CARRIAGE OF A LINEAR GUIDE

Abstract

The invention relates to a carriage of a profile rail roller guide, comprising an external lubricant connection point (12) for the feeding of lubricant and comprising lubricant channels (13) for the lubricant, which are connected to rolling-element channels (4) in order to supply the rolling-element channels with lubricant, wherein a plurality of orders of lubricant channels (13) is provided, the orders being series-connected one downstream of the other in the flow direction of the lubricant, and wherein each lubricant channel (13) of a higher-ranking order is assigned a plurality of mutually parallel-connected lubricant channels (13) of a low-ranking order of lubricant channels (13). The sum of the flow cross-sectional areas of said lubricant channels (13) of the low-ranking order is equal to the flow cross-sectional area of the connected lubricant channel (13) of the higher-ranking order.

Claims

1. A carriage of a linear guide, comprising endless rolling element channels in which rolling elements rotate endlessly, an external lubricant connection point for supplying lubricant, and lubricant channels for the lubricant, which are connected to the rolling element channels in order to supply these with lubricant, wherein multiple orders of lubricant channels are provided which are connected successively in series in the flow direction of the lubricant, wherein each lubricant channel of a higher-ranking order is assigned multiple mutually parallel-connected lubricant channels of a lower-ranking order of lubricant channels, characterized in that the sum of the flow cross-sectional areas of said lubricant channels of the lower-ranking order is equal to the flow cross-sectional area of the lubricant channel of the higher-ranking order.

2. The carriage according to claim 1, comprising a first, first-order lubricant channel which extends from the external lubricant connection point to a first distribution point, to which second, second-order lubricant channels are connected, each of which extend to a second distribution point, to which third, third-order lubricant channels are connected, each of which extend to a transfer section which connects the third, third-order lubricant channel to one of the rolling element channels.

3. The carriage according to claim 1, comprising a back, two legs arranged parallel to one another on both longitudinal sides of the back, a support body, and head pieces arranged on both end faces of the support body, at least one of which has the lubricant connection point and the lubricant channels, wherein each rolling element channel has a load section, a return section, and deflection sections endlessly connecting the load section with the return section, and wherein the load sections have raceways for the rolling elements.

4. The carriage according to claim 2, the head piece of which has multiple lubricant connection points which connect to the common first, first-order lubricant channel.

5. The carriage according to claim 4, the first, first-order lubricant channel of which extends from one longitudinal side of the carriage to the opposite longitudinal side and is connected at both ends to each one of the lubricant connection points, wherein the first distribution point is arranged centrally between the two lubricant connection points.

6. The carriage according to claim 5, the second, second-order lubricant channels of which each extend from the first distribution point into one of the two legs of the carriage up to a second distribution point, at which two third, third-order lubricant channels are connected.

7. The carriage according to claim 6, the two third, third-order lubricant channels of which are arranged along a common axis transverse to the first, first-order lubricant channel and each end at a transfer section of a rolling element channel.

8. The carriage according to claim 1, the flow cross-sectional areas of which are constant within a respective order of lubricant channels.

9. A carriage of a rail guide comprising: a plurality of rolling element channels, wherein the rolling element channels include a plurality of rolling elements that continuously rotate through the rolling element channels, a plurality of lubricant channels, wherein each lubricant channel is connected to a rolling element channel to supply the rolling element channels with lubricant, wherein the lubricant channels comprise multiple orders of lubricant channels connected successively in series in a flow direction of the lubricant, wherein each lubricant channel of a higher-ranking order is assigned mutually parallel-connected lubricant channels of a lower-ranking order of lubricant channels.

10. The carriage according to claim 9, wherein a sum of the flow cross-sectional areas of the lubricant channels of the lower-ranking order is equal to the flow cross-sectional area of the lubricant channel of the higher-ranking order.

11. The carriage according to claim 10, wherein the flow cross-sectional areas are constant within a respective order of lubricant channels.

12. The carriage according to claim 9, wherein the lubrication channels comprise: a first, first-order lubricant channel which extends from an external lubricant connection point to a first distribution point, to which second, second-order lubricant channels are connected, each of which extend to a second distribution point, to which third, third-order lubricant channels are connected, each of which extend to a transfer section which connects the third, third-order lubricant channel to one of the rolling element channels.

13. The carriage according to claim 12, further comprising a back, two legs arranged parallel to one another on both longitudinal sides of the back, a support body, and head pieces arranged on both end faces of the support body.

14. The carriage according to claim 13, wherein at least one of the head pieces includes the lubricant connection point and the lubricant channels, wherein each rolling element channel includes a load section, a return section, and deflection sections connecting the load section with the return section.

15. The carriage according to claim 13, wherein at least one of the head pieces includes multiple lubricant connection points which connect to a first, first-order lubricant channel.

16. The carriage according to claim 15, wherein the first, first-order lubricant channel extends from one longitudinal side of the carriage to the opposite longitudinal side and is connected at both ends to each of the lubricant connection points, wherein the first distribution point is arranged centrally between two lubricant connection points.

17. The carriage according to claim 16, wherein the second, second-order lubricant channel extend from the first distribution point into one of the two legs of the carriage up to a second distribution point, at which two third, third-order lubricant channels are connected.

18. The carriage according to claim 17, wherein the two third, third-order lubricant channels are arranged along a common axis transverse to the first, first-order lubricant channel and end at a transfer section of a rolling element channel.

19. A method of operating a carriage of a rail guide comprising: continuously rotating a plurality of rolling elements through a plurality of rolling element channels to move the carriage along a rail; and supplying the rolling element channels with lubricant via a plurality of lubricant channels, wherein the lubricant channels comprise multiple orders of lubricant channels connected successively in series in a flow direction of the lubricant, wherein each lubricant channel of a higher-ranking order is connected to parallel-connected lubricant channels of a lower-ranking order of lubricant channels.

20. The carriage according to claim 19, wherein a sum of the flow cross-sectional areas of the lubricant channels of the lower-ranking order is equal to the flow cross-sectional area of the lubricant channel of the higher-ranking order.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0020] The disclosure is explained in more detail below with reference to an exemplary embodiment shown in a total of five figures. In the figures:

[0021] FIG. 1 shows a profile rail roller guide with a guide rail and a carriage in a perspective view,

[0022] FIG. 2 shows the carriage of FIG. 1, and

[0023] FIG. 3 shows a detail of the carriage of FIG. 2 in a perspective view, and

[0024] FIG. 4 shows a detail from FIG. 1 in a longitudinal sectional view.

DETAILED DESCRIPTION OF EMBODIMENTS

[0025] FIGS. 1 to 4 show a profile rail roller guide with a guide rail and a carriage in a perspective view. This profile rail roller guide is a linear guide.

[0026] The carriage has a back 1, on the two longitudinal sides of which two legs 2 arranged parallel to one another are arranged. This carriage has an approximately U-shaped cross-sectional profile and grips around a profile rail 3 of the profile rail roller guide.

[0027] The carriage has endless rolling element channels 4. FIG. 4 schematically shows a section of the rolling element channel 4, in which rolling elements 5 rotate endlessly. A total of four endless rolling element channels 4 are configured in this exemplary embodiment, two on both sides of the profile rail. Each rolling element channel 4 has a load section 6, a return section 7 and deflection sections 8 which endlessly connect the load section 6 with the return section 7. The load sections 6 have raceways 9 for the rolling elements 5 which are formed on mutually facing sides of the legs 2.

[0028] The carriage also has a support body 10 and head pieces 11 arranged on both end faces of the support body 10, one of which is shown in FIG. 3. The deflection sections 8 for the rolling elements 5 are accommodated in the head pieces 11 (FIG. 4).

[0029] The head pieces 11 have external lubricant connection points 12 for supplying lubricant to the carriage. The lubricant connection points 12 indicated here can be provided with a grease fitting or a screw valve.

[0030] This head piece 11 has lubricant channels 13 for the lubricant, which are connected to the rolling element channels 4 in order to supply them with lubricant. There are multiple orders of lubricant channels 13 connected successively in series in the direction of flow of the lubricant. Each lubricant channel 13 of a higher-ranking order is assigned a plurality of mutually parallel-connected lubricant channels 13 of a lower-ranking order of lubricant channels 13. Multiple lubricant channels 13 of lower-ranking order are connected in parallel to the lubricant channel 13 of higher-ranking order, so that the lubricant flow of the lubricant channel 13 of higher-ranking order is divided into the number of connected lubricant channels 13 of lower-ranking order. A first lubricant channel 14 is the highest-ranking lubricant channel 13 which is connected to the lubricant connection point 12.

[0031] The sum of the flow cross-sectional areas of these lubricant channels 13 of lower-ranking order, which are connected to the higher-ranking lubricant channel 13, is equal to the flow cross-sectional area of the lubricant channel 13 of the higher-ranking order. The flow cross-sectional areas of the lower-ranking order are preferably the same size within their order. In this way, the flow speeds of the lubricant can be kept largely constant in all lubricant channels 13. The flow cross-sectional areas and the number of lower-ranking lubricant channels 13 are matched with the flow cross-sectional area of the connected higher-level lubricant channel 13.

[0032] The first lubricant channel 14 extends from the lubricant connection point 12 to a first distribution point 15, to which second-order lubricant channels 13 are connected, each of which extend to a second distribution point 16, to which third-order lubricant channels 13 are connected, each of which extend to a transfer section 17, 20, which connects the third-order lubricant channel 13 with one of the rolling element channels 4. The transfer section 17 is assigned to the lower rolling element channel 4, while the transfer section 20 is assigned to the upper rolling element channel 4.

[0033] The head piece 11 has multiple lubricant connection points 12, which connect to the common first lubricant channel 13 and which extends transversely to the longitudinal axis from one longitudinal side of the carriage to the opposite longitudinal side and which adjoins one of the lubricant connection points 12 at both ends, wherein, in this case, the first distribution point 15 is arranged centrally between the two lubricant connection points 12.

[0034] Two second, second-order lubricant channels 18 extend from the first distribution point 15 into one of the two legs 2 of the carriage up to the second distribution point 16, at which two third, third-order lubricant channels 19 connect.

[0035] The two third lubricant channels 19 extend on both legs 2 starting from the second distribution point 16 along a common axis transverse to the first lubricant channel 14 and each end at the transfer section 17, 20 of a rolling element channel 4.

[0036] The flow cross sections within a common order of lubricant channels 13 remain constant.

LIST OF REFERENCE SIGNS

[0037] 1 Back [0038] 2 Leg [0039] 3 Profile rail [0040] 4 Rolling element channel [0041] Rolling elements [0042] 6 Load section [0043] 7 Return section [0044] 8 Deflection section [0045] 9 Raceway [0046] 10 Support body [0047] 11 Head piece [0048] 12 Lubricant connection point [0049] 13 Lubricant channel [0050] 14 First lubricant channel [0051] 15 First distribution point [0052] 16 Second distribution point [0053] 17 Transfer section [0054] 18 Second lubricant channel [0055] 19 Third lubricant channel [0056] 20 Transfer section