TW200823385A - Oil-supply adjusting device for a linear guideway - Google Patents

Abstract

Oil-supply adjusting device for a linear guideway mainly comprises an oil-scraping piece, an end cap, a cover plate and a mouth seat. The mouth seat is assembled to a mouth and is passed through the end cap, and the mouth is adjusted with a second positioning portion of the mouth seat via a first positioning portion of the end cap. Thereby, the mouth seat can fix and rotatablely adjust on the end cap, enabling the user can adjust the oil-supply angle of the mouth freely.

Description

200823385 · IX. DESCRIPTION OF THE INVENTION: 1. Field of the Invention The present invention relates to a linear slide rail device, and more particularly to a fuel rail adjusting device for a linear slide rail. [Prior Art] According to the end cover (P1) of the current linear slide (as shown in Fig. 1), a screw hole (P11) is formed at the middle section of one side, and the screw hole (P11) of the end cover (P1) Directly providing a grease nipple (A) relative to the lock, the spigot is directly formed on the end cap (P1), but the nipple (A) and the screw hole (P1 i) are actually used. There are still the following enumerated problems: A. The screw hole (P11) will cause the mold to have more twisting mechanism when the mold is opened, and the twisting mechanism has no way to fix the starting angle of the screw hole (pn) screw. At the same time, when the nozzle (A) is positioned on the screw hole 3 (1), the angle of supply of the nozzle (4) is also fixed, so that the nozzle (4) cannot adjust the appropriate supply angle according to the user's needs.

The research and development technology of the product and the need to reduce or eliminate the cooling of the cold water channel will cause problems. The creator-based experience of the invention, after several trials of 200823385 and various attempts, finally developed a linear sliding oil supply adjustment. Device. SUMMARY OF THE INVENTION One object of the present invention is to provide an angle adjustment of a nozzle supply through a nozzle holder on the end cap. In order to achieve the above object, the oil supply adjusting device of the linear slide rail of the present invention comprises an end cover and a nozzle base, and the oil nozzle is adjusted through the first positioning portion of the end cover and the second positioning portion of the nozzle base. By the displacement of the nozzle base on the end cover, the positioning or the rotation adjustment is performed to allow the user to freely adjust the supply angle of the nozzle. The second object of the present invention is to pass the end cap through the nozzle base so that the end cap has sufficient space to provide a cooling water passage, thereby obtaining a better cooling effect. In order to achieve the above object, the linear sliding oil supply adjusting device of the present invention comprises an end cap and a nozzle base, and the end cap cooperates with the nozzle base to reduce the twisting mechanism, so that the end cap has sufficient space to set the cooling waterway Cooling and cooling are performed to reduce the deformation of the end cap. The present invention has been described with reference to the embodiments and the detailed description of the present invention. The objects, features and other advantages of the present invention are believed to be Specific understanding. [Embodiment] For the embodiment of the present invention, please refer to FIG. 2 (please refer to FIG. 3 to FIG. 1 2 at the same time): The oil-sliding adjustment device of the linear sliding handle of the present invention comprises a scraping blade (10), An end cover (20), a cover plate (30) and a nozzle base (40), the oil sheet (10), the end cover (20) and the cover plate (30) are sequentially assembled to a slider ( B) (as shown in Figures 2 and 3); the oil scraper (10) (as shown in Figure 3) forms a perforation (11) on the upper side; the end cap (20) (such as 4 shows) a through hole (21) is formed on the upper side, and the through hole (21) of the end cover (20) is corresponding to the perforation (Π) of the oil scraping piece (10), the through hole (21) end Radially forming a first positioning portion (22), the first positioning portion (22) is formed in a toothed ring row on the through hole (21), and the thickness of the first positioning portion (22) is Η, the pass The length of the hole (21)-end end face and the first positioning portion (22)-side is L; the cover plate (30) (as shown in FIG. 5) forms a recess (31) on the upper side, the concave a positioning hole (32) is recessed in the bottom surface of the hole (31), and the recess (31) of the cover plate (30) is corresponding to the end cover (20) Through hole (21); 200823385, the nozzle base (4〇) (as shown in Figures 6A, 6B and 6C) is formed in a cylindrical step, and the nozzle base (40) is formed with a larger diameter snail at the inner end. The other end of the hole (41) is formed with a smaller diameter hole (42) for screwing a grease fitting (A), and the screw hole (41) is engaged with the hole (42). Forming a stop surface (43), the outer wall of the nozzle base (4〇) forms a blocking surface (44) with respect to the stop surface (43), the nozzle base (4〇) - the end surface and the stop surface ( 43) The length of the gap is L1, the nozzle base (4〇) is radially formed with a second positioning portion (45), and the second positioning portion (45) of the nozzle base (40) corresponds to the end cover (20) The shape of the first positioning portion (22), the thickness Η of the second positioning portion (45) is equal to the thickness 该 of the first positioning portion (22), and the second positioning portion (45) of the nozzle base (40) The side corresponding to the blocking surface (44) forms a specific distance L2, which are not connected to each other, and the other side of the second positioning portion (45) of the nozzle holder (40) axially forms a positioning rib (46), Positioning rib (46) of the nozzle base (40) The shape of the positioning hole (32) of the cover plate (30); as shown in Fig. 7, is a schematic view of a single tooth of the second positioning portion of the nozzle base of the present invention, and the second positioning portion (45) of the nozzle holder (4) Corresponding to the first positioning portion (22) of the end cap (20), a single tooth shape; as shown in FIG. 10 is a perspective view of another embodiment of the end cap of the present invention (please also refer to the 1st map and the 1 1 As shown in the figure, the first fixed portion of the 200823385 portion (22) may be formed with a toothed groove ring on one side of the end cover (2) and corresponding to the through hole of the end cover (20) ( 21) and a recess (31) of the cover plate (3〇); the nozzle base (4〇) is formed in a cylindrical shape, and the second positioning portion (45) of the nozzle base (4〇) is formed on the nozzle base (4) 〇) on one end, the second positioning portion (45) of the nozzle holder (4〇) corresponds to the shape of the first positioning portion (22) of the end cover (2〇); as shown in FIG. 2 is the nozzle holder of the present invention In another embodiment, a first positioning portion (22) of the end cover (20) is formed at one end of the through hole (21), and the first positioning portion (22) of the end cover (20) can be formed into another shape. Semi-circular groove ring is listed in the The nozzle base (4) is formed in a cylindrical shape, and the second positioning portion (45) of the nozzle base (40) is formed on one end of the nozzle base (4〇), the nozzle base (40) The second positioning portion (45) corresponds to the shape of the first positioning portion (22) of the end cover (2); the above is an overview of the relationship between the related components of the preferred embodiment of the present invention and its configuration. . In order to clearly explain the operation mode and effect of the present invention, please refer to FIG. 3 to FIG. 9 together: the through hole (21) of the end cover (2〇) and the cover plate (3〇) during assembly. The recess (31) is fixed to the end of the distal slider (B) oppositely, and the nozzle holder (4〇) is placed in the through hole (21) of the end cover (20) through the 200823385, and the scraping is performed. The perforation (11) of the oil piece (10) is assembled opposite to the through hole (21) of the end cover (20), so that the end face of the oil nozzle seat (40) is blocked by the oil scraping piece (10), so that The other end face of the nozzle base (40) forms a specific distance L3 with the bottom surface of the recess (31) of the cover plate (30). The specific distance L3 is less than or equal to a specific distance L2, and the specific distance L2 and L3 are greater than or Equal to the thickness of the first positioning portion (22) of the end cover (20) and the second positioning portion (45) of the nozzle holder (40), the blocking surface _ (44) of the nozzle holder (40) is received by the end cover ( 20) The first positioning portion (22) blocks the limit, and the nozzle (11) is inserted into the through hole (11) of the oil scraping piece (10) and is screwed to the screw hole of the nozzle holder (4〇) 41) Medium; when the nozzle (Α) supply angle is not the user If necessary, the nozzle (Α) can be slightly loosened, so that the nozzle base (40) is recessed by the through hole (21) and the cover plate (30) of the end cover (20) by a specific distance L2 and L3. The displacement in the hole (31) causes the nozzle (Α) to be pushed into the recess (31) of the cover (3〇) with the nozzle base (40), and the second positioning portion of the nozzle base (4〇) (45) forming a disengagement state with the first positioning portion (22) of the end cover (20). At this time, the nozzle and the nozzle holder can be rotated according to the user's need to rotate to a desired angle. 4〇) tightened and blocked by the stop surface (43), so that the second positioning portion (45) of the nozzle base (4〇) and the first positioning portion (22) of the end cover (20) are correspondingly engaged And thereby restricting the degree of freedom of rotation of the nozzle base (40); when the nozzle (Α) is to be detached, the nozzle (Α) is loosened, and the nozzle 10200823385, together with the nozzle base (40), is pushed onto the cover The bottom surface of the recess (31) of the plate (30) is such that the positioning rib (46) of the nozzle base (40) is correspondingly inserted into the positioning hole (32) of the cover (3〇), so that the nozzle base ( 4〇) fixed, the nozzle (A) is detached For, in accordance with the user needs to turn freely rotated to the desired angle. In summary, the present invention is a linear sliding oil supply adjusting device main repair #includes - scraping oil piece, - end cap, - cover plate and - oil nozzle seat; the oil nozzle seat provides a nozzle assembly, the nozzle base Putting on the end cover, the nozzle is transparent, the first positioning portion of the end cover and the second positioning portion of the nozzle holder, so that the nozzle base is displaced on the end cover to perform the positioning or the rotation adjustment, so that The user can freely adjust the supply angle of the nozzle; therefore, the invention has the "industrial availability", and the characteristic technology disclosed in the embodiment of the present invention has not been disclosed in various publications and media, and has not been publicly used. There are additional functions that cannot be neglected, so the "novelty" and "progressiveness" of the present invention = comply with patent regulations, and love to apply for invention patents according to law, praying for review and early granting of patents. Month ~, 11 200823385 [Simple description of the diagram] Figure 1 is a three-dimensional schematic diagram of the end cover of the application. Figure 2 is a schematic view of the combination of the present invention. Figure 3 is a perspective view of the present invention. Figure 4 is a perspective view of the cover of the present invention. Figure 5 is a perspective view of the end cap of the present invention. 6A to 6B are perspective views of the nozzle holder of the present invention. Figure 6C is a side view of the nozzle base of the present invention. Figure 7 is a perspective view showing a single tooth of a second positioning portion of the nozzle base of the present invention. Figure 8 is a front elevational view of the present invention. Figure 9 is a schematic cross-sectional view of the present invention. Figure 10 is a perspective view showing another embodiment of the end cap of the present invention. The 1 1 A to 1 1 B diagram is a perspective view of another embodiment of the nozzle holder of the present invention. Figure 12 is a perspective view showing still another embodiment of the nozzle holder of the present invention. 12 200823385

[Explanation of main component symbols] "Use" (P1) End cap (P11) Screw hole (A) Nozzle "Invention" (10) Oil scraper (11) Perforation (20) End cap (21) Through hole (22) First positioning part (30) Top plate (31) Pocket (32) Positioning hole (40) Nozzle seat (41) Screw hole (42) Hole (43) Stop surface (44) Stop surface (45) Two positioning parts (46) positioning ribs (A) oil nozzle (B) slider 13

Claims (1)

200823385 X. Patent application scope: 1. An oil supply adjusting device for a linear slide rail, which comprises an end cover and a grease nozzle, the end cover is mounted on the slider, and the oil nozzle is disposed at the end. The cover is characterized in that: an end cover is formed on one side to form a through hole, the first positioning portion is radially formed in the through hole; and a nozzle holder is provided at one end for the oil nozzle to be screwed, and the other end is outwardly radial Forming a second positioning portion, the nozzle holder is disposed in the through hole of the end cover, and the second positioning portion of the nozzle holder is positioned at the first positioning portion of the end cover. 2. The oil adjusting device for a linear slide according to claim 1, wherein the first positioning portion of the end cap is formed in a toothed ring array on the through hole. 3. A linear sliding oil supply adjusting device according to the second aspect of the patent, further comprising a perforated oil scraping piece, the piercing of the oil scraping piece corresponding to the through hole of the end cover, and assembling On the side of the end cap. 4. The oil supply adjusting device for a linear slide according to claim 3, further comprising a cover plate for the recess, wherein the bottom surface of the recess is recessed with a positioning hole, and the recess of the end cover The perforations of the oil sheet should be scraped and assembled on the other side of the 14 200823385 end cap. 5. The oil supply adjusting device of the linear slide rail according to the fourth aspect of the invention, wherein the nozzle base is formed in a cylindrical step shape, and the nozzle base is formed on the inner side end with a larger diameter screw hole. The other end forming - the smaller diameter connecting hole 'the screw hole is for the oil nozzle to be screwed and assembled, the screw hole and the connecting hole forming portion - the stopping surface corresponds to the first positioning portion of the end cover, The nozzle base and the outer wall form a blocking surface corresponding to the stop surface and correspond to the nozzle-end surface. The liquid positioning device of the linear sliding device according to the fifth aspect of the invention, wherein the second positioning portion of the nozzle holder corresponds to the shape of the positioning portion of the end cap, the nozzle holder The other side of the positioning portion axially forms a positioning rib, and the positioning rib of the nozzle holder is corresponding to the shape of the positioning hole of the cover plate. • A linear slide for a linear slide as described in claim 6 wherein the second positioning portion of the nozzle holder corresponds to a single-tooth shape of the first positioning portion of the end cap. 8. A linear sliding oil supply adjusting device according to the invention, wherein the first positioning portion of the end cover is further formed into a toothed groove ring array. 200823385 on one side of the end cover 'and corresponding to the through hole of the end cover and the recess of the cover; and the second positioning portion of the oil nozzle seat corresponding to the shape of the first positioning portion of the end cover The oil supply adjusting device of the linear slide of the eight items is in which the nozzle base is formed in a cylindrical shape. The oil supply adjusting device of the linear sliding device according to the first or sixth aspect of the patent application, wherein the first portion of the end cap is further formed into a semicircular groove ring. On the through hole; and. The second positioning portion of the solid seat of the oil is corresponding to the shape of the first portion of the end cap. 0 1 1 · According to the scope of the patent application, a linear sliding oil supply adjusting device is provided. shape. 16