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Knife handle suitable for low-temperature minimal quantity lubrication

A technology of micro-lubrication and tool holders, which is applied in the direction of milling cutters, accessories of tool holders, clamping, etc., can solve the problems of heat insulation, insufficient sealing performance, external rotation and inner tool holders cannot be used in low-temperature micro-quantity lubrication cutting methods, etc., to achieve Overcoming ultra-low temperature medium seals, realizing green manufacturing, and improving cutting performance

Active Publication Date: 2020-03-17
DALIAN UNIV OF TECH
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Problems solved by technology

[0007] The main technical problem solved by the present invention is to solve the problem that the existing outer turning inner tool holder cannot be used in the low-temperature micro-lubrication cutting mode, and at the same time overcome the deficiency of the existing tool holder device in heat insulation and sealing performance, and invent a suitable Toolholders for low-temperature minimum-quantity lubrication

Method used

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  • Knife handle suitable for low-temperature minimal quantity lubrication
  • Knife handle suitable for low-temperature minimal quantity lubrication
  • Knife handle suitable for low-temperature minimal quantity lubrication

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Embodiment Construction

[0024] The specific implementation manner of the present invention will be described in detail below in conjunction with the accompanying drawings and technical solutions. In this embodiment, cryogenic nitrogen is used as the ultra-low temperature medium L1.

[0025] The tool holder suitable for low-temperature minimal quantity lubrication is improved on the basis of the traditional tool holder structure. Such as figure 1 , figure 2 , image 3 , Figure 4 , Figure 5 , Figure 6 As shown, a tool holder suitable for low-temperature minimal quantity lubrication includes a tool holder main body, a peripheral static structure, a multi-layer sealing structure, a heat insulation structure, and a bearing support structure.

[0026] During installation, install the flow channel heat insulation sleeve 4.3 into the inner flow channel 1-a of the handle at low temperature, and cold install the heat insulation sleeve 4.1 of the handle main body according to the inner shaft shoulder ...

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Abstract

The invention provides a knife handle suitable for low-temperature minimal quantity lubrication, and belongs to the technical field of cooling and lubrication of numerical control machine tools. The knife handle comprises a knife handle body, a peripheral static structure, a multi-layer sealing structure, a heat insulation structure and a bearing supporting structure. The problems that in the minimal quantity lubrication technology, the cooling performance is insufficient, and lubrication is insufficient in the low-temperature cooling machining technology are solved, the oxygen isolation protection effect of an ultralow-temperature medium, the cooling effect of the ultralow-temperature medium and the anti-attrition lubrication effect of minimal quantity lubrication are integrated, and therefore a good machining effect is achieved on the aspect of materials difficult to machine. The knife handle can be used for machining the materials difficult to machine through a traditional numericalcontrol machine tool, the application range of an outer rotating inner knife handle is widened, the cutting heat of the materials difficult to machine in the cutting machining process is effectivelyreduced, the service life of a knife is prolonged, traditional cutting fluid is replaced, and green manufacturing is achieved.

Description

technical field [0001] The invention belongs to the technical field of cooling and lubrication of numerical control machine tools, and in particular relates to a tool handle suitable for low-temperature micro-lubrication. Background technique [0002] At present, some difficult-to-machine materials such as titanium alloys and high-temperature alloys with excellent properties such as high temperature resistance and corrosion resistance have become the main materials used in the manufacture of components in aerospace and other high-end equipment fields. However, these difficult-to-machine materials usually exhibit high viscosity, high toughness, anisotropy and other characteristics, which bring a series of difficulties to the cutting process: the temperature in the cutting area is high, the tool life is short, and the surface quality of the parts is generally difficult to meet the target requirements. The latest research at home and abroad shows that, under the condition of gi...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B23Q3/12B23Q11/10
CPCB23Q3/12B23Q11/1046Y02P70/10B23Q11/103B23Q11/1023B23Q11/1053B23B31/20125B23B31/02B23B2250/12B23C5/28B23Q11/126
Inventor 王永青班仔优刘阔韩灵生孔繁泽王思琪
Owner DALIAN UNIV OF TECH
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