A high-pressure self circulation cooling hydrostatic slide bearing, bearing pad connected on the upper supporting seat, a supporting seat oil inlet hole A in the middle of the supporting seat surface is provided with an annular cooling oil groove, the outer ring and the inner ring at the annular cooling oil groove is provided with a sealing ring, the outer ring sleeve cooling oil groove outside ring with oil seal edges on oil seal edges on the surface of a rectangular ring cover, rectangular ring cover and the supporting seat are connected by bolts, oil inlet hole B are arranged on the cover and the oil ring rectangular hole A bearing surface embedded under strip grooves in the outer wall of the groove and the next set of oil seal the edge strip groove, connecting bearing, bearing pad placed in the strip groove, a set of corresponding supporting seat are respectively connected with the side edge of the track, the other group of the corresponding side bearing edges are a side lateral supporting seat, the supporting seat and the supporting seat are connected by screws. The invention can absorb the heat generated by the oil seal edge through heat transfer, reasonably control the temperature rise and reduce the thermal deformation, and has the advantages of simple structure, high universality and popularization.
【技术实现步骤摘要】
本专利技术涉及静压支承
,具体涉及一种冷却液体静压导轨支承座。
技术介绍
润滑油从液体静压导轨的封油边流过时,会产生较大的热量,其中一部分被润滑油所吸收,而另一部分则会被封油边所吸收。它的不足之处:封油边产生较大温升,导致封油边发生热变形,影响液体静压导轨的支承系统。
技术实现思路
本专利技术的目的是提供一种可吸收封油边的热量,合理控制封油边的温升及热变形,实现液体静压导轨系统高压化的高压自循环冷却液体静压导轨支承座。本专利技术主要包括:承载垫、支承座、进油孔A、环形冷却油槽、密封圈、上封油边、环矩形盖板、进油孔B、出油孔A、条形凹槽、下封油边、支承垫、田字形支承油槽、轨道和侧向支承座。其中,在该承载垫的上部固定连接支承座,在支承座的中部设有进油孔A。该支承座的上表面设环形冷却油槽,在环形冷却油槽的外环和内环处,均设有密封圈。环形冷却油槽的外环的外壁套接上封油边,在上封油边的上表面设有环矩形盖板,该环矩形盖板与支承座通过螺钉活动连接。在环矩形盖板上设有进油孔B与出油孔A。支承座的下表面内嵌条形凹槽,在条形凹槽的外壁套接下封油边,在条形凹槽内固定连接四块相同的支承垫,四块支承垫放置在条形凹槽内,条形凹槽内形成田字形支承油槽。支承座的一组对应侧边分别固定连接轨道,支承座的另一组对应侧边均设有侧向支承座,该侧向支承座与支承座通过螺钉活动连接。本专利技术在使用时,润滑油由支承座中间的进油孔流入, ...
【技术保护点】
一种高压自循环冷却液体静压导轨支承座,主要包括承载垫、支承座、进油孔A、环形冷却油槽、密封圈、上封油边、环矩形盖板、进油孔B、出油孔A、条形凹槽、下封油边、支承垫、田字形支承油槽、轨道和侧向支承座,其特征在于:在该承载垫的上部固定连接支承座,在支承座的中部设有进油孔A,该支承座的上表面设环形冷却油槽,在环形冷却油槽的外环和内环处,均设有密封圈,环形冷却油槽的外环的外壁套接上封油边,在上封油边的上表面设有环矩形盖板,该环矩形盖板与支承座通过螺钉活动连接,在环矩形盖板上设有进油孔B与出油孔A,支承座的下表面内嵌条形凹槽,在条形凹槽的外壁套接下封油边,在条形凹槽内固定连接四块相同的支承垫,四块支承垫放置在条形凹槽内,条形凹槽内形成田字形支承油槽,支承座的一组对应侧边分别固定连接轨道,支承座的另一组对应侧边均设有侧向支承座,该侧向支承座与支承座通过螺钉活动连接。
【技术特征摘要】
1.一种高压自循环冷却液体静压导轨支承座,主要包括承载垫、支承座、进油
孔A、环形冷却油槽、密封圈、上封油边、环矩形盖板、进油孔B、出油孔A、
条形凹槽、下封油边、支承垫、田字形支承油槽、轨道和侧向支承座,其特征
在于:在该承载垫的上部固定连接支承座,在支承座的中部设有进油孔A,该
支承座的上表面设环形冷却油槽,在环形冷却油槽的外环和内环处,均设有密
封圈,环形冷却油槽的外环的外壁套接上封油边,在上...
【专利技术属性】
技术研发人员:赵建华,高殿荣,毋少峰,梁瑛娜,
申请(专利权)人:燕山大学,
类型:发明
国别省市:河北;13
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