CN217346728U - Detachable shows 3D printing device of control - Google Patents

Abstract

The embodiment of the utility model discloses detachable shows and 3D printing device of control, include: the processing module is used for generating a control signal according to a control instruction input by a user; the main control module is used for controlling 3D printing according to the control signal; and the connecting module is used for connecting the processing module and the main control module in a wired or wireless manner. The embodiment of the utility model provides a pair of 3D printing device of detachable demonstration and control is through carrying out wired or wireless split with control module and 3D printer, thereby solved among the prior art control module and can't carry out the split with the 3D printer and lead to the inconvenient condition in user's sight and position when using, realized that user's optional position control 3D printer carries out the effect of printing, promoted user's experience.

Description

Detachable shows 3D printing device of control

Technical Field

The embodiment of the utility model provides a 3D printing technique especially relates to a 3D printing device of detachable demonstration and control is related to.

Background

At present, 3D printers are more and more widely applied, and FDM hot melt 3D printers begin to enter our daily life. The display and control module of the printer on the market is basically arranged on the machine and connected by a wire, and when the operation and the printing progress check are needed, the operation can be carried out only by walking to the side of the machine. The display and control module is usually fixed on the machine and has a specific viewing angle, and when the user uses the display screen, if the viewing angle is not right, for example, the height of the user is different when the user stands or sits, the viewing angle of the display screen is not right, and the interface is not clearly seen.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a detachable shows and 3D printing device of control, include:

the processing module is used for generating a control signal according to a control instruction input by a user;

the main control module is used for controlling 3D printing according to the control signal;

and the connecting module is used for connecting the processing module and the main control module in a wired or wireless manner.

Optionally, the processing module includes an MCU processor, and the MCU processor is configured to obtain a control instruction input by a user or pre-store data and generate a control signal.

Optionally, the processing module further includes a display unit, the display unit is connected to the MCU processor, and the display unit is configured to display the 3D printing condition and the printing options.

Optionally, the processing module further includes a file storage unit, the file storage unit is connected to the MCU processor, the file storage unit is configured to store a 3D printed code, and the MCU processor is further configured to read the 3D printed code.

Optionally, the processing module further includes a wake-up circuit, the wake-up circuit is connected to the MCU processor, and the wake-up circuit is configured to control the MCU processor to start working according to a user instruction.

Optionally, the processing module further includes a power module, the power module includes a charging circuit, a battery storage unit and an electric quantity detection unit, the charging circuit is used for connecting the connection module and obtaining a charging voltage, the battery storage unit is connected with the charging circuit and used for storing the charging voltage, the electric quantity detection unit is connected with the battery storage unit, and the electric quantity detection unit is used for detecting the electric quantity remaining in the battery storage unit.

Optionally, the connection module includes a connection interface, a first communication unit and a second communication unit, the connection interface is used for the processing module and the master control module to transmit data when needing wired connection, and the first communication unit and the second communication unit are used for the processing module and the master control module to perform bluetooth wireless connection when needing wireless connection.

Optionally, the main control module includes a 3D printing main control board, and the 3D printing main control board is configured to control other devices to perform 3D printing according to the control signal.

Optionally, the main control module further includes a power supply system, and the power supply system is configured to connect to an external power supply and provide an external power supply voltage.

Optionally, the main control module further includes a driving module, the driving module further includes a motor driving unit, a heating control unit and a temperature detection unit, the motor driving unit is connected with the 3D printing main control board and used for driving the motor to work according to the control signal, the heating control unit is connected with the 3D printing main control board and used for driving the heating device to work according to the control signal, and the temperature detection unit is used for acquiring the 3D printing temperature and sending the 3D printing main control board.

The embodiment of the utility model discloses detachable shows and 3D printing device of control, include: the processing module is used for generating a control signal according to a control instruction input by a user; the main control module is used for controlling 3D printing according to the control signal; and the connecting module is used for connecting the processing module and the main control module in a wired or wireless manner. The embodiment of the utility model provides a pair of 3D printing device of detachable demonstration and control is through carrying out wired or wireless split with control module and 3D printer, thereby solved among the prior art control module and can't carry out the split with the 3D printer and lead to the inconvenient condition in user's sight and position when using, realized that user's optional position control 3D printer carries out the effect of printing, promoted user's experience.

Drawings

Fig. 1 is a module connection diagram of a detachable display and control 3D printing apparatus according to a first embodiment of the present invention;

fig. 2 is a circuit diagram of a detachable display and control 3D printing apparatus according to a first embodiment of the present invention;

fig. 3 is a circuit diagram of a detachable display and control 3D printing apparatus provided by the second embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Before discussing exemplary embodiments in more detail, it should be noted that some exemplary embodiments are described as processes or methods depicted as flowcharts. Although a flowchart may describe the steps as a sequential process, many of the steps can be performed in parallel, concurrently or simultaneously. In addition, the order of the steps may be rearranged. A process may be terminated when its operations are completed, but may have additional steps not included in the figure. A process may correspond to a method, a function, a procedure, a subroutine, a subprogram, etc.

Furthermore, the terms "first," "second," and the like may be used herein to describe various orientations, actions, steps, elements, or the like, but the orientations, actions, steps, or elements are not limited by these terms. These terms are only used to distinguish one direction, action, step or element from another direction, action, step or element. For example, a first module may be termed a second module, and, similarly, a second module may be termed a first module, without departing from the scope of the present application. The first module and the second module are both modules, but they are not the same module. The terms "first", "second", etc. should not be construed to indicate or imply relative importance or to implicitly indicate the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

Example one

Fig. 1 is the embodiment of the utility model provides a pair of detachable shows and controls 3D printing device's module connection picture, the utility model provides a pair of detachable shows and controls 3D printing device is applicable to the condition that the user carries out the split with 3D printer control module, specifically, the utility model provides a pair of detachable shows and controls 3D printing device includes: the device comprises a processing module 1, a main control module 2 and a connecting module 3.

The processing module 1 is used for generating a control signal according to a control instruction input by a user.

In this embodiment, the processing module 1 mainly controls the printing condition of the 3D printer, specifically including the printing step, the printing model type, the slicing mode, the consumable material, and so on. Referring to fig. 2, fig. 2 is a circuit connection diagram of a detachable display and control 3D printing apparatus in this embodiment, where the processing module 1 includes an MCU processor 11, an MCU (micro controller Unit), also called a Single Chip Microcomputer (Single Chip Microcomputer) or a Single Chip Microcomputer, and the frequency and specification of a Central Processing Unit (CPU) are appropriately reduced, and peripheral interfaces such as a memory, a counter (Timer), a USB, an a/D converter, a UART, a PLC, a DMA, and even an LCD driving circuit are integrated on a Single Chip to form a Chip-level computer, which is used for different combination control in different application occasions. The MCU processor 11 is used for acquiring control instructions input by a user or pre-stored data and generating control signals. Specifically, the MCU processor 11 generates a control signal by receiving various control instructions input by a user or pre-stored data pre-stored by the user, and the control signal is input into the 3D printer to drive the 3D printer to print.

The processing module 1 further comprises a display unit 12, the display unit 12 is connected with the MCU processor 11, and the display unit 12 is configured to display a 3D printing situation and printing options.

In this embodiment, the display unit 12 may be an LED display screen, an OLED display screen, or another display screen, and the display unit 12 is connected to the MCU processor 11, so as to display the 3D printing condition and the printing options on the display unit 12. The 3D printing situation may include data of printing progress, motor operation, printing internal temperature, and the like. The printing option is a 3D printing menu, and a user can select various items of printing data and control the printing process by setting on the 3D printing menu.

The processing module 1 further comprises a file storage unit 13, the file storage unit 13 is connected with the MCU processor 11, the file storage unit 13 is used for storing 3D printed codes, and the MCU processor 11 is further used for reading the 3D printed codes.

In this embodiment, the file storage unit 13 stores the codes related to 3D printing, and the MCU processor 11 can read the codes in the file storage unit 13 and transmit the codes to the 3D printer in a wired or wireless manner. Generally, the file storage unit 13 may be a hard disk memory such as ROM, RAM, etc., and the storage code in the hard disk memory can be accurately read by the MCU processor 11.

And the main control module 2 is used for controlling 3D printing according to the control signal.

In this embodiment, the main control module 2 includes a 3D printing main control board 21, and the 3D printing main control board 21 is configured to control other devices to perform 3D printing according to the control signal. The 3D printing main control board 21 receives the control signal and then drives the 3D printing other devices to work, thereby completing the whole 3D printing process.

The main control module 2 further comprises a power supply system 22, wherein the power supply system 22 is used for connecting an external power supply and providing an external power supply voltage.

In this embodiment, the power system 22 may be a power adapter or a storage battery, and the power adapter supplies power by connecting to a mains power supply, and the storage battery supplies power to the power system 22 by storing power.

The connection module 3 is used for connecting the processing module 1 and the main control module 2 in a wired or wireless manner. Connection module 3 is including connection interface 31, first communication unit 32 and second communication unit 33, connection interface 31 is used for processing module 1 with data transmission when host system 2 needs wired connection, first communication unit 32 with second communication unit 33 is used for processing module 1 with carry out bluetooth wireless connection when host system 2 needs wireless connection.

In this embodiment, when the processing module 1 and the main control module 2 are connected by wire, the power system 22 outputs corresponding voltages to each unit after working normally. The 3D printing main control board 21 starts normal operation after the operating voltage is input. The 3D printing main control board 21 is connected to the MCU processor 11 through the connection interface 31, and both of them perform wired communication. When a user needs to print, the MCU processor 11 reads the code in the file storage unit 13, performs wired communication with the 3D printing main control board 21 through the connection interface 31, and sends the code to the 3D printing main control board 21. The 3D printing main control board 21 starts printing through the heating control unit and the motor driving unit according to the corresponding codes, reads the corresponding position temperature through the temperature detection unit, feeds the temperature back to the MCU processor 11 through wired communication, and displays the temperature on the display unit 12 in real time. When the processing module 1 and the main control module 2 are in wireless connection, after the source system works normally, corresponding voltage is output to each unit, and the 3D printing main control board 21 starts to work normally after working voltage is input. The first communication unit 32 is a slave mode bluetooth module, the second communication unit 33 is a master mode bluetooth module, and when the 3D printing main control board 21 detects that the connection interface 31 has no data signal, the bluetooth wireless communication function is started, the master mode bluetooth module is controlled to start working, and the accessory device starts to be searched; the MCU processor 11 starts to work, and when detecting that the connection interface 31 has no data signal, the Bluetooth wireless communication function is started at the same time, and the slave mode Bluetooth module is controlled to start to work and enter a searchable state. After the master mode Bluetooth module searches the slave mode Bluetooth module, automatic pairing is started, and data communication can be carried out after the pairing is successful. The user can carry out wireless control 3D and print main control board 21, does not receive the restriction of wire, convenient operation.

The embodiment of the utility model discloses detachable shows and 3D printing device of control, include: the processing module is used for generating a control signal according to a control instruction input by a user; the main control module is used for controlling 3D printing according to the control signal; and the connecting module is used for connecting the processing module and the main control module in a wired or wireless manner. The embodiment of the utility model provides a pair of 3D printing device of detachable demonstration and control is through carrying out wired or wireless split with control module and 3D printer, thereby solved among the prior art control module and can't carry out the inconvenient condition in sight and position when the split leads to the user to use with the 3D printer, realized that user's optional position control 3D printer carries out the effect of printing, promoted user's experience.

Example two

Fig. 1 is the embodiment of the utility model provides a detachable shows and 3D printing device's of control module connection picture that provides, the utility model provides a detachable shows and 3D printing device of control is applicable to the condition that the user carries out the split with 3D printer control module, specifically, the utility model provides a detachable shows and 3D printing device of control that provides includes: the device comprises a processing module 1, a main control module 2 and a connecting module 3.

The processing module 1 is used for generating a control signal according to a control instruction input by a user.

In this embodiment, the processing module 1 mainly controls the printing condition of the 3D printer, specifically including the printing step, the printing model type, the slicing mode, the consumable material, and so on. Referring to fig. 3, fig. 3 is a circuit connection diagram of a detachable display and control 3D printing apparatus in this embodiment, where the processing module 1 includes an MCU processor 11, an MCU (micro controller Unit), also called a Single Chip Microcomputer (Single Chip Microcomputer) or a Single Chip Microcomputer, and the frequency and specification of a Central Processing Unit (CPU) are appropriately reduced, and peripheral interfaces such as a memory, a counter (Timer), a USB, an a/D converter, a UART, a PLC, a DMA, and even an LCD driving circuit are integrated on a Single Chip to form a Chip-level computer, which is used for different combination control in different application occasions. The MCU processor 11 is configured to obtain a control instruction input by a user or pre-stored data and generate a control signal. Specifically, the MCU processor 11 generates a control signal by receiving various control instructions input by a user or pre-stored data pre-stored by the user, and the control signal is input into the 3D printer to drive the 3D printer to print.

The processing module 1 further comprises a display unit 12, the display unit 12 is connected with the MCU processor 11, and the display unit 12 is configured to display a 3D printing situation and printing options.

In this embodiment, the display unit 12 may be an LED display screen, an OLED display screen, or another display screen, and the display unit 12 is connected to the MCU processor 11, so as to display the 3D printing condition and the printing options on the display unit 12. The 3D printing situation may include data of printing progress, motor operation, printing internal temperature, and the like. The printing option is a 3D printing menu, and a user can select various items of printing data and control the printing process by setting on the 3D printing menu.

The processing module 1 further comprises a file storage unit 13, the file storage unit 13 is connected with the MCU processor 11, the file storage unit 13 is used for storing 3D printed codes, and the MCU processor 11 is further used for reading the 3D printed codes.

In this embodiment, the file storage unit 13 stores the codes related to 3D printing, and the MCU processor 11 can read the codes in the file storage unit 13 and transmit the codes to the 3D printer in a wired or wireless manner. Generally, the file storage unit 13 may be a hard disk memory such as ROM, RAM, etc., and the storage code in the hard disk memory can be accurately read by the MCU processor 11.

The processing module 1 further includes a wake-up circuit 14, the wake-up circuit 14 is connected to the MCU processor 11, and the wake-up circuit 14 is configured to control the MCU processor 11 to start working according to a user instruction.

In this embodiment, in the wireless connection, a user may control the MCU processor 11 to start working by triggering the wake-up circuit 14, and the wake-up circuit 14 may be controlled to start by pressing a key or by sound, and convert the sound into an electrical signal to control the MCU processor 11 to work.

The processing module 1 further comprises a power module 15, the power module 15 comprises a charging circuit, a battery storage unit and an electric quantity detection unit, the charging circuit is used for connecting the connecting module 3 and obtaining charging voltage, the battery storage unit is connected with the charging circuit and used for storing the charging voltage, the electric quantity detection unit is connected with the battery storage unit, and the electric quantity detection unit is used for detecting the electric quantity surplus in the battery storage unit.

In this embodiment, the power module 15 includes a charging circuit, a battery storage unit and an electric quantity detection unit, and obtains the operating voltage in the main control module 2 through the charging circuit, and the circuit is charged for the battery storage unit after the voltage reduction and constant current, and after the battery storage unit is fully charged, the charging circuit can be automatically disconnected, thereby effectively preventing the overcharge phenomenon, and after the battery storage unit passes through the electric quantity detection unit, the residual quantity can be displayed on the display unit 12 in real time.

And the main control module 2 is used for controlling 3D printing according to the control signal.

In this embodiment, the main control module 2 includes a 3D printing main control board 21, and the 3D printing main control board 21 is configured to control other devices to perform 3D printing according to the control signal. The 3D printing main control board 21 receives the control signal and then drives the 3D printing other devices to work, thereby completing the whole 3D printing process.

The main control module 2 further comprises a power supply system 22, wherein the power supply system 22 is used for connecting an external power supply and providing an external power supply voltage.

In this embodiment, the power system 22 may be a power adapter or a storage battery, and the power adapter supplies power by connecting to a mains power supply, and the storage battery supplies power to the power system 22 by storing power.

The main control module 2 further comprises a driving module 23, the driving module 23 comprises a motor driving unit, a heating control unit and a temperature detection unit, the motor driving unit is connected with the 3D printing main control board 21 and used for driving the motor to work according to the control signal, the heating control unit is connected with the 3D printing main control board 21 and used for driving the heating device to work according to the control signal, and the temperature detection unit is used for acquiring the 3D printing temperature and sending the 3D printing main control board 21.

In this embodiment, the driving module 23 includes a motor driving unit, a heating control unit and a temperature detection unit, the 3D printing main control board 21 starts printing through the heating control unit and the motor driving unit according to the corresponding code, and simultaneously reads the corresponding position temperature through the temperature detection unit, and feeds the temperature back to the MCU processor 11 through wired communication, and displays the temperature on the display unit 12 in real time.

The connection module 3 is used for connecting the processing module 1 and the main control module 2 in a wired or wireless manner. Connection module 3 is including connection interface 31, first communication unit 32 and second communication unit 33, connection interface 31 is used for processing module 1 with data transmission when host system 2 needs wired connection, first communication unit 32 with second communication unit 33 is used for processing module 1 with carry out bluetooth wireless connection when host system 2 needs wireless connection.

In this embodiment, when the processing module 1 and the main control module 2 are connected by wire, the power system 22 outputs corresponding voltages to each unit after working normally. The 3D printing main control board 21 starts normal operation after the operating voltage is input. The 3D printing main control board 21 is connected to the MCU processor 11 through the connection interface 31, and both of them perform wired communication. When a user needs to print, the MCU processor 11 reads the code in the file storage unit 13, performs wired communication with the 3D printing main control board 21 through the connection interface 31, and sends the code to the 3D printing main control board 21. The 3D printing main control board 21 starts printing through the heating control unit and the motor driving unit according to the corresponding codes, reads the corresponding position temperature through the temperature detection unit, feeds the corresponding position temperature back to the MCU processor 11 through wired communication, and displays the corresponding position temperature on the display unit 12 in real time. When the processing module 1 and the main control module 2 are in wireless connection, after the source system works normally, corresponding voltage is output to each unit, and the 3D printing main control board 21 starts to work normally after working voltage is input. When the 3D printing main control board 21 detects that the connection interface 31 has no data signal, starting a Bluetooth wireless communication function, controlling the main mode Bluetooth module to start working, and starting to search for accessory equipment; after the user triggers the wake-up circuit 14, the MCU processor 11 starts to operate, and when detecting that the connection interface 31 has no data signal, the bluetooth wireless communication function is enabled to control the slave mode bluetooth module to start to operate and enter a searchable state. After the master mode Bluetooth module searches the slave mode Bluetooth module, automatic pairing is started, and data communication can be carried out after the pairing is successful. The user can carry out wireless control 3D and print main control board 21, does not receive the restriction of wire, convenient operation.

The embodiment of the utility model discloses detachable shows and 3D printing device of control, include: the processing module is used for generating a control signal according to a control instruction input by a user; the main control module is used for controlling 3D printing according to the control signal; and the connecting module is used for connecting the processing module and the main control module in a wired or wireless manner. The embodiment of the utility model provides a pair of 3D printing device of detachable demonstration and control is through carrying out wired or wireless split with control module and 3D printer, thereby solved among the prior art control module and can't carry out the inconvenient condition in sight and position when the split leads to the user to use with the 3D printer, realized that user's optional position control 3D printer carries out the effect of printing, promoted user's experience.

It should be noted that the foregoing is only a preferred embodiment of the present invention and the technical principles applied. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail with reference to the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the scope of the present invention.

Claims (8)

1. The utility model provides a 3D printing device of detachable demonstration and control which characterized in that includes:

the processing module is used for generating a control signal according to a control instruction input by a user;

the main control module is used for controlling 3D printing according to the control signal;

the connection module is used for connecting the processing module and the main control module in a wired or wireless way;

the main control module comprises a 3D printing main control board, and the 3D printing main control board is used for controlling other equipment to perform 3D printing according to the control signal;

the main control module further comprises a driving module, the driving module comprises a motor driving unit, a heating control unit and a temperature detection unit, the motor driving unit is connected with the 3D printing main control board and used for driving the motor to work according to the control signal, the heating control unit is connected with the 3D printing main control board and used for driving the heating equipment to work according to the control signal, and the temperature detection unit is used for acquiring the 3D printing temperature and sending the 3D printing main control board.

2. The detachable display and control 3D printing device according to claim 1, wherein the processing module comprises an MCU processor, and the MCU processor is configured to obtain a control instruction input by a user or pre-stored data and generate a control signal.

3. The 3D printing device capable of being detachably displayed and controlled according to claim 2, wherein the processing module further comprises a display unit, the display unit is connected with the MCU processor, and the display unit is used for displaying 3D printing conditions and printing options.

4. The 3D printing device with detachable display and control according to claim 2, wherein the processing module further comprises a file storage unit, the file storage unit is connected with the MCU processor, the file storage unit is used for storing 3D printed codes, and the MCU processor is further used for reading the 3D printed codes.

5. The 3D printing device capable of being detachably displayed and controlled according to claim 2, wherein the processing module further comprises a wake-up circuit, the wake-up circuit is connected with the MCU processor, and the wake-up circuit is used for controlling the MCU processor to start working according to a user instruction.

6. The 3D printing device with detachable display and control as claimed in claim 2, wherein the processing module further comprises a power module, the power module comprises a charging circuit, a battery storage unit and a power detection unit, the charging circuit is used for connecting the connection module and obtaining a charging voltage, the battery storage unit is connected with the charging circuit and used for storing the charging voltage, the power detection unit is connected with the battery storage unit, and the power detection unit is used for detecting the power surplus in the battery storage unit.

7. The 3D printing device capable of being detached for display and control as claimed in claim 1, wherein the connection module comprises a connection interface, a first communication unit and a second communication unit, the connection interface is used for data transmission when the processing module and the main control module need to be connected in a wired manner, and the first communication unit and the second communication unit are used for Bluetooth wireless connection when the processing module and the main control module need to be connected in a wireless manner.

8. The detachable display and control 3D printing device according to claim 1, wherein the main control module further comprises a power system for connecting to an external power source and providing an external power voltage.

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