CN212446783U

CN212446783U - Full-automatic controllable intervention operation error control system for conduction band of digital inkjet printer

Info

Publication number: CN212446783U
Application number: CN202021040716.1U
Authority: CN
Inventors: 项巍; 陈玉琴
Original assignee: Anhui Liyu Computer Equipment Manufacturing Co ltd
Current assignee: Anhui Liyu Computer Equipment Manufacturing Co ltd
Priority date: 2020-06-09
Filing date: 2020-06-09
Publication date: 2021-02-02
Anticipated expiration: 2030-06-09

Abstract

The utility model discloses a full-automatic controllable intervention operation error control system of a digital inkjet printer conduction band, which particularly comprises a power motor, a screw rod, an error correction roller, a state indicator lamp, an alarm buzzer, an edge finding detection module, a controllable intervention control box and a microcomputer control module; the power motor is connected with the motor base and fixed on the inkjet printer body; the screw rod is connected with the power motor, two ends of the screw rod are fixed by bearing blocks, and two ends of the screw rod are respectively provided with a position sensor; a mandrel at one end of the error correction roller is arranged on the screw rod nut, and a mandrel at the other end of the error correction roller is arranged on the inkjet printer body; the edge searching detection system is arranged on the inkjet printer body through a bracket and is arranged on the side edge of the conduction band; the microcomputer control module is connected with the edge searching inspection module, the controllable intervention control box, the position sensor and the power motor on the one hand, and is connected with the state indicator lamp and the alarm buzzer on the other hand. The utility model discloses can realize the unmanned on duty operation of digital inkjet printer.

Description

Full-automatic controllable intervention operation error control system for conduction band of digital inkjet printer

Technical Field

The utility model relates to a digital inkjet printer field specifically is a full-automatic controllable intervention running error control system of digital inkjet printer conduction band.

Background

With the increasingly wide application of the conduction band type digital inkjet printer in the industrial field, whether the conduction band runs stably or not is related to the stability of the quality and the inkjet efficiency of the printed product patterns; in general, the conduction band operation is stable by adopting higher part manufacturing precision and higher assembly precision in the industry; after the operation is carried out for a period of time, high-level personnel are required to recalibrate and adjust the operation precision. If the adjustment is not timely or not timely, the quality problem of patterns of the batch of the products sprayed by the machine can be caused; serious to cause irreparable damage to the machine conduction band. When the digital spray painting machine works, personnel need to watch the machine, and the running state of the guide belt is always concerned.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a full-automatic controllable intervention of digital inkjet printer conduction band running error control system to solve the problem that requires harsher in the aspect of its spare part manufacturing accuracy of prior art conduction band type digital inkjet printer, the assembly precision, with conduction band type digital inkjet printer needs the problem that personnel were on duty in the use.

In order to achieve the above purpose, the utility model discloses the technical scheme who adopts is:

the full-automatic controllable intervention operation error control system of the digital inkjet printer guide belt is characterized in that: the device comprises a linear motion platform fixed on an inkjet printer body and an error correction roller crossing and clinging to a conduction band, wherein a power motor drives a moving part to move linearly in the linear motion platform, the axial direction of the error correction roller is vertical to the linear motion direction of the moving part in the linear motion platform, two axial ends of the error correction roller are respectively and coaxially provided with a core adjusting bearing, the core adjusting bearings are respectively and coaxially provided with a core shaft, the core shaft at one end of the error correction roller is rotationally connected with the moving part in the linear motion platform, and the core shaft at the other end of the error correction roller is rotationally connected with the inkjet printer body; the edge searching detection module is arranged on the inkjet printer body through a bracket and is arranged at the side edge position of the conduction band, the edge searching detection module is in signal transmission connection with the microcomputer control module, and the microcomputer control module is in control connection with a power motor in the linear motion platform.

The full-automatic controllable intervention operation error control system of the digital inkjet printer conduction band is characterized in that: the linear motion platform comprises a mounting plate fixed on an inkjet printer body, a linear guide rail sliding block is arranged on the mounting plate, the motion direction of the sliding block in the linear guide rail sliding block is perpendicular to the axial direction of the error correction roller, a pair of bearings is further arranged on the mounting plate, the axial directions of the two bearings are parallel to the motion direction of the sliding block in the linear guide rail sliding block, a screw rod is coaxially and rotatably arranged between the two bearings, a screw rod nut is screwed on the screw rod, the screw rod nut is fixedly connected with the sliding block in the linear guide rail sliding block through a connecting plate to form a motion part of the linear motion platform, and a mandrel at the corresponding end of the error correction roller; the motor base is connected to the outer position of one end, located the lead screw, of the mounting plate, the power motor is installed on the motor base, and the power motor is connected with the corresponding end of the lead screw.

The full-automatic controllable intervention operation error control system of the digital inkjet printer conduction band is characterized in that: the mounting plate of the linear motion platform is respectively provided with position sensors corresponding to the two ends of the screw rod, and the position sensors are respectively in signal transmission connection with the microcomputer control module.

The full-automatic controllable intervention operation error control system of the digital inkjet printer conduction band is characterized in that: the microcomputer control module is also in signal communication connection with a controllable intervention control box of the inkjet printer.

The full-automatic controllable intervention operation error control system of the digital inkjet printer conduction band is characterized in that: the microcomputer control module is also connected with an alarm buzzer and a state indicator lamp.

The utility model has the advantages that:

the utility model has comprehensive technology, safety and reliability; the full-automatic control of the running error of the guide belt of the digital inkjet printer can be realized; meanwhile, manual controllable intervention control can be realized; the running state of the system can be fed back in real time, and the automation degree is high; the unattended operation of the digital inkjet printer can be realized; has higher economic benefit and application value.

Drawings

Fig. 1 is the left schematic view of the guide belt full-automatic operation error control mechanism of the medium-sized digital inkjet printer.

Fig. 2 is the right schematic view of the guide belt full-automatic operation error control mechanism of the medium-sized digital inkjet printer.

Fig. 3 is a schematic view of the connection of the full-automatic running error control system of the guide belt of the medium-digital inkjet printer.

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

As shown in fig. 1-3, the full-automatic controllable intervention operation error control system of the digital inkjet printer guide belt comprises a linear motion platform fixed on the inkjet printer body and an error correction roller 9 crossing and clinging to the guide belt 10, the linear motion platform comprises a mounting plate fixed on the inkjet printer body, a linear guide rail sliding block 6 is arranged on the mounting plate, the moving direction of the sliding block in the linear guide rail sliding block 6 is vertical to the axial direction of the error correction roller 9, a pair of

bearing seats

3 and 8 are also arranged on the mounting plate, the axial directions of the two bearing

seats

3 and 8 are parallel to the moving direction of the sliding block in the linear guide rail sliding block 6, a lead screw 4 is coaxially and rotatably arranged between the two bearing

seats

3 and 8, a lead screw nut 5 is screwed on the lead screw 4, the lead screw nut 5 is fixedly connected with the sliding block in the linear guide rail sliding block 6 through a connecting plate to form a moving part of the, the power motor 1 is arranged on the motor base 2, and the power motor 1 is connected with the corresponding end of the screw rod 4.

The axial two ends of the error correction roller 9 are respectively and coaxially provided with a core adjusting bearing 11 and a core adjusting bearing 15, the

core adjusting bearings

11 and 15 are respectively and coaxially provided with a core shaft 12 and a core shaft 16, and the core shaft 16 at one end of the error correction roller 9 is rotationally connected with a screw nut 5 of a moving part in a linear motion platform; the mandrel 12 at the other end of the error correction roller 9 is rotationally connected to the inkjet printer body; the device also comprises an edge searching detection module 13 and a microcomputer control module 18, wherein the edge searching detection module 13 is arranged on the inkjet printer body through a bracket 14 and is arranged at the side edge position of the conduction band 10, the edge searching detection module 13 is in signal transmission connection with the microcomputer control module 18, and the microcomputer control module 18 is in control connection with the power motor 1 in the linear motion platform.

The mounting plate of the linear motion platform is respectively provided with a position sensor 7 corresponding to the two ends of the screw rod 4, and the position sensors 7 are respectively connected with the microcomputer control module 18 in a signal transmission way.

The microcomputer control module 18 is also connected with a controllable intervention control box 17 of the inkjet printer in signal communication. The microcomputer control module 18 is also connected with an alarm buzzer 19 and a status indicator lamp 20.

When the inkjet printer works and the conduction band 10 runs, the edge-searching inspection module 13 monitors the running state and the offset error of the conduction band 10 in real time and transmits the running state and the offset error signal to the microcomputer control module 18 in real time.

When the running state of the belt 10 and the offset error are within the allowable range, the microcomputer control module 18 can control the state indicator lamp 20 to display a normal state indication.

When the running state and the offset error of the conduction band 10 exceed the allowable range, the microcomputer control module 18 outputs a driving signal of the power motor 1; the power motor 1 rotates, and the rotation of the power motor 1 is converted into the swing of the error correction roller 9 through the screw rod 3 and the screw rod nut 5; the error correction roller 9 is tightly attached to the guide belt 10, the axis of the swung error correction roller 9 forms a certain included angle with the running direction of the guide belt 10, and the friction resistance on two ends of the guide belt 10 is different, so that running error correction is realized. The step or non-step error correction can be realized through the microcomputer control module 18; the microcomputer control module 18 may control the status indicator light 20 to display a correction status indication.

When the running state and the offset error of the conduction band 10 exceed the limit range, the microcomputer control module 18 can control the state indicator lamp 20 to display abnormal state indication and drive the alarm buzzer 19 to sound for alarm; when the running state or offset error of the conduction band 10 cannot be corrected to the limit error range within a certain time range, the microcomputer control module 18 controls the digital inkjet printer to enter a standby state or forcibly shut down.

The controllable intervention control box 17 can output signals to the microcomputer control module 18, and can realize the setting of error correction sensitivity, error correction range value, limit error value entering a standby state or forced shutdown, display state of the state indicator lamp 20 and sounding alarm time of the alarm buzzer 19; and manual control or full-automatic control switching can be realized.

The embodiments of the present invention are only descriptions of the preferred embodiments of the present invention, not right the present invention is designed and limited, without departing from the design concept of the present invention, the technical personnel in the field should fall into the protection scope of the present invention for various modifications and improvements made by the technical solution of the present invention, and the technical contents of the present invention are all recorded in the claims.

Claims

1. The full-automatic controllable intervention operation error control system of the digital inkjet printer guide belt is characterized in that: the device comprises a linear motion platform fixed on an inkjet printer body and an error correction roller crossing and clinging to a conduction band, wherein a power motor drives a moving part to move linearly in the linear motion platform, the axial direction of the error correction roller is vertical to the linear motion direction of the moving part in the linear motion platform, two axial ends of the error correction roller are respectively and coaxially provided with a core adjusting bearing, the core adjusting bearings are respectively and coaxially provided with a core shaft, the core shaft at one end of the error correction roller is rotationally connected with the moving part in the linear motion platform, and the core shaft at the other end of the error correction roller is rotationally connected with the inkjet printer body; the edge searching detection module is arranged on the inkjet printer body through a bracket and is arranged at the side edge position of the conduction band, the edge searching detection module is in signal transmission connection with the microcomputer control module, and the microcomputer control module is in control connection with a power motor in the linear motion platform.

2. The full-automatic controllable intervention operation error control system of the conduction band of the digital inkjet printer as claimed in claim 1, wherein: the linear motion platform comprises a mounting plate fixed on an inkjet printer body, a linear guide rail sliding block is arranged on the mounting plate, the motion direction of the sliding block in the linear guide rail sliding block is perpendicular to the axial direction of the error correction roller, a pair of bearing seats are further arranged on the mounting plate, the axial direction of the two bearing seats is parallel to the motion direction of the sliding block in the linear guide rail sliding block, a screw rod is coaxially and rotatably arranged between the two bearing seats, a screw rod nut is screwed on the screw rod, the screw rod nut is fixedly connected with the sliding block in the linear guide rail sliding block through a connecting plate to form a motion part of the linear motion platform, and a mandrel at the corresponding end of the error correction roller; the motor base is connected to the outer position of one end, located the lead screw, of the mounting plate, the power motor is installed on the motor base, and the power motor is connected with the corresponding end of the lead screw.

3. The full-automatic controllable intervention operation error control system of the conduction band of the digital inkjet printer according to claim 1 or 2, characterized in that: the mounting plate of the linear motion platform is respectively provided with position sensors corresponding to the two ends of the screw rod, and the position sensors are respectively in signal transmission connection with the microcomputer control module.

4. The full-automatic controllable intervention operation error control system of the conduction band of the digital inkjet printer as claimed in claim 1, wherein: the microcomputer control module is also in signal communication connection with a controllable intervention control box of the inkjet printer.

5. The full-automatic controllable intervention operation error control system of the conduction band of the digital inkjet printer as claimed in claim 1, wherein: the microcomputer control module is also connected with an alarm buzzer and a state indicator lamp.