TWM398055U - Lubricating structure for sliding carrier - Google Patents

Description

October 4, 099, the replacement of the page 5, the new description: [New technical field] [0001] This creation is about a lubrication structure 'especially about the lubrication structure of a precision positioning slide ° ° [Prior Art] [0002 Most modern equipment uses automated production equipment to replace manual work. Many of the machines are equipped with precision positioning slides to control the movement of various types of equipment, or the transportation of raw materials and products. Therefore, for the production of tools In other words, the sliding table can be said to be one of the key parts that affect production. [0003] After the slide table has been used for a certain period of time, the related components must be lubricated. Otherwise, the machine will be prone to overheating and wear. In addition, the gap between the components will be larger and smaller and the life will be reduced. For example, the simple oil-filling structure of the precision positioning slide of the Republic of China new patent certificate No. 4 3 4 5 9 2 3 . Referring to the first and third figures, the lubricating oil is injected from the oil filling nozzles 442 on both sides of the sliding seat 4, and the self-injecting oil passage 44 flows through the branching passage 45' the flow guiding passage 51, and then flows to the V/by Block 50' is used to lubricate slider 3 2 and track 31. In addition, the lake oil can also be absorbed into the groove 4 2 2 from the oil injection passage 4 4 and absorbed by the oil storage cotton 4 2 3 , so that the lubricating oil can also lubricate the lead screw 2 . By the design of the above lubricating structure, the precision positioning slide can lubricate the slider 32 and the slide rail 31, as well as the lead screw 2, without disassembling the dust cover. [0004] In addition, as shown in the third and fourth figures, the top mask of the oil guiding block 5 有一 has an upper cannula 52 connected to the coupling hole 451, and the two sides of the oil guiding block 5 具有 have A plug 53 is connected to the slider 32. By the upper cannula 52, it is connected to the form number Α0101, page 3/total 25 pages, M398055, October 4, 099, the replacement page bonding hole 451 is corrected, so that the lubricating oil flowing into the branching channel 45 can flow into the oil guiding block 50. Flow path 51. The lubricating oil flowing into the flow guiding passage 51 can flow to the oil filling holes 321 of the both side sliders 32 through the insertion holes 53 on both sides of the oil guiding block 50 to lubricate the slider 32 and the sliding rail 31. [0005] However, since the upper cannula 52 and the cannula 53 are produced by lathe processing, there may be an error in size due to human factors. For example, if the upper cannula 52 or the cannula 53 is slightly larger in size during processing, the connection of the upper cannula 52 to the coupling hole 451 or the connection of the cannula 53 to the oiling hole 321 may be difficult; 52 or the cannula 53 is slightly smaller in size during processing, and the upper cannula 52 and the coupling hole 451 or the cannula 53 and the oiling hole 321 are not easily connected. In the above two cases, if the upper tube 52 or the cannula 53 is barely mounted on the oil guiding block 50, the top surface and the two sides of the oil guiding block 50 may be leaked due to insufficient connection. [0006] Therefore, how to provide a lubricating structure can prevent the oil leakage phenomenon of the precision positioning slide, which is one of the current important issues. [New Content] [0007] In view of the above problems, the purpose of this creation is to provide a lubrication structure that combines convenient and simple oiling operations and prevents oil leakage from the precision positioning slide. [0008] In order to achieve the above object, a lubricating structure according to the present invention is used in combination with a sliding table, and the sliding table has a base, two sliding rails and a sliding seat. The base has two slide rail platforms respectively located on two sides of the base. The slide rails are respectively disposed on the slide rail platform. The sliding seat is disposed on the sliding rail and can move on the sliding rail. The lubrication structure includes two oil guiding blocks and two first sealing elements. The oil guide block corresponds to the form number A0101 page 4 / total 25 pages October 04, 099, the child replacement page is placed on each slide rail, and is located between the sliding seat and each slide rail, one of the top of each oil guide block Having a flow guiding channel, the flow guiding channel and one of the sliding channels of the sliding seat are aligned. The first sealing element respectively connects the sliding seat and the oil guiding blocks, and the first sealing element closely connects the guiding channel and the branching channel . [0009] In an embodiment of the present invention, the sliding table further has two sliding components, and each sliding component is disposed in cooperation with each sliding rail. The sliding sliding seat is respectively disposed on the sliding rail by the sliding component, and can be moved on the sliding rail. [0010] In an embodiment of the present invention, the slide table further has a transmission device disposed on the base and connected to the base and the sliding seat respectively, and the sliding seat is moved on the sliding rail by the transmission device. [0011] In one embodiment of the present invention, the lubrication structure further includes at least one grease nipple and a first oil sling. The grease fitting is disposed on one side of the sliding seat, and the grease fitting has a first connecting passage. The first oil injection passage is disposed in the sliding seat, and the horizontal direction of the first oil injection passage substantially communicates with the first connecting passage of the oil filling nozzle. The vertical direction of the first oil filling passage substantially connects the bypass passage β. [0012] In one embodiment of the present creation Each of the oil guiding blocks further has a second connecting passage which communicates with the guiding passage and conducts at least the side surface of the oil guiding block. [0013] In one embodiment of the present invention, each of the sliding assemblies has two sliders, and each of the oil guiding blocks is disposed between the sliders. [0014] In an embodiment of the present invention, at least one of the sliders has an oil guiding tube, and the oil guiding tube is disposed relative to each oil guiding block, and the oil guiding tube is respectively connected by a second sealing element and each oil guiding oil The blocks are tightly connected and the second connecting passage is connected to one of the third connecting passages of the oil guiding pipe. Form number Α0101 Page 5 of 25

I M398055 OCTOBER 04, DECEMBER 2004 [0015] In one embodiment of the present invention, the lubrication structure further includes a second oil fill channel, a connecting block and a third sealing element. The second oil filling passage is disposed in the sliding seat and communicates with the first oil filling passage. The connecting block is disposed on the nut and respectively connects the sliding seat and the nut. The connecting block has a fourth connecting passage, and the fourth connecting passage is disposed opposite to the second oil filling passage. The third sealing element is disposed between the connecting block and the sliding seat, and respectively connects the connecting block and the sliding seat, and the second oil filling channel is in tight communication with the fourth connecting passage by the third sealing element. [0016] In an embodiment of the present invention, the lubricating structure further includes an oil guiding screw screwed to the connecting block and having a fifth connecting passage, and the fifth connecting passage is connected to the fourth connecting passage. [0017] According to the above description, the oil guiding block of the lubricating structure applied according to the creation and the sliding table is respectively located between the sliding seat and each sliding rail, and one of the guiding channels and the sliding seat of each oil guiding block The runner is aligned. In addition, the first sealing member respectively connects the sliding seat and the oil guiding blocks, and the first guiding element respectively connects the guiding channel and the branching passage in close communication. Thereby, the first sealing element can seal the communication passage between the sliding seat and the oil guiding block, so that the lubricating oil flowing into the distributing passage of the sliding seat can directly flow into the diversion of the oil guiding block due to the sealing action of the first sealing element. The track then flows into each of the sliding assemblies and the corresponding rails. Compared with the conventional knowledge, this creation will not have the phenomenon of lubricant leakage. In addition, in an embodiment of the present invention, the second oil injection passage communicating with the first oil injection passage in the sliding seat can be in close communication with the fourth connecting passage of the connecting block through the third sealing member, and further communicates the oil guiding oil. The fifth connection of the screw. Therefore, when the lubricating oil flows into the second oil filling passage and then flows into the fourth connecting passage to lubricate the screw and the nut of the transmission device, since the third sealing member can make the second oil filling passage and the fourth connecting passage can be in close communication, There will be no form number Λ0101 Page 6 / Total 25 pages [0018] On October 4, 099, Junzheng cake page lubrication (four) leakage phenomenon. Therefore, the creation is performed by the grease fitting provided on the outer side of the sliding seat (4), and the oil leakage phenomenon of the precision positioning slide can be prevented. [Embodiment] Hereinafter, a lubricating structure of a slide table according to a preferred embodiment of the present invention will be described with reference to the related drawings, wherein the same elements will be described with the same reference numerals. [0020] First Embodiment Referring to FIG. 1 and FIG. 2, which are respectively an exploded schematic view and a combined schematic view of a sliding table raft having a lubricating structure according to a first embodiment of the present invention. The lubricated structure of this creation is used in conjunction with a slide table 1. The slide table 1 can be, for example, a screw type positioning slide or a belt type positioning slide. In this embodiment, a screw type positioning slide is taken as an example to illustrate β. [0023] The slide table 1 has a base, two slide rails 12, two slide assemblies 13, and a slide base 14. The base 11 is an elongated block whose inner axial direction extends to form a long groove 111. The base 11 has two sliding rail platforms, and the sliding rail platforms 112 are respectively located on the left and right sides of the long slot 111 of the base 11. The slide rails 12 are respectively disposed on the two slide rail platforms 112 of the base π, and the two slide assemblies 13 are disposed in cooperation with the slides 12. Here, each of the sliding assemblies 13 has two sliders 131 and 132, respectively, and is respectively disposed on the two sliding rails 12, and the shapes of the sliders 131 and 132 are matched with the sliding rails 12. In the present embodiment, the sliders 131, 132 can be engaged with the slide rail 12, for example, and can slide on the slide rail 12. In addition, each of the oil guiding blocks 21 is respectively disposed on the slider 131' 132. 箪 No. 101 0101 Page 7 / Total 25 pages Μ 055 Between 099 October 〇 4 [0024] [0025] [0026] [0027 The sliding seat 14 is disposed on the slide rail 12 and movable on the slide rail 12. In this case, the sliding seat 14 is respectively disposed on the sliding rail 12 by the two sliding assemblies 13 and can be moved on the sliding rail 12. In other words, the bottom portion 141 of the sliding seat 14 of the present embodiment is respectively provided by a sliding assembly 13 The sliders 131 and 132 are connected to the slide rail 12 and further connected to the base U. The slide base 14 is disposed on the slide rail 12 by the sliders 131 and 132 of the slide assembly 13 and is movable on the slide rail j2. The slide table 1 may further have a transmission device which is disposed on the base cymbal and is respectively coupled to the base 11 and the slide base 14. The slide base 14 is moved by the drive assembly/bone rail 12. In the present embodiment, the transmission device has an electric motor 151, a screw 152 and a nut 153. The motor 151 is coupled to the screw 152 and drives the screw 152 to rotate. The screw 152 is substantially parallel to the slide rail 12 and threaded through the nut 153, and the screw 152 and the nut 153 are engaged with each other. The nut 152 is coupled to the bottom 141 of the slide base 14 and to the bottom 141 of the slide base 14. In other words, when the motor 151 is rotated, the screw 152 can be rotated, and the nut 1 5 3 ' that engages with the screw 152 can be driven to move the sliding seat 14 on the slide rail 12. Please refer to FIG. 1 and FIG. 3 simultaneously, wherein FIG. 3 is a cross-sectional view of the line A-A of FIG. The lubricating structure comprises two oil guiding blocks 21 and two first sealing elements 22. The oil guide blocks 21 are correspondingly disposed on the slide rails 12 and are respectively located between the slide bases 4 and the respective slide rails 12. In the present embodiment, the oil guiding block 21 is disposed between the sliders 13j and 132 and connects the slide rail 12 and the slide base 14, respectively. Wherein, the oil guiding block form number A0101, page 8 / total 25 pages, after October 04, 099, one of the top portions 221 of the replacement page 21 has a guiding channel 222, and the guiding channel 222 and one of the sliding blocks 14 are divided into the flow channel 142. Registration setting. In other words, the flow guiding passage 222 of the oil guiding block 21 is disposed opposite to the branching passage 142 of the sliding seat 14, and the flow guiding passage 222 is in communication with the branching passage 142. [0028] The first sealing member 22 connects the sliding seat 14 and the oil guiding block 21, respectively. The flow path 222 of the oil guiding block 21 is in close communication with the branch passage 142 of the sliding seat 14 by the first sealing member 22. In other words, since the first sealing member 22 can seal the communication passage between the sliding seat 14 and the oil guiding block 21, the lubricating oil flowing into the branching passage 142 of the sliding seat 14 can be directly sealed by the sealing function of the first sealing member 22. The flow path 222 is introduced into the oil guiding block 21, so that there is no phenomenon of lubricating oil leakage. [0029] Referring again to FIG. 3, the lubricating structure may further include at least one grease fitting 23 and a first oil filler channel 24. The grease nipple 23 is disposed on one side 143 of the slide base 14. Here, the case where the left side of the slide base 14 has a grease fitting 23 is taken as an example. Of course, a grease nipple 23 may be provided on each of the left and right sides of the slide base 14 at the same time. The grease nipple 23 has a first connecting passage 231. [0030] The first oil injection passage 24 is disposed in the sliding seat 14, and the horizontal direction of the first oil injection passage 24 substantially communicates with the first connecting passage 231 of the oil filling nozzle 23, and the vertical direction of the first oil filling passage 24 substantially connects the bypass passage 142. . Therefore, the lubricating oil injected from the grease nipple 23 can flow into the flow guiding passage 222 of the oil guiding passage 21 via the first connecting passage 231, the first oil filling passage 24, and the branch passage 142. [0031] In addition, please refer to FIG. 4, which is a cross-sectional view of the line B-B of FIG. [0032] Each of the oil guiding blocks 21 may further have a second connecting passage 223, and the second connecting passage 223 communicates with the guiding passage 222 and may open at least one side surface of the oil guiding block 21. Form No. A0101 Page 9 / Total 25 pages M398055 [0034] [0037] [0037] On October 4, 099, according to the replacement page, the inside of the oil guiding block 21 has a second The connecting passage 223, the second connecting passage 2 2 3 may communicate with the guiding passage 2 22, and may also communicate with at least a side surface of the oil guiding block 21. In this embodiment, the second connecting passage 223 is connected to the flow guiding passage 222, and the left and right side surfaces of the oil guiding block 21 are turned on as an example. In addition, at least one of the sliders 131, 132 has an oil guiding tube 133, and the oil guiding member 133 is disposed with respect to the oil guiding block 21. Further, the oil guiding tube 133 is closely connected to the oil guiding block 21 by a second sealing member 25, and the second connecting passage 223 is communicated with a third connecting passage 134 in the oil guiding tube 133. Therefore, the first sealing element 25 is disposed between the oil guiding block 21 and the oil guiding tube 133 of the sliders 1 31 and 132, so that the second connecting passage 223 and the third connecting passage 134 are in close communication, so that the inflow can be made. The lubricating oil of the passage 222 flows into the sliders i3i, 132' via the second connecting passage 223 and the third connecting passage 134 of the oil guiding tube 133, thereby lubricating the sliders 131, 132 and the sliding rails to prevent leakage. In particular, the user can only lubricate the one-sided slider 131 or the slider 132, depending on the needs thereof. In this design, the user only needs to close the side of the oil guiding block 21 (four) perforation 'to make the second connecting passage m only to the other side surface of the oil guiding block 21. Of course, the corresponding setting of the oil guiding tube 133 is not required at this time. Further, please refer to Fig. 1 and Fig. 5, wherein®5 is a cross-sectional view taken along line C-C of Fig. 3 . The lake slide structure may further include a second oil fill pipe 26 connecting block 27, a third sealing member 28, and an oil guiding screw 29. The second oil filling passage 26 is disposed in the sliding seat π and communicates with the first oiling passage. Form No. A0101 Page 10 of 25 Correction replacement page 24 of October 4, 099. The connecting block 27 is disposed on the nut 153 of the transmission and is coupled to the lunar seat 14 and the nut 153, respectively. The connecting block 27 has a fourth connecting passage 271, and the fourth connecting passage 2 71 is disposed in alignment with the second oil filling passage 26. The third sealing member 28 is disposed between the connecting block 27 and the sliding seat 14, and connects the connecting block 27 and the sliding seat 14 respectively. The second oil fill pipe 26 is in close communication with the fourth connecting passage 271 by the third sealing member 28. In other words, when the lubricating oil flows into the first oil filling passage 24, the second oil filling passage 26, and further flows into the fourth connecting passage 271, since the third sealing member 28 is disposed between the connecting block 27 and the sliding seat 14, and the third sealing The element 28 allows the second oil fillet 26 to be in intimate communication with the fourth connecting passage 271, so that there is no leakage of lubricating oil. [〇〇39] In addition, the oil guiding screw 29 is screwed to the connecting block 27. The oil guiding screw 29 has a fifth connecting passage 291, and the fifth connecting passage 291 is connected to the fourth connecting passage 271. In this embodiment, the interior of the oil guiding screw 29 can form a fifth connecting passage 291. Here, the fifth connecting passage 291 is a shaped flow passage for lubricating oil to pass through the fourth connecting passage 271 and the oil guiding screw 29 The internal z-shaped flow path can flow into the screw 152' to further lubricate the screw 152 and the nut 153. [0040] Second Embodiment [0041] Please refer to FIG. 6 to FIG. 9 , wherein FIG. 6 and FIG. 7 are respectively an exploded schematic view and a combined schematic view of a sliding table 3 having a lubricating structure according to a second embodiment of the present invention. 8 is a cross-sectional view of the straight line D_D of FIG. 7, and FIG. 9 is a partial cross-sectional view of FIG. The slide table 3 of the second embodiment is mainly different from the slide table 1 of the first embodiment in that the slide table 3 is a belt type positioning slide table. In other words, the slide table 3 does not use the screw and the nut to drive the slide base 34 to move on the slide rail 32, but replaces the page strip 352 with the skin table army number A0101 page 11/25 pages, October 04, 099. The slide seat 34' is driven to move on the slide rail 3 2 . In addition, the belt 352 does not require lubrication of the lubricating oil, and therefore, the lubricating structure of the sliding table 3 does not require the provision of the second oil filling passage, the connecting block, the third sealing member, and the oil guiding screw. [0043] In addition, the slide table 3 of the second embodiment and other elements of the lubricating structure have the same configuration and connection relationship with the same elements of the slide table 1 of the first embodiment and its lubricating structure, and therefore, reference may be made to the above-mentioned As described above, [0044] In summary, the oil guiding block of the lubrication structure applied by the original design and the sliding table is respectively located between the sliding seat and each sliding rail, and each oil guiding block A flow guiding channel is arranged in alignment with one of the sliding passages of the sliding seat. In addition, the first sealing member respectively connects the sliding seat and the oil guiding blocks, and the first guiding element respectively connects the guiding channel and the branching passage in close communication. Thereby, the first sealing element can seal the communication passage between the sliding seat and the oil guiding block, so that the lubricating oil flowing into the distributing passage of the sliding seat can directly flow into the diversion of the oil guiding block due to the sealing action of the first sealing element. The track then flows into each of the sliding assemblies and the corresponding rails. Compared with the conventional knowledge, there is no leakage of lubricating oil in this creation. In addition, in an embodiment of the present invention, the second oil injection passage communicating with the first oil injection passage in the sliding seat can be in close communication with the fourth connecting passage of the connecting block through the third sealing member, and further communicates the oil guiding oil. The fifth connection of the screw. Therefore, when the lubricating oil flows into the second oil filling passage and then flows into the fourth connecting passage to lubricate the screw and the nut of the transmission device, since the third sealing member can make the second oil filling passage and the fourth connecting passage can be in close communication, There will be no leakage of lubricating oil. Therefore, the lubricated structure of the present invention has the advantages of simplicity and convenience of oil filling, and the leakage table which can prevent the precision positioning of the slide table. A0101 Page 12 of 25 Μ 398Ό55 October 04, 2010 Press the replacement page [ [0048] [0049] [0055] [0058] [0058] [0058] Form number A0101 oil phenomenon. The above is intended to be illustrative only and not limiting. Any equivalent modifications or changes made to the spirit and scope of this creation shall be included in the scope of the appended patent application. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 and FIG. 2 are respectively an exploded schematic view and a combined schematic view of a sliding table having a lubricating structure according to a first embodiment of the present invention; FIG. 3 is a cross-sectional view of a straight line AA of FIG. 2; FIG. 4 and FIG. FIG. 6 and FIG. 7 are respectively an exploded schematic view and a combined schematic view of a sliding table having a lubricating structure according to a second embodiment of the present invention; FIG. 8 is a line DD of FIG. A cross-sectional view; and FIG. 9 is a partial cross-sectional view of FIG. [Description of main component symbols] 1, 3: slide table 11 ' 31 : base 111, 311: long groove 112, 312: slide rail platform 12, 32: slide rails 13, 33: slide assemblies 131, 132, 331, 332: Slider Page 3/25 pages M398055 October 04, 2010 Correction Replacement Page [0059] [0061] [0063] [0067] [0068] [0068] [0076] [0076] 133: oil guiding pipe 134, 231 '223 ' 271 ' 291 ' 423 ' 431 14 , 34 : sliding seat 141 , 342 : bottom 142, 342: shunt 143, 343: side 151, 351: motor 152: screw 153: nut 21, 41: oil guiding block 22, 25, 28, 42, 45: sealing member 221, 421: top 222 , 422 : flow guide 2 3, 4 3 : grease nipple 24, 26, 44: oil filling channel 27: connecting block 29: oil guiding screw 352: belt 14th page / total 25 pages = connecting channel form number A0101

Claims (1)

M398055 October 4, 099, the replacement page is six. The scope of application for patents: 1. The sliding structure of the sliding platform is combined with the application of a sliding table. The sliding table has a base, two sliding rails and a sliding seat. The base has two slide rails respectively located on two sides of the base, and the slide rails are respectively disposed on the slide rails of the slide rails, and the slide seats are disposed on the slide rails and can be moved on the slide rails The lubricating structure comprises: two oil guiding blocks, correspondingly disposed on the sliding rails, and respectively located between the sliding seat and each of the sliding rails, and one of the oil guiding blocks has a guiding channel at the top of the oil guiding block, the guiding flow And a first sealing element is coupled to the sliding seat and each of the oil guiding blocks, and the first sealing element closes the guiding channel to the branching channel The lubricating structure of the sliding table according to claim 1, wherein the sliding table further has two sliding components, and each sliding component is disposed in cooperation with each of the sliding rails. The sliding components are disposed on the rails, and Such rail movement. 3. The lubricating structure of the sliding table according to claim 1, wherein the sliding table further has a transmission device disposed on the base and connected to the base and the sliding seat respectively, wherein the sliding seat is driven by the transmission The device is moved on the sliding handle. The lubricating structure of the sliding table according to claim 3, further comprising: at least one grease fitting disposed on a side of the sliding seat, the grease fitting having a first And a first oil filling passage disposed in the sliding seat, the horizontal direction of the first oil filling passage substantially communicates with the first connecting passage of the oil filling nozzle, and the vertical direction of the first oil filling passage substantially connects the bypass passage . • Lubrication structure of the sliding table as described in item 2 of the patent application, wherein each of the 099211915 form number A0101 15th buy/total 25 pages 0993356176-0 099 October 4th revised replacement page oil guide block has a more a two-way passage communicating with the flow guide and conducting at least one side surface of the oil guiding block. The lubricating structure of the sliding table according to claim 5, wherein each of the sliding assemblies has two sliders, and each of the oil guiding blocks is disposed between the sliders. In the lubricating structure of the sliding table described in claim 6, at least one of the sliders has an oil guiding tube, and the oil guiding tube is disposed with respect to each of the oil guiding tubes, and the oil guiding tube is respectively provided by a first The two sealing elements are tightly connected to the oil guiding blocks, and the second connecting passage is connected to one of the third connecting passages of the oil guiding pipe. The lubricating structure of the sliding table according to claim 4, further comprising: a second oil filling passage disposed in the sliding seat and connected to the first oil filling passage; a connecting block disposed on the transmission a nut of the g device, and respectively connecting the sliding seat and the nut, the connecting block has a fourth connecting passage, the fourth connecting passage is disposed opposite to the second oil filling passage; and a third sealing member, It is disposed between the connecting block and the sliding seat, and respectively connects the connecting block and the 'moon moving seat'. The sinusoidal-oil filling passage is in close communication with the fourth communication passage by the third sealing member. The lubricating structure of the sliding table according to claim 8, further comprising: an oil guiding screw screwed to the connecting block and having a fifth connecting passage, wherein the fifth connecting passage is connected to the fourth connecting passage . For example, the lubricating structure of the sliding table described in the first paragraph of the patent application is such that the sliding table is a screw-type positioning sliding table or a belt-discriminating sliding table. , Form No. A0101 Page 16 of 25 0993356176-0