WO2017147900A1

WO2017147900A1 - Internet of things-based conveyance apparatus for use with drying machine

Info

Publication number: WO2017147900A1
Application number: PCT/CN2016/075621
Authority: WO
Inventors: 马翼
Original assignee: 马翼
Priority date: 2016-03-04
Filing date: 2016-03-04
Publication date: 2017-09-08

Abstract

An Internet of things-based conveyance apparatus for use with a drying machine comprises two side panels (1) arranged vertically, two dispensing mechanisms (2), and a central control cabinet (8) arranged next to one of the side panels (1). The dispensing mechanisms (2) are electrically connected to the central control cabinet (8). A number of the side panels (1) is consistent and has a one-to-one correspondence with that of the dispensing mechanisms (2). The dispensing mechanisms (2) comprise conveyance mechanisms (6), and first driving motors (7) and second driving motors (5) arranged at two sides of the conveyance mechanisms (6). A wireless communication module (12) monitors from a distance and in real-time the conveyance apparatus. Two pressure sensors (11) are arranged on the two conveyance mechanisms (6) to accurately weigh wet materials, thereby ensuring accuracy of the amount of the conveyed material. Third driving motors (4) on the side panels (1) control material removing plates (3) to contact against the conveyance mechanisms (6), while the second driving motors (4) control the conveyance mechanisms (6) to rotate, ensuring all the wet materials are dumped for use in the next process, and increasing reliability of conveying materials.

Description

Novel feeding device for dryer based on internet of things

Technical field

The invention relates to a novel feeding device for a dryer based on the Internet of Things.

Background technique

In the current dryer, when entering the dryer, it is necessary to enter the dewatering mechanism for dewatering to improve the drying efficiency of the dryer. In order to ensure the efficiency and reliability of dehydration, it is necessary to strictly control the weight of the dewatering mechanism to minimize the use of the dewatering mechanism, thereby ensuring the high working efficiency of the dryer. However, in the prior art, in the wet material feeding, due to the lack of weight measurement of the material, the dehydration mechanism is often overloaded or lightly loaded, which greatly reduces the working efficiency of the dryer; not only that, during the feeding process Because the wet material itself is sticky, it will be partially attached to the feeding mechanism, thereby reducing the reliability of the dryer.

Summary of the invention

The technical problem to be solved by the invention is: in order to overcome the insufficiency of the feeding precision of the prior art and the poor feeding reliability, the invention provides a real-time monitoring function with high feeding precision and high reliability based on the Internet of Things for drying. The new feeding device of the machine.

The technical solution adopted by the present invention to solve the technical problem thereof is: a novel feeding device for a dryer based on the Internet of Things, comprising two vertically disposed side plates, two cutting mechanisms and one disposed on the side plates The central control cabinet of the side, the unloading mechanism is electrically connected to the central control cabinet, the number of the side panels is consistent with and corresponds to the number of the blanking mechanism, and the feeding mechanism comprises a conveying mechanism and two arranged in the conveying mechanism a first driving motor and a second driving motor on the side, the feeding mechanism is disposed at a bottom of the corresponding side plate, and the feeding mechanism is drivingly connected to the side plate through the first driving motor, the conveying mechanism and the second driving a motor drive connection, wherein the transfer mechanism is provided with a pressure sensor;

The side plate is provided with a clearing mechanism, the clearing mechanism is located between the two side plates, the cleaning device The structure includes a third driving motor and a clearing plate, and the third driving motor is disposed on the side plate and is drivingly connected to the clearing plate;

The central control cabinet is provided with a central control device, and the central control device includes a wireless communication module and a motor drive module, and the first drive motor, the second drive motor and the third drive motor are all electrically connected to the motor drive module.

In particular, the transport mechanism comprises a conveyor belt.

In particular, the second drive motor is located between the two side plates.

Specifically, in order to improve the utility of the device, the central control cabinet includes a housing, a display device and a control device disposed on the housing.

Specifically, in order to improve the intelligence of the device, the central control device includes a central control system, a display control module connected to the central control system, a button control module, and a pressure detection module.

Specifically, the pressure sensor is electrically connected to the pressure detecting module, the display device is electrically connected to the display control module, and the control device is electrically connected to the button control module.

Specifically, in order to improve the reliability of the display and the sensitivity of the button control, the display device is a liquid crystal display, and the control device is a touch button.

The invention has the beneficial effects that the new material feeding device based on the Internet of Things for the dryer ensures the remote real-time monitoring of the device by the wireless communication module; the pressure sensor on the two conveying mechanisms can enter the wet The material is accurately metered to ensure the accuracy of the feeding; not only that, the third driving motor on the side plate controls the cleaning plate to be connected with the conveying mechanism, and at the same time, the rotation of the conveying mechanism is controlled by the second driving motor to ensure the wetness. The materials are all poured into the next process, which improves the reliability of the feeding.

DRAWINGS

The invention will now be further described with reference to the drawings and embodiments.

1 is a schematic structural view of a novel feeding device for a dryer based on the Internet of Things according to the present invention;

2 is a schematic structural view of a novel feeding device for a dryer based on the Internet of Things of the present invention;

3 is a system schematic diagram of a novel feeding device for a dryer based on the Internet of Things of the present invention;

In the figure: 1. side plate, 2. feeding mechanism, 3. cleaning plate, 4. third drive motor, 5. second drive motor, 6. transfer mechanism, 7. first drive motor, 8. central control Cabinet, 9. Display device, 10. Control device, 11. Pressure sensor, 12. Wireless communication module, 13. Motor drive module, 14. Central control system, 15. Display control module, 16. Button control module, 17. Pressure Detection module.

detailed description

The invention will now be described in further detail with reference to the drawings. The drawings are simplified schematic diagrams, and only the basic structure of the present invention is illustrated in a schematic manner, and thus only the configurations related to the present invention are shown.

As shown in FIG. 1 to FIG. 3, a new type of feeding device for a dryer based on the Internet of Things, comprising two vertically disposed side plates 1, two cutting mechanisms 2 and one side of the side plate 1 The central control cabinet 8 is electrically connected to the central control cabinet 8. The number of the side panels 1 is consistent with and corresponds to the number of the blanking mechanisms 2, and the blanking mechanism 2 includes a transport mechanism 6 a first driving motor 7 and a second driving motor 5 disposed on both sides of the conveying mechanism 6, the cutting mechanism 2 is disposed at the bottom of the corresponding side plate 1, and the cutting mechanism 2 is passed through the first driving motor 7 The conveying mechanism 6 is connected to the second driving motor 5, and the conveying mechanism 6 is provided with a pressure sensor 11;

The side plate 1 is provided with a clearing mechanism, the clearing mechanism is located between the two side plates 1, the clearing mechanism comprises a third driving motor 4 and a clearing plate 3, and the third driving motor 4 Provided on the side panel 1 and connected to the cleaning plate 3;

The central control cabinet 8 is provided with a central control device, and the central control device includes a wireless communication module 12 and a motor drive module 13, and the first drive motor 7, the second drive motor 5, and the third drive motor 4 are both The motor drive module 13 is electrically connected.

In particular, the transport mechanism 6 comprises a conveyor belt.

Specifically, the second drive motor 5 is located between the two side plates 1.

Specifically, in order to improve the usability of the device, the center control cabinet 8 includes a housing, a display device 9 disposed on the housing, and a control device 10.

Specifically, in order to improve the intelligence of the device, the central control device includes a central control system 14, a display control module 15 coupled to the central control system 14, a button control module 16, and a pressure detection module 17.

Specifically, the pressure sensor 11 is electrically connected to the pressure detecting module 17, the display device 9 is electrically connected to the display control module 15, and the control device 10 is electrically connected to the button control module 16.

Specifically, in order to improve the reliability of the display and the sensitivity of the button control, the display device 9 is a liquid crystal display, and the control device 10 is a light touch button.

The working principle of the new type of feeding device for the dryer based on the Internet of Things is: in order to ensure the accuracy of the feeding; at the time of feeding, first the first driving motor 7 controls the level of the conveying mechanism 6 so that the two conveying mechanisms 6 The pressure sensor 11 is capable of metering the incoming wet material and then controlling the transfer mechanism 6 to tilt downward by the first drive motor 7 to ensure that the wet material enters the next process. In order to ensure the reliability of the feeding; in the process of feeding, since the wet material will adhere to the conveying mechanism 6, the third driving motor 4 on the side plate 1 controls the cleaning plate 3 to rotate downward, so that the cleaning plate 3 ends are connected with the conveying mechanism 6, and then the second driving motor 5 starts to control the conveying mechanism 6 to start rotating, so that the cleaning plate 3 pours all the remaining wet materials on the conveying mechanism 6 into the next process, thereby improving the feeding. Reliability. The display device 9 on the central control cabinet 8 is used for displaying the working information of the feeding device, and the utility of the device is improved. The control device 10 is used for ensuring real-time manipulation of the device by the worker and improving the operability of the device.

The new type of feeding device for the dryer based on the Internet of Things: the wireless communication module 12 is used to ensure The worker performs remote real-time monitoring on the device; the motor driving module 13 is used to control the operation of each driving motor, and the reliability of the device is improved; the display control module 15 is used to control the display device 9 to display the working information of the feeding device; the button control module 16 It is used to control the control device 10 to ensure real-time manipulation of the device by the worker; the pressure detecting module 17 is used for real-time analysis of the detection data of the pressure sensor 11, thereby improving the measurement accuracy of the device; the central control system 14 is used for controlling each module. , thereby improving the intelligence of the device.

Compared with the prior art, the IOT-based new feeding device for the dryer ensures remote real-time monitoring of the device by the wireless communication module 12; the pressure sensor 11 on the two conveying mechanisms 6 can The incoming wet material is accurately metered to ensure the accuracy of the feeding; not only that, the third cleaning motor 4 on the side plate 1 controls the cleaning plate 3 to be connected with the conveying mechanism 6, and is controlled by the second driving motor 5 The rotation of the conveying mechanism 6 ensures that all the wet materials are poured into the next process, and the reliability of the feeding is improved.

In view of the above-described embodiments of the present invention, various changes and modifications may be made by those skilled in the art without departing from the scope of the invention. The technical scope of the present invention is not limited to the contents of the specification, and the technical scope thereof must be determined according to the scope of the claims.

Claims

A novel feeding device for a dryer based on the Internet of Things, characterized in that it comprises two vertically arranged side plates (1), two cutting mechanisms (2) and one set on the side plates (1) The central control cabinet (8) on the side, the unloading mechanism (2) is electrically connected to the central control cabinet (8), the number of the side panels (1) is consistent with the number of the blanking mechanism (2) and one-to-one correspondence The unloading mechanism (2) includes a conveying mechanism (6), a first driving motor (7) and a second driving motor (5) disposed on both sides of the conveying mechanism (6), the cutting mechanism (2) Provided at the bottom of the corresponding side plate (1), the unloading mechanism (2) is drivingly connected to the side plate (1) by a first driving motor (7), the conveying mechanism (6) and the second driving motor ( 5) transmission connection, the transmission mechanism (6) is provided with a pressure sensor (11);

The side plate (1) is provided with a clearing mechanism, the clearing mechanism is located between the two side plates (1), and the clearing mechanism comprises a third driving motor (4) and a clearing plate (3) The third driving motor (4) is disposed on the side plate (1) and is drivingly connected to the cleaning plate (3);

The central control cabinet (8) is provided with a central control device, and the central control device comprises a wireless communication module (12) and a motor drive module (13), the first drive motor (7) and the second drive motor ( 5) and the third drive motor (4) are electrically connected to the motor drive module (13).
A new type of feeding device for a dryer based on the Internet of Things according to claim 1, characterized in that the conveying mechanism (6) comprises a conveyor belt.
A new type of feeding device for a dryer based on the Internet of Things according to claim 1, characterized in that the second drive motor (5) is located between the two side plates (1).
The invention relates to a novel feeding device for a dryer according to claim 1, characterized in that the central control cabinet (8) comprises a casing, a display device (9) and a control arranged on the casing Device (10).
The invention relates to a novel feeding device for a dryer according to claim 1, characterized in that the central control device comprises a central control system (14) connected to the central control system (14). The display control module (15), the button control module (16) and the pressure detection module (17).
The novel material feeding device for a dryer according to claim 5, wherein the pressure sensor (11) is electrically connected to a pressure detecting module (17), and the display device (9) is The display control module (15) is electrically connected, and the control device (10) is electrically connected to the button control module (16).
The novel material feeding device for a dryer according to claim 4, wherein the display device (9) is a liquid crystal display, and the control device (10) is a light touch button.