CN102840235B - Linear slide rail with reflux system and assembling method thereof - Google Patents
Linear slide rail with reflux system and assembling method thereof Download PDFInfo
- Publication number
- CN102840235B CN102840235B CN201110172586.6A CN201110172586A CN102840235B CN 102840235 B CN102840235 B CN 102840235B CN 201110172586 A CN201110172586 A CN 201110172586A CN 102840235 B CN102840235 B CN 102840235B
- Authority
- CN
- China
- Prior art keywords
- turning part
- loop module
- post holes
- reflow pipe
- assembling
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Bearings For Parts Moving Linearly (AREA)
Abstract
The invention discloses a linear slide rail with a reflux system and an assembling method thereof. The linear slide rail mainly comprises a slide rail, a slide block, four circulating modules, two end covers and a cover plate; and the assembling method of the linear slide rail comprises the steps: assembling each circulating module, assembling a first end cover, assembling a first line of rolling bodies and a second line of rolling bodies, assembling the cover plate, assembling a third line of rolling bodies and a fourth line of rolling bodies and assembling a second end cover. Through the adoption of the linear slide rail with the reflux system, disclosed by the invention, the four lines of rollers can be assembled on single side, so that the assembling procedures and time are effectively reduced; moreover, less composing members and less types of the composing members are achieved; and except that the member assembling time can be reduced, the cost needed by opening member molds can be also reduced.
Description
Technical field
The present invention is relevant with linear slide rail, refers to a kind of linear slide rail and assembling method thereof of tool return-flow system especially.
Background technique
Generally provide the linear slide rail of slide block movement, it, in order to reduce the friction ractor of slide block movement and reduce noise when slide block moves and produce, therefore all can arrange return-flow system and provide ball (post) circulating rolling between slide block and slide rail.
The return-flow system of linear slide rail generally comprises rolling element, return flow line and backflow module etc., and the return-flow system of linear slide rail is roughly divided into individual part compound mode and one injection molding mode.
Return-flow system is that individual part compound mode is as US Patent No. 6,729, No. 760, this linear slide rail is mounted on slide block (2) with siphunculus (20) above forms complete return-flow system by end cap (5-1) (5-2), three groups of retainers (11) (12) (13), two groups of steering block (15a) (15b).But this design has following shortcoming: composition number of fitting parts is many, and slide block (2) two ends need other locating and machining hole (24) to be located by steering block (15a); So will significantly increase manufacture cost and built-up time.
Secondly, return-flow system is that another kind of individual part compound mode is as US Patent No. 7,341, No. 378, this linear slide rail is mounted on slide block (16) by siphunculus (7), retainer (13), two groups of steering blocks (45) (46) and end cap (74) to form complete return-flow system.But this design has following shortcoming: 1. must insert rolling assembly from slide block two ends, and then increase assembling procedure; 2. form number of fitting parts many, increase manufacture cost and built-up time.
Summary of the invention
The technical problem to be solved in the present invention is to provide a kind of linear slide rail and assembling method thereof of tool return-flow system, and it is by one-sided assembling four row roller, effectively reduce operation and the time of assembling, and composition number of components is few, saves die sinking cost.
For solving the problems of the technologies described above, the linear slide rail of a kind of tool return-flow system of the present invention, comprises: a slide rail, one slide block, is sheathed on described slide rail slidably, and is provided with the first slotting road, the second slotting road, the 3rd slotting road, the 4th slotting road, the first rolling surface, the second rolling surface, the 3rd rolling surface and the 4th rolling surface along glide direction, one first loop module, have one be inserted in first insert first reflow pipe in road, the first backflow portion, of corresponding first rolling surface is communicated with the first reflow pipe and the first passage and in the first backflow portion and is positioned at first passage and have the first turning part of first end and the second end outward, one second loop module, have one be inserted in the second slotting road and connect the second reflow pipe establishing turning part first end in connection first, one corresponding second rolling surface and meet the second backflow portion establishing turning part second end in connection first, the second channel in one connection the second reflow pipe and the second backflow portion, one to be positioned at second channel outer and have the second turning part of the 3rd end and the 4th end, 3rd termination establishes connection first reflow pipe, 4th end is communicated with to connect establishes the first backflow portion, and one is located at turning part side in second and inner the first dress post holes also supplying rolling element filling of through second reflow pipe, one the 3rd loop module, have one be inserted in the 3rd insert the 3rd reflow pipe in road, the 3rd backflow portion, of corresponding 3rd rolling surface is communicated with the 3rd reflow pipe and the third channel and in the 3rd backflow portion and is positioned at third channel and have the 3rd turning part of five terminal and the 6th end outward, one the 4th loop module, have one be inserted in the 4th slotting road and connect the 4th reflow pipe establishing turning part five terminal in connection the 3rd, one corresponding 4th rolling surface and meet the 4th backflow portion establishing turning part the 6th end in connection the 3rd, the four-way in one connection the 4th reflow pipe and the 4th backflow portion, one to be positioned at four-way outer and have the 4th turning part of the 7th end and the 8th end, 7th termination establishes connection the 3rd reflow pipe, 8th end is communicated with to connect establishes the 3rd backflow portion, and one is located at turning part side in the 4th and inner the second dress post holes also supplying rolling element filling of through 4th reflow pipe, one first end cap, is located at an end face of described slide block, and has the second outer turning part that a first outer turning part, butting up against turning part in the first loop module first butts up against turning part in the 3rd loop module the 3rd, one cover plate, have one close the 3rd outer turning part, that the first piston part, that the second loop module first fills post holes butts up against turning part in the second loop module second be located at the 3rd outer turning part and for the 3rd dress post holes, of rolling element filling close the second piston part, that the 4th loop module second fills post holes butt up against turning part in the 4th loop module the 4th all round turning part and be located at all round turning part and load for rolling element the 4th fill post holes, one second end cap, is located at the other end of described slide block, and has the 3rd piston part of a closed cover the 3rd dress post holes and the 4th piston part of a closed cover the 4th dress post holes.
The present invention also provides a kind of assembling method of linear slide rail of tool return-flow system, comprises: each loop module number of assembling steps; First end cap number of assembling steps; First and second row rolling element number of assembling steps; Cover plate number of assembling steps; Third and fourth row rolling element number of assembling steps; Second end cap number of assembling steps.
The present invention is mainly provided with first and second dress post holes in second, four loop modules, complete the filling of first and second row rolling element, cover plate group is located in second, four loop modules, form the return flow path that two row are complete, cover plate is provided with third and fourth dress post holes simultaneously, and complete the filling of third and fourth row rolling element, the second end cap is mounted on cover plate, form the return flow path that other two row are complete, complete the filling of four row rolling elements simultaneously.
The linear slide rail of tool return-flow system provided by the present invention, it is by the one-sided assembling that can complete four row rollers, uses the operation and time that effectively reduce assembling.In addition, the linear slide rail of tool return-flow system of the present invention, because its composition the number of components kind is few, except can reducing the component installaiton time, more can reduce the cost needed for the die sinking of composition component.
Accompanying drawing explanation
Below in conjunction with accompanying drawing and embodiment, the present invention is further detailed explanation:
Fig. 1 is three-dimensional exploded view of the present invention;
Fig. 2 is three-dimensional combination figure of the present invention;
Fig. 3 is the sectional drawing of Fig. 2 middle conductor 3-3;
Fig. 4 is three-dimensional exploded view of the present invention, shows first and third loop module and second, state that four loop modules are separated;
Fig. 5 is three-dimensional combination figure of the present invention, shows first and third loop module and second, state that four loop modules combine;
Fig. 6 is stereogram of the present invention, shows the stereoscopic-state of the first end cap;
Fig. 7 A is stereogram of the present invention, the stereoscopic-state of display cover plate;
Fig. 7 B is stereogram of the present invention, the stereoscopic-state at another visual angle of display cover plate;
Fig. 8 is stereogram of the present invention, shows the stereoscopic-state of the second end cap;
Fig. 9 is combination section of the present invention, shows the state that the first end cap is combined with first and third loop module;
Figure 10 is Assembly Action figure of the present invention, shows the state being loaded roll piece by first and second dress post holes of second, four loop modules;
Figure 11 is the part section of Figure 10 middle conductor 11-11;
Figure 12 is Assembly Action figure of the present invention, the state of display assembling cover plate;
Figure 13 is the part section of Figure 12 middle conductor 13-13;
Figure 14 is Assembly Action figure of the present invention, shows the state being loaded roll piece by third and fourth dress post holes of cover plate;
Figure 15 is the part section of Figure 14 middle conductor 15-15;
Figure 16 is Assembly Action figure of the present invention, shows the assembled state of the second end cap;
Figure 17 is the part section of Figure 16 middle conductor 17-17;
Figure 18 is assembly process figure of the present invention;
Figure 19 is the three-dimensional exploded view of another preferred embodiment of the present invention.
Wherein description of reference numerals is as follows:
Slide rail 11
Slide block 12 glide direction X
First inserts road 121 second inserts road 122
3rd inserts road 123 the 4th inserts road 124
First rolling surface 125 second rolling surface 126
3rd rolling surface 127 the 4th rolling surface 128
First loop module 20,20a first reflow pipe 21,21a
First backflow portion 22 first passage 23
Turning part 24,24a first end 241 in first
Second end 242 second fills post holes 25a
Second loop module 30 second reflow pipe 31
Second backflow portion 32 second channel 33
Turning part 34 the 3rd end 341 in second
4th end 342 first fills post holes 35
3rd loop module 40,40a the 3rd reflow pipe 41,41a
3rd backflow portion 42 third channel 43
Turning part 44,44a five terminal 441 in 3rd
6th end 442 the 3rd fills post holes 45a
4th loop module 50 the 4th reflow pipe 51
4th backflow portion 52 four-way 53
Turning part 54 the 7th end 541 in 4th
8th end 542 second fills post holes 55
The outer turning part 61 of first end cap 60,60a first
Second outer turning part 62 first cover plate 61a
Lid 62a
Cover plate 70 first piston part 71
3rd outer turning part 72 the 3rd fills post holes 73
Second turning part 75 all round, piston part 74
4th dress post holes 76
Second end cap 80 the 3rd piston part 81
4th piston part 82
Rolling element 91,92,93,94
Embodiment
Consult shown in Fig. 1 to Figure 17, the linear slide rail of a kind of tool return-flow system that the embodiment of the present invention provides, it formed primarily of slide rail 11, slide block 12,1 first loop module 20,1 second loop module 30, the 3rd loop module 40, the 4th loop module 50,1 first end cap 60, cover plate 70 and one second end cap 80.
Slide rail 11 is an elongated component.
Slide block 12 is sheathed on slide rail 11 slidably, and is provided with one first slotting road 124, first, slotting road 123, the 4th, slotting road 122, the 3rd, slotting road 121,1 second rolling surface 125, second rolling surface 126, the 3rd rolling surface 127 and one the 4th rolling surface 128 along glide direction X.
As shown in Figure 4, the first loop module 20 has one and is inserted in first passage 23 and that the first the first backflow portion 22, inserting corresponding first rolling surface 125 of the first reflow pipe 21, in road 121 is communicated with the first reflow pipe 21 and the first backflow portion 22 and is positioned at first passage 23 and have the first turning part 24 of first end 241 and the second end 242 outward.
As Fig. 4, Figure 10, shown in Figure 11, second loop module 30 has one and is inserted in the second slotting road 122 and connects the second reflow pipe 31 establishing turning part 24 first end 241 in connection first, one corresponding second rolling surface 126 and meet the second backflow portion 32 establishing turning part 24 second end 242 in connection first, the second channel 33 in one connection the second reflow pipe 31 and the second backflow portion 32, one to be positioned at second channel 33 outer and have the second turning part 34 of the 3rd end 341 and the 4th end 342, and one is located at turning part 34 side in second and inner the first dress post holes 35 also supplying rolling element 91 to load of through second reflow pipe 31, 3rd end 341 connects establishes connection first reflow pipe 21, 4th end 342 is communicated with to connect establishes the first backflow portion 22.
As shown in Figure 4,3rd loop module 40 structure is identical with the first loop module 20, has one and is inserted in third channel 43 and that the 3rd the 3rd backflow portion 42, inserting corresponding 3rd rolling surface 127 of the 3rd reflow pipe 41, in road 123 is communicated with the 3rd reflow pipe 41 and the 3rd backflow portion 42 and is positioned at third channel 43 and have the 3rd turning part 44 of five terminal 441 and the 6th end 442 outward.
As shown in Figure 10, 4th loop module 50 structure is identical with the second loop module 30, have one be inserted in the 4th slotting road 124 and connect the 4th reflow pipe 51 establishing turning part 44 five terminal 441 in connection the 3rd, one corresponding 4th rolling surface 128 and meet the 4th backflow portion 52 establishing turning part 44 the 6th end 442 in connection the 3rd, the four-way 53 in one connection the 4th reflow pipe 51 and the 4th backflow portion 52, one to be positioned at four-way 53 outer and have the 4th turning part 54 of the 7th end 541 and the 8th end 542, and one is located at turning part 54 side in the 4th and inner the second dress post holes 55 also supplying rolling element 92 to load of through 4th reflow pipe 51, 7th end 541 connects establishes connection the 3rd reflow pipe 41, 8th end 542 is communicated with to connect establishes the 3rd backflow portion 42.
As shown in Fig. 6, Fig. 9, the first end cap 60 is located at an end face of slide block 12, and has the second outer turning part 62 that a first outer turning part 61, butting up against turning part 24 in the first loop module 20 first butts up against turning part 44 in the 3rd loop module 40 the 3rd.
As Fig. 7 A, Fig. 7 B, Figure 12, Figure 13, shown in Figure 14, cover plate 70 has one and closes the first piston part 71 that the second loop module 30 first fills post holes 35, one the 3rd outer turning part 72 butting up against turning part 34 in the second loop module 30 second, one is located at the 3rd outer turning part 72 and the 3rd dress post holes 73 of loading for rolling element 93, one closes the second piston part 74 that the 4th loop module 50 second fills post holes 55, one the turning part 75 all round butting up against turning part 54 in the 4th loop module 50 the 4th, and one is located at the turning part 75 the 4th dress post holes 76 of loading for rolling element 94 all round.
As shown in Figure 16, Figure 17, the second end cap 80 is located at the other end of slide block 12, and has the 3rd piston part 81 of a closed cover 70 the 3rd dress post holes 73 and the 4th piston part 82 of a closed cover 70 the 4th dress post holes 76.
The above is structure and the configuration explanation thereof of each main member of the embodiment of the present invention.
The following description is please refer to as assembling mode of the present invention.
Consult shown in Figure 18, the assembling method of the linear slide rail of the embodiment of the present invention, it completed primarily of each loop module number of assembling steps A, the first end cap number of assembling steps B, first and second row rolling element number of assembling steps C, cover plate number of assembling steps D, third and fourth row rolling element number of assembling steps E and the second end cap number of assembling steps F.
Each loop module number of assembling steps A: consult Fig. 1, Fig. 3, Fig. 4, first and third reflow pipe 21,41 of first and third loop module 20,40 is inserted first and third from an end face of slide block 12 and inserts road 121,123, second, four reflow pipes 31,51 of second, four loop modules 30,50 are inserted second, four from the other end of slide block 12 and inserts road 122,124, first, second, third and fourth loop module 20,30,40,50 is mounted on slide block 12.
First end cap number of assembling steps B: consult Fig. 9, first end cap 60 is installed on slide block 12 1 end face, and make first and second outer knuckle section 61,62 of the first end cap 60 butt up against respectively the first loop module 20 first in turning part 24 and the 3rd loop module 40 the 3rd in turning part 44.
First and second row rolling element number of assembling steps C: consult Figure 10, Figure 11, inserts in second, four loop modules 35,55, to complete the filling of first and second row rolling element 91,92 by first and second dress post holes 35,55 by each rolling element 91,92 respectively.
Cover plate number of assembling steps D: consult Figure 12, Figure 13, cover plate 70 is mounted in second, four loop modules 30,50, and make first and second piston part 71,74 of cover plate 70 close first and second dress post holes 35,55 of second, four loop modules 30,50 respectively, to form the complete return flow path of two row, simultaneously third and fourth outer turning part 72,75 of cover plate 70 butt up against respectively the second loop module 30 second in turning part 34 and the 4th loop module 50 the 4th in turning part 54.
Third and fourth row rolling element number of assembling steps E: consult Figure 14, Figure 15, inserts in first and third loop module 20,40, to complete the filling of third and fourth row rolling element 93,94 by third and fourth dress post holes 73,76 of cover plate 70 by each rolling element 93,94 respectively.
Second end cap number of assembling steps F: consult Figure 16, Figure 17, second end cap 80 is installed on slide block 12 other end, and make third and fourth dress post holes 73,76 of third and fourth piston part 81,82 difference closed cover 70 of the second end cap 80, to form the complete return flow path of other two row, also complete the filling of four row rolling elements 91,92,93,94 simultaneously.
Accordingly, the linear slide rail of tool return-flow system provided by the present invention, it is by the one-sided assembling that can complete four row rollers, uses the operation and time that effectively reduce assembling.In addition, the linear slide rail of tool return-flow system of the present invention, composition number of components kind is few, except can reducing the component installaiton time, more can reduce the cost needed for the die sinking of composition component.
Consult Figure 19, the three-dimensional exploded view of display the present invention another preferred embodiment, its main and previous embodiment difference is:
The structure kenel design of the first loop module 20a is identical with the second loop module 30, and namely the first loop module 20a has and is located at 24a side in turning part in first and through first reflow pipe 21a is inner and fill post holes 25a for second of rolling element filling;
The structure kenel design of the 3rd loop module 40a is identical with the 4th loop module 50, and namely the 3rd loop module 40a has and is located at 44a side in turning part in the 3rd and through 3rd reflow pipe 41a is inner and fill post holes 45a for the 3rd of rolling element filling;
The structure kenel design of the first end cap 60a is made up of one first cover plate 61a and a lid 62a, and wherein the structure kenel of the first cover plate 61a is same as the structure kenel of cover plate 70, and the structure kenel of lid 62a is same as the structure kenel of the second end cap 80.
Accordingly, compared to previous embodiment, and for the linear slide rail of known tool return-flow system, accessory kind is less, more can reduce die cost, and when assembling rolling element, the assembling of four row rolling elements being carried out from slide block " either end ", namely not needing to consider that its directivity all can be assembled when assembling.
In sum, above-mentioned specific embodiment and accompanying drawing are preferred embodiment of the present invention, and be not used to limit the present invention, anyly know above operator, not departing from spirit of the present invention and scope, every equalization done according to the present patent application the scope of the claims changes and modifies, and all belongs to the scope that patent of the present invention contains.
Claims (2)
1. a linear slide rail for tool return-flow system, is characterized in that, comprises:
One slide rail;
One slide block, is sheathed on described slide rail slidably, and is provided with the first slotting road, the second slotting road, the 3rd slotting road, the 4th slotting road, the first rolling surface, the second rolling surface, the 3rd rolling surface and the 4th rolling surface along glide direction;
One first loop module, have one be inserted in first insert first reflow pipe in road, the first backflow portion, of corresponding first rolling surface is communicated with the first reflow pipe and the first passage and in the first backflow portion and is positioned at first passage and have the first turning part of first end and the second end outward;
One second loop module, have one be inserted in the second slotting road and connect the second reflow pipe establishing turning part first end in connection first, one corresponding second rolling surface and meet the second backflow portion establishing turning part second end in connection first, the second channel in one connection the second reflow pipe and the second backflow portion, one to be positioned at second channel outer and have the second turning part of the 3rd end and the 4th end, and one is located at turning part side in second and inner the first dress post holes also supplying rolling element filling of through second reflow pipe, in described second, the 3rd termination of turning part establishes connection first reflow pipe, 4th end is communicated with to connect establishes the first backflow portion,
One the 3rd loop module, have one be inserted in the 3rd insert the 3rd reflow pipe in road, the 3rd backflow portion, of corresponding 3rd rolling surface is communicated with the 3rd reflow pipe and the third channel and in the 3rd backflow portion and is positioned at third channel and have the 3rd turning part of five terminal and the 6th end outward;
One the 4th loop module, have one be inserted in the 4th slotting road and connect the 4th reflow pipe establishing turning part five terminal in connection the 3rd, one corresponding 4th rolling surface and meet the 4th backflow portion establishing turning part the 6th end in connection the 3rd, the four-way in one connection the 4th reflow pipe and the 4th backflow portion, one to be positioned at four-way outer and have the 4th turning part of the 7th end and the 8th end, and one is located at turning part side in the 4th and inner the second dress post holes also supplying rolling element filling of through 4th reflow pipe, in described 4th, the 7th termination of turning part establishes connection the 3rd reflow pipe, 8th end is communicated with to connect establishes the 3rd backflow portion,
One first end cap, is located at an end face of described slide block, and has the second outer turning part that a first outer turning part, butting up against turning part in the first loop module first butts up against turning part in the 3rd loop module the 3rd;
One cover plate, have one close the 3rd outer turning part, that the first piston part, that the second loop module first fills post holes butts up against turning part in the second loop module second be located at the 3rd outer turning part and for the 3rd dress post holes, of rolling element filling close the second piston part, that the 4th loop module second fills post holes butt up against turning part in the 4th loop module the 4th all round turning part and be located at all round turning part and load for rolling element the 4th fill post holes;
One second end cap, is located at the other end of described slide block, and has the 3rd piston part of a closed cover the 3rd dress post holes and the 4th piston part of a closed cover the 4th dress post holes.
2. an assembling method for linear slide rail as claimed in claim 1, is characterized in that, comprises:
Each loop module number of assembling steps: first and third reflow pipe of first and third loop module is inserted first and third from an end face of slide block and inserts road, second, four reflow pipes of second, four loop modules are inserted second, four from the other end of slide block and inserts road, make first, second, third and fourth loop module be mounted on slide block;
First end cap number of assembling steps: first end is mounted cover and is located on slide block one end face, and make first and second outer turning part of the first end cap butt up against respectively the first loop module first in turning part and the 3rd loop module the 3rd in turning part;
First and second row rolling element number of assembling steps: each rolling element is inserted in second, four loop modules by first and second dress post holes respectively, completes the filling of first and second row rolling element;
Cover plate number of assembling steps: cover plate is mounted in second, four loop modules, and make first and second piston part of cover plate close first and second dress post holes of second, four loop modules respectively, form the return flow path that two row are complete, third and fourth outer turning part of cover plate butts up against turning part in second, four loop modules second, four respectively simultaneously;
Third and fourth row rolling element number of assembling steps: each rolling element is inserted in first and third loop module by third and fourth dress post holes of cover plate respectively, completes the filling of third and fourth row rolling element;
Second end cap number of assembling steps: the second end cap is installed on slide block other end, and third and fourth piston part making the second end cap respectively closed cover third and fourth dress post holes, form the return flow path that other two row are complete, complete the filling of four row rolling elements simultaneously.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201110172586.6A CN102840235B (en) | 2011-06-24 | 2011-06-24 | Linear slide rail with reflux system and assembling method thereof |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201110172586.6A CN102840235B (en) | 2011-06-24 | 2011-06-24 | Linear slide rail with reflux system and assembling method thereof |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN102840235A CN102840235A (en) | 2012-12-26 |
| CN102840235B true CN102840235B (en) | 2015-03-04 |
Family
ID=47367884
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201110172586.6A Active CN102840235B (en) | 2011-06-24 | 2011-06-24 | Linear slide rail with reflux system and assembling method thereof |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN102840235B (en) |
Families Citing this family (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105822669B (en) * | 2015-01-05 | 2018-02-23 | 上银科技股份有限公司 | Linear slide rail |
| CN114076150B (en) * | 2020-08-18 | 2024-04-09 | 银泰科技股份有限公司 | Circulation channel structure of crossed roller wire rail |
| CN114749908B (en) * | 2022-03-07 | 2023-02-10 | 海宁亿诚五金有限公司 | Assembly line of drawer slide rail holder |
Citations (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN1380949A (en) * | 2000-05-29 | 2002-11-20 | Thk株式会社 | Linear motion guide device |
| CN1749588A (en) * | 2004-09-15 | 2006-03-22 | 上银科技股份有限公司 | Roller type linear slide rail |
| CN2839721Y (en) * | 2005-07-04 | 2006-11-22 | 国际直线科技股份有限公司 | Linear sliding rail chain belt circulating device |
| CN101025193A (en) * | 2006-02-24 | 2007-08-29 | 上银科技股份有限公司 | Return flow system of linear slide rail |
Family Cites Families (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP4469705B2 (en) * | 2004-11-17 | 2010-05-26 | 日本トムソン株式会社 | Linear motion guidance unit |
| US7237954B2 (en) * | 2005-08-01 | 2007-07-03 | Hiwin Technologies Corp. | Rolling element retainer for a linear guideway |
-
2011
- 2011-06-24 CN CN201110172586.6A patent/CN102840235B/en active Active
Patent Citations (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN1380949A (en) * | 2000-05-29 | 2002-11-20 | Thk株式会社 | Linear motion guide device |
| CN1749588A (en) * | 2004-09-15 | 2006-03-22 | 上银科技股份有限公司 | Roller type linear slide rail |
| CN2839721Y (en) * | 2005-07-04 | 2006-11-22 | 国际直线科技股份有限公司 | Linear sliding rail chain belt circulating device |
| CN101025193A (en) * | 2006-02-24 | 2007-08-29 | 上银科技股份有限公司 | Return flow system of linear slide rail |
Also Published As
| Publication number | Publication date |
|---|---|
| CN102840235A (en) | 2012-12-26 |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| US8220997B2 (en) | Circulating system for a linear guideway | |
| CN102840235B (en) | Linear slide rail with reflux system and assembling method thereof | |
| WO2008016377A3 (en) | Side-by-side atv | |
| DE102010015092A1 (en) | Device connector manufacturing method, device connector and mold structure therefor | |
| HK1143123A1 (en) | Assembly formed by connecting a plurality of components with a keyway connector and connecting method thereof | |
| CN103534059A (en) | Connecting element | |
| JP2011141012A (en) | Motion guide device and method for manufacturing the same | |
| CN103256303B (en) | The linear slide rail of tool lubricating oil path | |
| CN100480526C (en) | Return flow system of linear slide rail | |
| CN104235179A (en) | Slide carriage assembly | |
| US20050105839A1 (en) | Retaining device for rolling-element | |
| CN105121874B (en) | Rolling guide device | |
| CN105618592A (en) | Automobile supporting frame mold lower mold plate clamping sliding block structure | |
| CN201220397Y (en) | Thin type piston ring mounting tools | |
| CN105008734B (en) | Motion guide device | |
| CN201021731Y (en) | A body for multi-channel hydraulic valve | |
| CN201778851U (en) | Engine connecting rod small end bushing | |
| CN101027145A (en) | Manufacturing method for power transmission chain and pin holding tool | |
| KR20190036758A (en) | Adjustable lubrication module of linear guideway | |
| DE102014118059A1 (en) | Internal combustion engine with oil passages in the crankcase | |
| CN207740717U (en) | A kind of progressive lubrication distribution device of improvement block-resistant type | |
| CN101865004A (en) | Lining of connecting rod small end of engine | |
| CN210196956U (en) | Oil way structure for sliding seat | |
| CN217355235U (en) | Novel linear guide slider end cover capable of lubricating in multiple directions | |
| CN201437371U (en) | Steering gear fixing jaw |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C06 | Publication | ||
| PB01 | Publication | ||
| C10 | Entry into substantive examination | ||
| SE01 | Entry into force of request for substantive examination | ||
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant |