are located metering device (2) discharge gate below, place material bucket (5) on barreling device (3), barreling device (3) are used for loading into material bucket (5) with chromic anhydride raw materials after metering device (2), feed conveyor (1 metering device (2), barreling transportation line (4) and barreling device (3) all with control system (6) electricity is connected.

2. A material metering and automatic barreling transport system as claimed in claim 1, wherein the feed conveyor (1) comprises a frame (1-1), a feed bin (1-2) mounted on top of the frame (1-1), a conveyor belt for feeding chromic anhydride raw material into the feed bin (1-2), and a pneumatic valve (1-3) arranged at the bottom of the feed bin (1-2), the pneumatic valve (1-3) being electrically connected with the control system (6).

3. A material metering and automatic barreling transportation system as claimed in claim 2, wherein the metering device (2) comprises a shell (2-1), a metering feed port arranged at the top of the shell (2-1) and communicated with the interior of the shell (2-1), a filling head arranged at the bottom of the shell (2-1) and communicated with the interior of the shell (2-1), a weight sensor (2-2) arranged in the filling head and used for metering the weight of chromic anhydride raw material entering the material barrel (5), and a control valve arranged in the filling head and used for controlling the weight of chromic anhydride raw material entering the material barrel (5), wherein the weight sensor (2-2) and the control valve are electrically connected with the control system (6).

4. A material metering and automatic barreling transportation system as claimed in claim 3, wherein the weight sensor (2-2) is a tuning fork sensor, the weight of chromic anhydride is detected by using the tuning fork sensor, and the control system (6) controls the start and stop of the control valve according to the amount of chromic anhydride raw material detected by the tuning fork sensor.

5. a material metering and automatic barreling transportation system as claimed in claim 3, wherein the barreling device (3) comprises a lifting platform (3-1) arranged below the frame (1-1), a shaking mechanism (3-2) arranged on the lifting platform (3-1) and used for shaking the material barrel (5), and a lifting screw rod assembly arranged on the frame (1-1) and used for driving the lifting platform (3-1) to lift, the material barrel (5) is positioned on the shaking mechanism (3-2), a photoelectric correlation switch (3-3) used for detecting whether the material barrel (5) lifts to a set position is arranged on the lifting platform (3-1), and the material barrel (5) is positioned under the filling head.

6. A material metering and automatic barreling transport system as claimed in claim 1, wherein the control system (6) comprises a touch screen operation interface (6-2) and a PLC controller (6-1), the touch screen operation interface (6-2) being electrically connected to the PLC controller (6-1).

7. A material metering and automatic barreling process employing a material metering and automatic barreling system as claimed in any one of claims 1 to 6, comprising the steps of:

S1, conveying chromic anhydride raw materials to the metering device (2) by using the incoming material conveying device (1);

S2, accurately metering chromic anhydride raw materials by using the metering device (2) and controlling actions of the barreling device (3);

S3, using the barreling device (3) to fill chromic anhydride raw materials metered by the metering device (2) into the material barrel (5);

s4, using the control system (6) to control the working states of the feeding conveying device (1), the metering device (2) and the barreling device (3) so as to realize the automatic barreling and metering process of chromic anhydride raw materials.

8. The process for metering and automatically transporting materials according to claim 7, wherein the specific procedure of step S2 is as follows:

s21, conveying chromic anhydride raw materials into the feeding bin (1-2) by using a conveyor belt, and simultaneously conveying the material barrel (5) to the position below the filling head by using another conveyor belt;

S22, detecting whether the material barrel (5) is right below the filling head or not by using the photoelectric correlation switch (3-3);

s23, after the fact that the material is right opposite to the filling head is detected, the lifting platform (3-1) lifts the material barrel (5) to a set height, and the tuning fork sensor is used for detecting the blanking weight of chromic anhydride raw materials.

9. the process for metering and automatically transporting materials according to claim 7, wherein the specific procedure of step S3 is as follows:

s31, after the lifting platform (3-1) is controlled to lift the material barrel (5) to a set height, the PLC (6-1) is used for opening the control valve;

S32, using the filling head to fill chromic anhydride raw materials metered by the metering device (2) into the material barrel (5), and controlling the size of the filling opening by the control valve so as to control the filling speed of the material barrel (5);

S33, simultaneously starting the shaking mechanism (3-2) to ensure that chromic anhydride raw materials can be uniformly filled;

S34, closing the control valve after the weight is detected to meet the requirement, stopping blanking, descending the lifting platform (3-1), and using another conveyor belt to convey the material barrel (5) filled with chromic anhydride raw material to a designated position.

10. the process for metering and automatically transporting materials according to claim 7, wherein the specific procedure of step S4 is as follows:

s41, setting and displaying working parameters in the barreling system process by using the touch screen operation interface (6-2);

S42, controlling the working states of the incoming material conveying device (1), the metering device (2) and the barreling device (3) by using the PLC (6-1) according to the setting of the touch screen operation interface (6-2).