Multi-station crossed type glass sheet automatic carving machine and carving process thereof
A glass sheet and cross-type technology, which is applied to the multi-station cross-type glass sheet automatic engraving machine and its engraving process field, can solve the problems of internal parameter changes, high equipment cost, affecting the material properties of glass sheets, etc. Improve the effect of carving efficiency
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Embodiment 1
[0038] Embodiment 1: as Figure 1 to Figure 9 As shown, it is Embodiment 1 of the present invention, and the technical solution adopted in this embodiment is as follows: a multi-station cross-type automatic fine carving machine for glass sheets, including a machine platform 1, a longitudinal sliding assembly 2, a processing platform 3, a transverse sliding Moving assembly 4 and Jingdiao assembly 5, wherein, the above-mentioned machine platform 1 is arranged horizontally, and a processing space with a top opening is provided inside the machine platform 1; the above-mentioned longitudinal sliding assembly 2 includes two sets, and a single set of longitudinal sliding assembly 2 includes at least two one, and arranged in the front side or the rear side of the machine table 1 along the straight line; the above-mentioned processing platform 3 includes at least two, the glass sheet to be engraved is placed on the processing platform 3, and the processing platform 3 is horizontally arr...
Embodiment 2
[0055] Embodiment 2: as Figures 11 to 13 Shown is Embodiment 2 of the present invention. This embodiment adopts the same structural design, the principle of fine carving of glass sheets and the steps of fine carving of glass sheets as in Embodiment 1. The difference is that, compared with Embodiment 1, the There are 4 sets of longitudinal sliding components, processing platform and Jingdiao components, of which, two vertical sliding components and two Jingdiao components are respectively arranged on the front side, and the other two vertical sliding On the rear side, four sets of processing platforms are correspondingly arranged on four sets of longitudinal sliding components. Through this structural design, it is possible to independently complete the precise carving of four pieces of glass on a single machine; compared with Embodiment 1, the machine The size of the platform is reduced, but the production capacity of Jingdiao is reduced.
Embodiment 3
[0056] Embodiment 3: as Figure 14 Shown is Embodiment 3 of the present invention. This embodiment adopts the same structural design as Embodiment 1, the principle of fine carving of glass sheets and the steps of fine carving of glass sheets. The difference is that, compared with Embodiment 1, the There are 8 sets of longitudinal sliding components, processing platforms and Jingdiao components, among which, four vertical sliding components and four Jingdiao components are respectively arranged on the front side, and the other four longitudinal sliding components and the other four Jingdiao On the rear side, 8 sets of processing platforms are correspondingly arranged on 8 sets of longitudinal sliding components. Through this structural design, it is possible to independently complete the fine carving actions of 8 pieces of glass on a single machine; compared with Embodiment 1, the machine The size of the platform is reduced, but the production capacity of Jingdiao is reduced. ...
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