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Desktop z-pin pre-implantation machine

A desktop, pre-implanted technology, applied in the field of implantation, can solve problems such as visual fatigue, profit impact, glass fiber depth, uneven height and verticality when shearing

Inactive Publication Date: 2019-04-30
SHANDONG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The current production process used in the field of implant technology is that workers manually insert glass fiber filaments into foam boards, and then use tools such as scissors to cut them off. This operation mode has brought many bottlenecks: (1) Workers need to use Judging the orientation of the glass fiber with far focus eyes, and then using tools to install the glass fiber to the foam board and judge the position. Repeating this will easily cause visual fatigue; (2) The depth, height and verticality of the manually inserted glass fiber into the foam board The quality of the products produced cannot be guaranteed; (3) The speed at which the workers manually insert the glass fiber into the foam board is too slow, and the speed restricts the output, and the output restricts the benefit, which directly affects the profit

Method used

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  • Desktop z-pin pre-implantation machine
  • Desktop z-pin pre-implantation machine
  • Desktop z-pin pre-implantation machine

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0064] like Figure 2-3 Shown is a schematic diagram of the overall structure of the desktop fully automatic z-pin pre-implantation machine. This example includes a static platform and a dynamic platform. The static platform includes a base 1 and a door-shaped support composed of two first columns 2 and a beam 9. The dynamic platform includes a three-axis coordinate motion mechanism, and the three-axis coordinate motion mechanism is fixed on the support and the base 1. superior.

[0065] The first movement mechanism is placed on the base 1 and includes a protective cover 15 , a screw support 16 , a nut platform 17 , a working platform 18 and a protective cover 19 . Wherein below the protective cover 15 are ball screw and guide rail, and below the protective cover 19 are servo motors that drive the ball screw to rotate. The following second and third motion mechanisms are all realized by using the structure of servo motor + ball screw. The servo motor drives the ball screw t...

Embodiment 2

[0081] like Figure 8-13 As shown, the second embodiment has many similarities with the first embodiment. There are two main differences.

[0082] One, be on the laying position of winding silk barrel 21 '. In this embodiment, the silk winding barrel 21' is placed on the support 20' above the beam 9'. When the wire feed roller 352' of the wire feed mechanism is feeding wire, the wire winding barrel 21' rotates around the support 20'.

[0083] Second, it lies in the design of the implant device 3'. In this embodiment, the positions of the distance-adjusting block 33 ', the shredded mechanism and the clamping mechanism have been exchanged.

[0084] like Figure 10-13 As shown, the implantation device 3' includes an implantation platform 31', a wire feeding mechanism, a clamping mechanism, a distance adjusting block, a wire cutting mechanism, and a casing. In the implantation platform 31', 311' is the wire cutting mechanism placement area, 312' is the distance adjustment bl...

Embodiment 3

[0098] like Figure 15-25 Shown is a schematic diagram of the desktop fully automatic z-pin pre-implantation machine, including a static platform and a dynamic platform. The static platform includes a base 1" and a door-shaped bracket composed of two first columns 2" and a beam 9". 1" on the base is also provided with a control box 7", the moving platform includes a three-axis coordinate motion mechanism, and the three-axis coordinate motion mechanism includes a movable first motion mechanism, a second motion mechanism and a third motion mechanism, wherein:

[0099] like Figure 16-17 As shown, the first motion mechanism also includes a first slide 101 "installed on the base 1", a first slide 102" installed on the first slide 101", and a first slide matched with the first slide 102". rail 103" and the servo motor 110" connected to the first slide rail 103", the foam board is set on the first slide plate 101", and the guard bar 6" is set on the periphery, and the first movemen...

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Abstract

The invention discloses a desktop z-pin pre-implantation machine, which belongs to the technical field of implantation. The desktop z-pin pre-implantation machine includes a static platform and a dynamic platform, the static platform includes a base and two first columns and a beam, and the dynamic platform includes a three-axis coordinate motion mechanism, that is, the movable first motion mechanism, the second Two kinematic mechanisms and a third kinematic mechanism, wherein: the first kinematic mechanism is arranged on the base, the first kinematic mechanism includes a foam board arranged on the base, the second kinematic mechanism is arranged on the beam, and the third kinematic mechanism It is arranged on the second movement mechanism, and the implantation device is arranged on the third movement mechanism, and the implantation device includes a first wire feeding mechanism, a first clamping mechanism, a distance adjustment block and a first wire cutting mechanism, or the implantation device It includes a power and support part, a second wire feeding mechanism, a second clamping mechanism, a second wire cutting mechanism and a second wire insertion mechanism. The invention can replace the manual operation mode, and complete the implantation work of glass fiber filaments with high quality and high efficiency.

Description

technical field [0001] The invention relates to the technical field of implantation, in particular to a desktop z-pin pre-implantation machine. Background technique [0002] Glass fiber is an inorganic non-metallic material with excellent performance, usually used as a reinforcing material in composite materials, electrical insulation materials and thermal insulation materials, circuit substrates, etc. Glass fiber has high strength and flexibility, large elongation within the elastic limit, high tensile strength, and excellent electrical insulation, so it is widely used in many fields. During use, it is often necessary to implant glass fiber filaments into certain devices (such as foam boards). [0003] The current production process used in the field of implant technology is that workers manually insert glass fiber filaments into foam boards, and then use tools such as scissors to cut them off. This operation mode has brought many bottlenecks: (1) Workers need to use Judg...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B29C65/64
CPCB29C65/64B29C66/47B29C66/7465
Inventor 陈原翟龙迎胡铭铎徐瀚高军
Owner SHANDONG UNIV