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Dynamic pressure flexible simulation ink making machine

A technology of dynamic pressure and ink grinder, applied in ink table, printing, office supplies, etc., can solve the problems of inability to achieve simulated artificial ink grinding, inability to realize dynamic pressure flexible state, etc., to achieve reliable force balance, freedom of choice, Avoid tilting and warping effects

Inactive Publication Date: 2009-07-22
张继祖 +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] The existing known rotary and reciprocating grinding mechanisms and ink grinding machines driven by motors are all rigid and hard grinding, which cannot realize the dynamic pressure flexible state of the ground ink when the ink is manually ground, and the device mechanisms are all rigidly supported. There is no intelligent automatic control of the whole process of dynamic pressure fine grinding, and the characteristics of simulating artificial ink grinding cannot be realized

Method used

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  • Dynamic pressure flexible simulation ink making machine
  • Dynamic pressure flexible simulation ink making machine
  • Dynamic pressure flexible simulation ink making machine

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0025] Such as Figure 1-5 As shown, the composition of the flexible simulation ink grinder of the present invention is: the mechanical part driven by the motor and the electronic control part mainly composed of the single-chip main control circuit constitute the technical solution of the present invention.

[0026] The composition of the mechanical part:

[0027] It mainly consists of a rotatable guide shaft column 4, a guide shaft column base 10, a booster spring 3, a return spring 7, a tubular booster bolt (which can also be replaced by a miniature jack) 1, a portal beam with a guide sleeve 5, an inkstone 8, Top panel 11, lower bottom plate 13, motor 22, casing 31, ink suction pump 24 and ink suction pipe etc. constitute. The mechanical part also includes: the electronic pressure light mark 2 installed on the portal beam 5, the inkstone support plate 23, the elastic supporting wheel 25 connected with the inkstone support plate, the distance bolt 14 connecting the upper pan...

Embodiment 2

[0035] Such as Figure 6-8 As shown, the main structure is basically the same as that of Embodiment 1, the difference is that the motor is placed on the top, and the flexible imitation ink grinder that the ink anchor rotates. Structurally, a rotatable single-back motor cover 34 (cancellation of the portal beam), an inline motor shaft seat 35, a rotating beam 36, a motor cover 37, an inkstone tray spring bolt 38, etc., and an inline motor shaft seat 35 are installed. On the swivel beam 36, the ink clamping frame is also contained on the swivel beam, the motor housing 37, the connection spring bolt 38 of the inkstone tray and the panel 11. The electronic control circuit is the same as that of Embodiment 1.

[0036] The manual operation control when above-mentioned two embodiments work:

[0037] The machine is powered on, the red light on the keyboard is on, and the functional units of the main control board are in the pre-working state when they are powered on. The LCD screen ...

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Abstract

The invention is a dynamic pressure flexible simulation ink grinder. The mechanical part driven by the motor and the electronic control part mainly composed of the main control circuit of the single-chip microcomputer: the mechanical part is mainly composed of a rotatable guide shaft column (4), a guide shaft column seat (10), and a force spring (3) , return spring (7), tubular afterburner (1), portal beam with guide sleeve (5) or rotatable single-back motor sleeve (34) and rotating beam (36), inkstone table (8), upper The panel (11), the lower bottom plate (13), the motor (22), the chassis (31), the ink suction pump (24), the ink suction pipe, etc.; the single chip computer stores the program data provided by each functional unit circuit of the main control board , calculation and control; the working voltage of each functional unit circuit and the motor ink suction pump is provided by the multi-channel switching power supply; the predetermined program command of the motor operation is executed by pressing the keys of the keyboard equipped with the LCD screen; the execution of the command by the LCD screen is completed. Display; the electronic pressure light mark with independent power supply will lightly indicate the selected pressure segment in color. The invention achieves the multiplication effect of the grinding benefit of the ink lining, the ink lining is slightly consumed, completes and ensures the reliable operation of the dynamic pressure flexible recovery equilibrium state during the grinding of the ink lining, achieves the purpose of simulation, saves time and increases efficiency, and is convenient and practical.

Description

technical field [0001] The invention relates to a fine grinding device, in particular to a dynamic pressure flexible simulation ink grinder intelligently controlled by a single chip microcomputer. Background technique [0002] The existing known rotary and reciprocating grinding mechanisms and ink grinding machines driven by motors are all rigid and hard grinding, which cannot realize the dynamic pressure flexible state of the ground ink when the ink is manually ground, and the device mechanisms are all rigidly supported. Without the intelligent full-automatic control of the whole process of dynamic pressure fine grinding, the characteristics of simulating artificial ink grinding cannot be realized. Contents of the invention [0003] The purpose of the present invention is to provide a dynamic pressure flexible simulation ink grinder intelligently controlled by a single-chip microcomputer, which can simulate and reproduce the characteristics of artificial ink grinding, rea...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B43L27/00
Inventor 张继祖
Owner 张继祖
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