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Numerical control equipment and method for strengthening density of plastic material

A technology of numerical control equipment and material density, applied in the direction of forming indenters, ceramic forming machines, manufacturing tools, etc., can solve the problems of small shape error of ceramic blank deformation rate, uneven density of rolling forming blanks, etc., and achieve low deformation rate. Effect

Active Publication Date: 2017-12-05
卢培鑫
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0007] The purpose of the present invention is to provide a numerically controlled device and method for enhancing the density of plastic materials, to solve the problem of uneven density at various parts of the roll forming green body, and to increase the density of plastic materials, especially ceramic green bodies, so that the ceramics produced by this method The deformation rate of the green body is small and the shape error is small, which greatly improves the quality of ceramic products

Method used

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  • Numerical control equipment and method for strengthening density of plastic material
  • Numerical control equipment and method for strengthening density of plastic material

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Embodiment 1

[0037] A numerical control device that enhances the density of plastic materials in an embodiment of the present invention can process plastic materials to produce corresponding products, such as figure 1 As shown, the numerical control equipment includes a control unit (not shown in the figure), a driving unit 1 and a vibrating unit 2, wherein:

[0038] The driving part 1 is connected to the control part and the vibration part 2 respectively, and the driving part 1 drives the vibration part 2 to a predetermined position under the control of the control part. Specifically, the driving mode of the driving unit 1 is multi-angle driving without blind spots, so as to adapt to the diversity of the shapes of the processing objects.

[0039] The control part further controls the vibration part 2 to perform a vibration operation. The control part includes an input device and a circuit part. The user can control the drive part 1 through the operation of the input device. When the user...

Embodiment 2

[0048] A method for enhancing the density of plastic materials in an embodiment of the present invention can be used to process plastic materials to produce corresponding products. The method is applied to numerical control equipment, and the numerical control equipment includes a control unit (not shown in the figure) ), the driving part 1 and the vibrating part 2, where as figure 2 As shown, the above method includes the following steps:

[0049] S1, connect the vibration part 2 to the driving part 1, so that the driving part 1 drives the vibration part 2 to a predetermined position under the control of the control part. Specifically, the driving mode of the driving unit 1 is multi-angle driving without blind spots, so as to adapt to the diversity of the shapes of the processing objects.

[0050] S2, the control unit further controls the vibration unit 2 to perform a vibration operation. The control part includes an input device and a circuit part. The user can control th...

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Abstract

The invention discloses numerical control equipment and a method for strengthening density of plastic material. The equipment comprises a control portion, a driving portion and a vibration portion; the driving portion is connected with the control portion and the vibration portion; the driving portion is configured to drive the vibration portion to get to a preset position under the control of the control portion; the control portion is further configured to control the vibration portion to vibrate; the vibration portion is provided with a press head which vibrates along with the vibration portion to act on plastic material to increase the density of the material and the density of all parts is uniform. When the equipment of the present invention is used to process a moldable material, particularly a ceramic body, it is possible to process a body having a low water content; it can make the density of every part of the ceramic body and increase the overall density of the ceramic body; the drying shrinkage and sintering shrinkage of each part of the body are the same and the internal stress of each part is the same so that the deformation rate of ceramic products is very low and plastic material can be processed into preset shape.

Description

technical field [0001] The invention relates to the processing field of plastic materials, in particular to a numerical control device and method for enhancing the density of plastic materials. Background technique [0002] At present, the precision requirements for the processing of plastic materials are extremely high. If the processing methods and processing tools are used improperly, the density of various parts of the plastic materials will be uneven or too low to meet the requirements, and then the deformation rate will be high and cannot be processed. For preset shapes and other issues. In particular, the above-mentioned situation often occurs during the processing of ceramic green bodies. [0003] The traditional daily-use ceramics production in our country mostly adopts the wet rolling forming process, which requires the water content of the mud to be generally above 15%. If the water content is lower than 15%, the green body cannot be formed. The main disadvantage...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B28B3/04B28B3/02
CPCB28B3/022B28B3/04
Inventor 卢培鑫
Owner 卢培鑫