JP3123236U - Roller linear guide circulation device - Google Patents

Abstract

A roller linear guide circulating device is provided.
A slider, a plurality of perforations provided on both sides of the slider, and a fixing structure inserted through each of the perforations, the fixing structure being provided in a plurality of external pressing parts and positioned at both ends of the slider for fixing All structures include first and second semi-fitting tubes. The first semi-fitting tube is provided with an internal guiding part at one end, the inner guiding part and one end of the second semi-fitting pipe are fixed to the external holding part, and the second and first semi-fitting pipes are integrated into the perforation. Is done. The slider is provided with first and second end caps at both ends to fix external pressing parts. A position control structure is provided between the first and second end caps, the position control structure passes through the slider and the external pressing part, and a plurality of link belts on the guide rail penetrate the fixing structure and the external pressing part.
[Selection] Figure 3

Description

  The present invention relates to a circulation device, and more particularly to a circulation device for a roller linear guide.

  The guide rail has high rigidity and high accuracy. Therefore, the use of guide rails is common in the industrial field. The guide rail also has the characteristics of high load, high speed, low noise and high temperature resistance. Furthermore, some guide rails can cope with various poor working environments. For this reason, guide rails are used habitually in various industries, and are used, for example, in polishing machines, punch presses, heavy cutting lathes, marble cutting machines, transportation facilities or automation facilities used in the industrial field. Some of them are applied to precision measurement and inspection of instrument operation. The working efficiency and accuracy of equipment and instruments can be reduced due to incompatible guide rails. However, since the known roller linear guide circulation device has many parts, the combination is complicated, and the structure is partially fragile and fragile, it must be handled with care, and the structure of the parts can be broken carelessly temporarily. It can also have an adverse effect on the smooth operation of the link belt.

  FIG. 1 shows a structure described in Patent Document 1, which includes a component main body 4, a plurality of roller support plates 10, a plurality of support members 11, 12, 13, a plurality of deviation path members 14, and an inner edge guiding member. And both ends lids 5-1 and 5-2. The component body 4 has a plurality of long holes 4e at both ends. The roller support plate 10 is provided with a plurality of rollers 3, and the inner edge guide member is a plurality of divided portions 15a-1R, 15a-1L, 15b-1R, 15b-1L, 15a-2R, 15a-2L, 15b-2R, 15b- Includes 2L. The inner edge guide members are used for installing the departure path member 14, and each of the departure path members 14 is provided so as to penetrate the elongated hole 4e. The support members 11, 12, and 13 are provided so as to enter the component body 4 and the inner edge guide member. The roller support plate 10 is provided so as to enter the departure path member 14, the inner edge guide member and the support members 11, 12, and 13. The side lids 5-1 and 5-2 are respectively provided at both ends of the component main body 4, and are used to fix the divided portions 5b-1R, 15b-1L, 15b-2R, and 15b-2L.

Taiwan Patent No. 477869 Specification

  When assembling the inner edge guide member at both ends of the component body 4, the divided portions 15a-1R, 15a-1L, 15a-2R, 15a-2L and the departure path member 14 are first joined together, and then the departure path member 14 is elongated. Install through hole 4e. Divided portions 15a-1R, 15a-1L, 15a-2R, 15a-2L are provided at both ends of the component body 4, and then the divided portions 15b-1R, 15b-1L, 15b-2R, 15b-2L are respectively divided into 15a -1R, 15a-1L, 15a-2R, 15a-2L outside. As can be seen from this, the assembly process involves a large number of parts, which requires a lot of time for the assembly and reduces the production efficiency.

  Please see Figure 2 together. It is a three-dimensional exploded view showing that an inner edge guide member, which is a well-known technique, has installed a roller support plate. As shown in the figure, when the roller support plate 10 is provided so as to pass through the outer edge guiding portion 31 of the divided portion 15b-1R, the thickness of the side wall of the outer edge guiding portion 31 is equal to the thickness of the divided portion 15b-1R. is not. Therefore, the outer edge guiding portion 31 has a weak structural strength and is easily deformed by a pushing force during assembly or removal. In this way, the problem that the roller support plate 10 cannot smoothly pass through the outer edge guiding portion 31 is likely to occur, and further, the roller support plate 10 may be cut.

  The main object of the present invention is to provide a roller linear guide circulating device. The roller linear guide circulation device of the present invention has a simple structure, is easy to assemble, reduces assembly time, and increases assembly efficiency.

  The next object of the present invention is to provide a roller linear guide circulating device, which increases the strength of the parts, avoids the situation where the parts are easily deformed by an external force, It will make the exercise even smoother.

  According to the present invention, the roller linear guide circulation device includes a slider, a plurality of fixing structures, a plurality of external pressing parts, a first end cap, a second end cap, a position control structure, and a plurality of link belts. There are a plurality of perforations on both sides of the slider, and the fixing structures are provided so as to penetrate the perforations, respectively, and are located at the first end and the second end of the slider, respectively. All fixed structures include a first half-fitting tube and a second half-fitting tube. The first half-fitting tube and the second half-fitting tube are integrated so as to penetrate the perforation. The first semi-fitting tube is provided with an internal guiding part at the first end, and all the fixing structures correspond to the external holding parts. The internal guide part of the fixed structure and the first end of the second semi-fitting pipe are fixed to the external holding part, so that the first half-fitting pipe and the second half-fitting pipe are integrated. The first end cap is provided at the first end of the slider, and the first end cap and the second end cap are provided at both ends of the slider, respectively, to fix the external pressing member. Further, a position control structure is provided so as to enter the slider and the external holding part, and is provided between the first end cap and the second end cap. Each of the plurality of link belts on the guide rail is provided so as to pass through the fixing structure and the external holding member. In the present invention, by providing an internal guide part in the first half fitting tube, the number of parts of the circulation device can be reduced and the assembly efficiency of the circulation device of the roller linear guide can be improved. In the present invention, the thickness of the external holding part is the same as the thickness of the internal storage groove side wall used to store the internal guide part installed in the external holding part. Thus, the strength of the internal installation groove is increased, and the internal storage groove is prevented from being deformed by an external force.

The device of claim 1 is a roller linear guide circulating device,
A slider having a plurality of perforations on each of the first side surface and the second side surface,
A plurality of fixing structures, which are provided so as to penetrate through the perforations, respectively, and are located at the first end and the second end of the slider, respectively, and the fixing structures are all formed in the first half fitting tube and the second half. The first semi-embedded tube is provided with an internal guiding part at the first end, and the second semi-embedded tube and the first semi-embedded tube are combined and integrated so as to penetrate the perforation. A plurality of fixing structures,
A plurality of external holding parts, which are respectively provided on the first end and the second end of the slider, and are respectively provided on the inner guide part of the fixing structure and the first end of the second half-fitting tube. The second half-fitting tube and the first half-fitting tube, which are fixedly mounted, are combined and integrated, and the external pressing member located at the first end of the slider is connected to the second end of the slider. The second end of each of the first and second semi-embedding tubes is fixed to the first end of the slider. However, the external pressing part positioned at the second end of the slider is fixed to the second end of the first and second half-fitting pipes.
A first end cap, the first end cap provided at the first end of the slider and fixed to the external pressing member located at the first end of the slider;
A second end cap, the second end cap provided at the second end of the slider and fixed to the external pressing member located at the second end of the slider;
A position control structure, wherein the position control structure is provided so as to enter the slider and the external pressing part, and is fixed between the first end cap and the second end cap.
A plurality of link belts, each of which is provided so as to pass through the fixing structure and the external holding member,
The roller linear guide circulation device is characterized by including the above.
According to a second aspect of the present invention, there is provided the roller linear guide circulating apparatus according to the first aspect, wherein the first semi-fitting tube and the inner guide part are integrally formed. Yes.
The invention of claim 3 is the roller linear guide circulating device according to claim 1, wherein the fixing structure includes a first fixing structure, a second fixing structure, a third fixing structure, and a fourth fixing structure. The first fixing structure and the second fixing structure are provided on both sides of the first end portion of the slider, respectively, and the third fixing structure and the fourth fixing structure are each of the second end portion of the slider. The first fixing structure and the second fixing structure provided on both sides have the second ends of the first and second half-fitting tubes, respectively, and the second fixing portions of the first and second half-fitting tubes, respectively. The end portion is inserted to fix the third holding structure and the external holding part of the fourth fixing structure, and the third fixing structure and the fourth fixing structure are also the first and second half-fitting pipes. Each of the first and second semi-fitting tubes has a second fixed end, And a roller linear guide of the circulating device, characterized in that it is plugged to fixed the external pressing parts of the second fixing structure.
The invention of claim 4 is the circulating apparatus for the roller linear guide according to claim 1, wherein the position control structure is:
An upper position control structure provided so as to penetrate through the slider, wherein the upper position control structure has both ends inserted into the first end cap and the second end cap, respectively.
A central position control structure provided so as to penetrate the slider, wherein the central position control structure is inserted into the external holding parts at both ends of the slider, respectively. Construction,
A lower position control structure, which is inserted so as to enter the slider and the external pressing parts at both ends of the slider, and both ends of the lower position control structure are respectively the first end cap and the second end. The lower position control structure inserted into the cap,
The roller linear guide circulation device is characterized by including the above.
The invention of claim 5 is the roller linear guide circulating device according to claim 4, wherein the upper position control structure is:
A first upper position control plate installed so as to penetrate the first end of the slider and straddling the external pressing parts positioned at both ends of the first side surface of the slider; Both ends of the upper position control plate are respectively inserted into first upper mounting grooves installed in the first end cap and the second end cap, the first upper position control plate,
A second upper position control plate provided so as to penetrate through the second side surface of the slider and straddling the external pressing parts located at both ends of the second side surface, the second upper position control plate Both ends of the second upper position control plate inserted into the first end cap and the second upper mounting groove installed in the second end cap,
The roller linear guide circulation device is characterized by including the above.
The invention of claim 6 is the roller linear guide circulating device according to claim 5, wherein the first upper position control plate and the second upper position control plate are each in a cross section that blocks movement from the external pressing component. The roller linear guide circulating device is characterized in that the geometric pattern corresponds to the geometric pattern in the cross section of the external pressing part itself.
The invention of claim 7 is the roller linear guide circulating device according to claim 5, wherein the upper position control structure is further a dustproof plate, and both sides are the first upper position control plate and the second upper portion, respectively. A roller provided on one side of a position control plate, the dustproof plate being provided so as to penetrate the slider, and including the dustproof plate straddling the first end cap and the second end cap The linear guide circulation device.
The device of claim 8 is the roller linear guide circulating device according to claim 4, wherein the central position control structure is:
A first central position control plate provided so as to penetrate through the first side surface of the slider, wherein both ends of the first central position control plate are external pressing parts at both ends of the first side surface of the slider; The first central position control plate inserted through the first mounting hole provided in the
A second central portion position control plate provided so as to penetrate through the second side surface of the slider, and both ends of the second central portion position control plate are external pressing parts at both ends of the second side surface of the slider The second central position control plate, which is inserted into the second mounting hole provided in
The roller linear guide circulation device is characterized in that
The invention according to claim 9 is the roller linear guide circulating device according to claim 8, wherein the first center position control plate and the second center position control plate are inserted into the external pressing part, Each of the first and second center position control plates has a geometric pattern in a cross section that blocks movement with the external pressing part, and corresponds to a geometric pattern in the cross section of the external pressing part itself. It is a circulating device for roller linear guides.
The device of claim 10 is the roller linear guide circulating device according to claim 4, wherein the lower position control structure is:
A first lower position control plate, which is inserted through the first side surface of the slider and a lower position control groove provided in the external pressing part located at both ends of the first side surface of the slider, 1 The first lower position control plate, wherein both ends of the lower position control plate are respectively inserted into first lower mounting grooves installed in the first end cap and the second end cap,
A second lower position control plate, which is inserted into the second side surface of the slider and a lower position control groove provided in an external pressing part located at both ends of the second side surface of the slider, The second lower position control plate, wherein both ends of the lower position control plate are respectively inserted into second lower mounting grooves installed in the first end cap and the second end cap;
The roller linear guide circulation device is characterized in that
The invention of claim 11 is the roller linear guide circulating device according to claim 10, wherein the first lower position control plate and the second lower position control plate are provided so as to be fitted into the external pressing part, In addition, the geometric patterns in the cross sections that block the movement of the first and second lower position control plates with the external pressing parts correspond to the geometric patterns in the cross section of the external pressing parts themselves. It is a circulating device for roller linear guides.
The invention of claim 12 is the roller linear guide circulating device according to claim 1, wherein the internal guide part is provided with an internal guide groove on the outside, and the internal guide groove and the first half fitting tube communicate with each other, The internal guide part is provided in an internal storage groove of the external pressing part, the external pressing part is provided with an external guide hole and an external guide groove, and the external guide hole and the external guide groove communicate with each other, and the slider The first end has the first half-fitting tube and the second half-fitting tube, while the external holding part is located at the second end of the slider, and the first and second half-fitting tubes are Inserted into the external holding part and connected to the external guide hole, and the second end of the slider also has the first half-fitting pipe and the second half-fitting pipe, while the external holding part is Located at the first end of the slider, the first and second half insets A pipe is inserted into the external holding part, is connected to the external guide hole, and the first end cap and the second end cap are provided with external storage grooves at locations corresponding to the external guide grooves, respectively. The roller linear guide circulation device is characterized.
The invention according to claim 13 is the circulating apparatus for roller linear guide according to claim 12, wherein the thickness of the external pressing member is equal to the thickness of the side wall of the internal storage groove. It is said.
The invention of claim 14 is the roller linear guide circulating device according to claim 1, wherein all of the link belts include a retainer and a plurality of balls, the retainers include a plurality of spacers, and all the spacers are suitable. The connecting band is provided on both sides, and the connecting band is connected to the tension resistance band on the outside, and there is a storage space between all the spacers, and the ball is provided in the storage space. The roller linear guide circulating device is characterized in that the upper half surface where all the spacers and the balls are in contact has an arcuate shape and the lower half surface is a flat surface.
The invention of claim 15 is the roller linear guide circulating device according to claim 1, wherein each of the first end cap, the second end cap, the external holding part and the slider has at least one screw hole, A plurality of screws are fastened to the screw holes, whereby the first end cap, the second end cap, and the external pressing member are fastened to the slider. .

  The present invention provides a link belt circulating device for a guide rail. The structural parts are easy to assemble and convenient to assemble, and improve the assembly efficiency of the circulation device. Also, the movement of the ring belt becomes smoother and avoids the situation where the link belt is cut.

  3 and 4 are a three-dimensional exploded view and an exploded view of a relatively good embodiment of the present invention. As shown in the figure, the roller linear guide circulating device according to the present invention includes a slider 70, a plurality of fixing structures, a plurality of external holding parts, a first end cap 100, a second end cap 110, a position control structure, and a plurality of Includes link belt 130. The slider 70 is provided so as to straddle the guide rail 60, and the slider 70 is provided with a plurality of perforations 72 on each of the first side surface and the second side surface. The plurality of fixing structures include a first fixing structure 82, a second fixing structure 84, a third fixing structure 86, and a fourth fixing structure 88. The fixing structures 82, 84, 86, 88 are provided so as to penetrate through the perforations 72, and the first fixing structure 82 and the second fixing structure 84 are respectively provided on the first side surface and the second side surface of the first end of the slider 70. The third fixing structure 86 and the fourth fixing structure 88 are positioned on the first side surface and the second side surface of the second end of the slider 70, respectively.

  The plurality of external pressing parts include a first external pressing part 92, a second external pressing part 94, a third external pressing part 96, and a fourth external pressing part 98, and are provided with fixing structures 82, 84, 86, 88, respectively. Used for. The first end cap 100 is provided at the first end of the slider 70, and is used to fix the first external pressing component 92 and the second external pressing component 94. The second end cap 110 is provided at the second end of the slider 70, and is used to fix the third external pressing component 96 and the fourth external pressing component 98. The position control structure includes an upper position control structure 122, a central position control structure 124, and a lower position control structure 126. The position control structure is provided so as to enter the slider 70 and the external pressing parts 92, 94, 96, 98, and is provided between the first end cap 100 and the second end cap 110. The plurality of link belts 130 are provided so as to pass through the insides of the fixing structures 82, 84, 86, 88 and the external pressing parts 92, 94, 96, 98, respectively.

  The fixed structures 82, 84, 86, 88 include first half-fit tubes 824, 844, 864, 884 and second half-fit tubes 826, 846, 866, 886, respectively. The first semi-fitting tubes 824, 844, 864, 884 are provided with internal guide parts 822, 842, 862, 882 at the first end, respectively. It can be said that the first half fitting pipes 824, 844, 864, 884 and the internal induction parts 822, 842, 862, 882 are integrally formed. The inner guide parts 822, 842, 862, and 882 are respectively provided with inner guide grooves 8225, 8425, 8625, and 8825 on the outside, and the first semi-fitting tubes 824, 844, 864, and 884 are respectively provided with the inner guide grooves 8225, 8425, and 8625 , 8825 and connected to each other.

  Next, FIG. 5 shows an explanation of the structure of the external pressing part in the present invention. FIG. 5 is a three-dimensional exploded view of the first external holding member 92 in the present invention. As shown in the figure, the first external holding member 92 is provided with a semi-fitting pipe mounting groove 921 and an internal storage groove 922. The semi-fitting tube mounting groove 921 is used to insert the first end of the second semi-fitting tube 826 in the first fixing structure 82, and the inner storage groove 922 is formed in the first semi-fitting tube 824 in the first fixing structure 82. Used to house the internal induction component 822. In this way, the first half fitting tube 824 and the second half fitting tube 826 of the first fixing structure 82 are integrated, and can be installed so as to penetrate the perforation 72. As can be seen from the figure, since the thickness of the first external holding member 92 in the present invention is the same as the thickness of the side wall of the internal storage groove 922, the strength of the internal storage groove 922 increases, and the internal storage groove 922 is deformed by an external force. Is to prevent it. In this way, the movement of the link belt 130 is prevented from being adversely affected, and the movement of the ring belt 130 becomes smoother.

  In addition, the first external holding member 92 is further provided with semi-fitting pipe mounting grooves 923 and 925, which are respectively connected to the second ends of the first half fitting pipe 864 and the second half fitting pipe 866 in the third fixing structure 86. Used to plug. In this way, the first half-fitting tube 864 and the second half-fitting tube 866 in the third fixing structure 86 are connected to the external guide hole 924 provided in the first outer holding member 92. FIG. 14 shows a state in which the external guide hole 924 and the external guide groove 926 provided outside the first external holding member 92 are connected to each other. Similarly, the second end portions of the first half-fitting tube 824 and the second half-fitting tube 826 in the first fixing structure 82 are also inserted into the half-fitting tube mounting groove provided in the third external holding member 96, and 3 It is connected to the external guide hole 964 provided in the external holding part 96. Further, the external guide hole 964 and the external guide groove 966 provided outside the third external pressing member 96 are connected to each other (as shown in FIG. 19). The first external holding member 92 is further provided with a first mounting hole 927 and a lower position control groove 928. The structure of the external holding parts 94, 96, 98 in the present invention is the same as that of the first external holding part 92.

  As can be understood from the above contents, the second end portions of the first half-fitting tube 824 and the second half-fitting tube 826 in the first fixing structure 82 are inserted into the third external holding member 96. The second end portions of the first half-fitting tube 864 and the second half-fitting tube 866 in the third fixing structure 86 are inserted facing each other by the first external holding member 92. The first half-fitting tube 844 and the second half-fitting tube 846 of the second fixing structure 84 are inserted by the fourth external holding member 98. Then, the second end portions of the first semi-fitting tube 884 and the second semi-fitting tube 886 of the fourth fixing structure 88 are inserted facing each other by the second external holding member 94.

  Please see Figure 6 at the same time. FIG. 6 is an exploded view of an end cap according to a relatively preferred embodiment of the present invention. As shown in the figure, the first end cap 100 is located at a position opposite to the external guide grooves 926 and 946 (same as shown in FIG. 14) of the first external holding part 92 and the second external holding part 94, respectively. External installation grooves 1002 and 1004 are provided so that the external guide grooves 926 and 946 themselves can be accommodated. In addition, the first end cap 100 is provided with a first lower mounting groove 1007 and a second lower mounting groove 1008, respectively, and lower position control grooves 928 and 948 of the first external pressing part 92 and the second external pressing part 94 (FIG. 13). (Same as shown in the figure). The first end cap 100 further includes a first upper mounting groove 1005 and a second upper mounting groove 1006. Similarly, the second end cap 110 is provided with an external installation groove at a location opposite to the external guide grooves 966 and 986 of the third external pressing part 96 and the fourth external pressing part 98, and the third external pressing part 96 It can be seen that lower mounting grooves are provided so as to face the lower position control grooves 968 and 988 of the fourth external holding member 98, respectively. The second end cap 110 is also provided with an upper mounting groove and a lower mounting groove so as to correspond to the positions of the upper mounting groove 1005 and the second upper mounting groove 1006 provided in the first end cap 100, respectively.

  The upper position control structure 122 includes a first upper position control plate 1222, a dustproof plate 1224, and a second upper position control plate 1226. Among them, the dustproof plate 1224 is provided with a plurality of assembly grooves 12245 on both sides. The first upper position control plate 1222 and the second upper position control plate 1226 are provided with a plurality of assembly pulls 12225 and 12265 at positions facing the assembly groove 12245 on one side, and the dustproof plate 1224 is used for the first upper position control. It is incorporated into the plate 1222 and the second upper position control plate 1226. The first upper position control plate 1222 and the second upper position control plate 1226 are provided so as to penetrate through the first side surface and the second side surface of the slider 70, respectively. One ends of the first upper position control plate 1222 and the second upper position control plate 1226 are inserted into a first upper mounting groove 1005 and a second upper mounting groove 1006 installed in the first end cap 100, respectively. The other ends of the first upper position control plate 1222 and the second upper position control plate 1226 are inserted into the first upper mounting groove and the second upper mounting groove installed in the second end cap 110.

  Please see Figure 7 at the same time. FIG. 7 is a three-dimensional exploded view showing a state in which the external pressing part is connected to the upper position control structure in a relatively good embodiment of the present invention. As shown in the figure, when the second upper position control plate 1226 is inserted into the second upper mounting groove 1006 of the first end cap 100, the second upper position control plate 1226 moves relative to the second external holding member 94. Block. In the present invention, when the second upper position control plate 1226 and the second external holding member 94 block the movement of each other, it is necessary to avoid the occurrence of a shift and an adverse effect on the movement of the link belt 130. Therefore, the geometric pattern on the cross section of the second upper position control plate 1226 that blocks the movement of the second external pressing part 94 is made to correspond to the geometric pattern on the cross section of the second external pressing part 94 itself. I did it. This is also why the phenomenon of deviation does not occur when the second upper position control plate 1226 and the second external pressing member 94 block the movement as shown in the drawing. Similarly, even when the second upper position control plate 1226 and the fourth external pressing member 98 block movement from each other, the phenomenon of deviation does not occur.

  As can be seen from the above description, when the first upper position control plate 1222 is inserted between the first end cap 100 and the second end cap 110, the first outer pressing part 92 and the third outer pressing part 96 are simultaneously inserted. Both block movements. However, the geometric pattern on the cross section that the first upper holding part 92 and the third outer holding part 96 block the movement of the first upper position control plate 1222 is the first outer holding part 92 and the third outer pressing part itself. Corresponds to the geometric pattern in the cross section. Therefore, the phenomenon of deviation cannot occur. Further, when the dustproof plate 1224 is provided so as to penetrate the slider 70, it straddles between the first end cap 100 and the second end cap 110.

  The center position control structure 124 includes a first center position control plate 1242 and a second center position control plate 1244. The first center position control plate 1242 and the second center position control plate 1244 are provided so as to penetrate both sides of the slider 70, respectively. The first central position control plate 1242 and the second central position control plate 1244 have first ends installed on the first external pressing component 92 and the second external pressing component 94, respectively, one end of which is at the first end of the slider 70. It is inserted into the hole 927 and the second mounting hole 947 (same as shown in FIG. 13). The first center position control plate 1242 and the second center position control plate 1244 have first ends installed on the third external presser part 96 and the fourth external presser part 98, the other ends of which are at the second end of the slider 70, respectively. Insert into the mounting hole and the second mounting hole.

  Please see Figure 8 at the same time. FIG. 8 is a three-dimensional exploded view showing a state in which the external pressing part is connected to the central position control structure in a relatively good embodiment of the present invention. As shown in the figure, when the second central position control plate 1244 is inserted into the second mounting hole 947 of the second external pressing component 94, the second central position control plate 1244 is mutually connected to the second external pressing component 94. Block movement. In the present invention, when the second center position control plate 1244 and the second external holding member 94 block the movement of each other, it is necessary to prevent the movement of the link belt 130 from being adversely affected. Therefore, the cross-section geometric pattern that the second center position control plate 1244 has to block movement with the second external presser part 94 is made to correspond to the cross-section geometric pattern on the second external presser part 94 itself. . For this reason, as shown in the drawing, when the second center position control plate 1244 and the second external pressing member 94 interfere with each other, the phenomenon of deviation does not occur. Similarly, when the second center position control plate 1244 and the fourth external pressing member 98 block movement from each other, the phenomenon of deviation does not occur. The structure of the first center position control plate 1242 is the same as that of the second center position control plate 1244. Therefore, when the first central position control plate 1242 is inserted into the first external pressing component 92 and the third external pressing component 96, the phenomenon of displacement does not occur.

  The lower position control structure 126 includes a first lower position control component 1262 and a second lower position control component 1264. The first lower position control component 1262 and the second lower position control component 1264 are provided so as to penetrate through both sides of the slider 70, respectively. One end of each of the first lower position control component 1262 and the second lower position control component 1264 is provided so as to penetrate the lower position control grooves 928 and 948 of the first outer pressing component 92 and the second outer pressing component 94, respectively. Are inserted into the first lower mounting groove 1007 and the second lower mounting groove 1008 of the first end cap 100 (same as illustrated in FIG. 6). The other ends of the first lower position control component 1262 and the second lower position control component 1264 are provided so as to penetrate through the lower position control grooves 968 and 988 of the third outer pressing component 96 and the fourth outer pressing component 98, respectively ( 19 is inserted into the first lower mounting groove and the second lower mounting groove of the second end cap 110.

  Please see Figure 9 at the same time. FIG. 9 is a three-dimensional exploded view showing a state in which the external pressing part is connected to the lower position control structure in a relatively preferred embodiment of the present invention. As shown in the figure, when the second lower position control plate 1264 is inserted into the second lower mounting groove 1008 of the first end cap 100, the second lower position control plate 1264 blocks the movement with the second external pressing member 94. In the present invention, when the second lower position control plate 1264 blocks the movement of the second external holding member 94, it is necessary to avoid the occurrence of a shift and an adverse effect on the movement of the link belt 130. Therefore, the geometric pattern on the cross section of the second lower position control plate 1264 that blocks the movement of the second external pressing part 94 is made to correspond to the geometric pattern of the second external pressing part 94 cross section. This is also why the phenomenon of displacement does not occur when the second lower position control plate 1264 and the second external holding member 94 block the movement as shown in the drawing. Similarly, even when the second lower position control plate 1264 and the fourth external pressing member 98 block movement from each other, the phenomenon of deviation does not occur. The structure of the first lower position control plate 1262 is the same as that of the second lower position control plate 1264. Therefore, even when the first lower position control plate 1262 is inserted into the first end cap 100 and the second end cap 110, the phenomenon of displacement does not occur.

  Please refer to FIG. 10, FIG. 11 and FIG. 12 at the same time. These are an exploded view, a three-dimensional exploded view and a partial sectional view of a link belt in a relatively preferred embodiment of the present invention. As shown, the link belts 130 of the present invention all include a retainer 135 and a plurality of balls 139, respectively. The retainer 135 includes a plurality of spacers 1351, a plurality of connecting bands 1353, and a plurality of tension resistance bands 1355. All the spacers 1351 are spaced apart by an appropriate distance, and are provided with connecting bands 1353 on both sides, and all the connecting bands 1353 are connected to the tension resistance band 1355 on the outside. There is a storage space 1357 between all the spacers 1351, which is used to install the balls 139. Further, the upper half surface where all the spacers 1351 and the balls 139 are in contact with each other has an arcuate shape, and the lower half surface has a flat surface. In this way, the frictional force generated by the ball 139 during movement can be reduced, and the influence caused by the pinching of the ball 139 can be reduced. Thereby, the effect of improving the movement efficiency of the guide rail and reducing the noise can be achieved.

  At the same time, please see the drawings from FIG. 13 to FIG. These are assembly drawings showing an assembly procedure of a relatively preferred embodiment of the present invention. As shown in the figure, when assembling the roller linear guide circulating device according to the present invention, first, as shown in FIG. 13, the inner guide part 822 of the first fixing structure 82 and the second half fitting pipe 826 One end portion is provided in each of the internal storage groove 922 and the semi-fitting pipe mounting groove 921 of the first external holding member 92, respectively. Then, the first half-fitting tube 824 and the second half-fitting tube 826 are combined and integrated. Similarly, the inner guide part 842 of the second fixing structure 84 and the first end of the second half-fitting pipe 846 are respectively provided in the inner storage groove 942 and the half-fitting pipe mounting groove 941 of the second outer holding part 94, The first half fitting tube 844 and the second half fitting tube 846 are combined and integrated.

  Subsequently, as shown in FIG. 14, the first fixing structure 82 and the second fixing structure 84 that have been assembled are provided so as to penetrate the perforation 72 at the first end of the slider 70. Then, the external holding parts 92 and 94 and the screw holes 145 provided in the slider 70 are fastened with a plurality of screws 140, and the fixing structures 82 and 84 and the external holding parts 92 and 94 are securely tightened to the first end of the slider 70. It is done. After that, the first end cap 100 and the screw hole 144 installed in the slider 70 are fastened with screws 142, and the first end cap 100 is firmly tightened to the first end of the slider 70 to fix the external holding parts 92 and 94. To do.

  Subsequently, as shown in FIG. 15, the first half fitting pipes 864 and 884 and the second half fitting pipes 866 and 886 of the third fixing structure 86 and the fourth fixing structure 88 are respectively connected to the slider 70 from the second end. It is provided so as to penetrate through the perforation 72. Further, the second end portions of the first half-fitting tube 864 and the second half-fitting tube 866 are respectively inserted into the half-fitting tube mounting grooves 923, 925 of the first external holding member 92 (the same as shown in FIG. 13). ) On the other hand, the second end portions of the first half-fitting tube 884 and the second half-fitting tube 886 are respectively inserted into the half-fitting tube mounting grooves 943 and 945 of the second external holding member 94 (same as shown in FIG. 13). .

  Subsequently, as shown in FIG. 16, the first upper position control plate 1222, the dustproof plate 1224, and the second upper position control plate 1226 are combined and integrated. One ends of the first upper position control plate 1222 and the second upper position control plate 1226 are inserted into the upper mounting grooves 1005 and 1006 of the first end cap 100 (same as shown in FIG. 6). After that, one end of the first center position control plate 1242 and the second center position control plate 1244 are provided so as to enter the first mounting hole 927 and the second mounting hole 947 provided in the external holding parts 92 and 94 ( The same as shown in FIG. 13). Thereafter, one end of each of the first lower position control plate 1262 and the second lower position control plate 1264 is provided so as to penetrate the lower position control grooves 928 and 948 of the external pressing parts 92 and 94 (as shown in FIG. 13). The same), and inserted into the first lower mounting groove 1007 and the second lower mounting groove 1008 of the first end cap 100 (same as shown in FIG. 6).

  Thereafter, as shown in FIG. 17, the link belt 130 is provided so as to pass through the first half-fitting tube 864 and the second half-fitting tube 866, and the outer guide hole 924 and the outer guide groove 926 of the first outer holding member 92 are provided. The first end position control plate 1242 and the first lower position control plate 1262 are pulled out through the external storage groove 1002 of the first end cap 100. The other link belt 130 is provided so as to pass through the first half-fitting tube 884 and the second half-fitting tube 886, and the outer guide hole 944, the outer guide groove 946 and the first end cap 100 of the second outer pressing member 94. The second central position control plate 1244 and the second upper position control plate 1226 come out through the external storage groove 1004.

  Then, as shown in FIG. 18, the link belt 130 is provided so as to pass through the first half-fitting tube 824 and the second half-fitting tube 826, and the inner guide groove 8225 of the inner guide component 822 and the first outer pressing member 92 are provided. The first central position control plate 1242 and the first upper position control plate 1222 come out through the internal storage groove 922. The other link belt 130 is provided so as to pass through the first half-fitting tube 844 and the second half-fitting tube 846, and the inner guide groove 8425 of the inner guide component 842 and the inner storage groove 942 of the second outer pressing member 94. After that, it escapes from between the second center position control plate 1244 and the second lower position control plate 1264.

  Next, as shown in FIG. 19, the two link belts 130 are provided so as to pass through the external guide holes 964 and 984 and the external guide grooves 966 and 986 of the external holding parts 96 and 98, respectively. Further, the lower position control grooves 968 and 988 of the external holding parts 96 and 98 fit into the lower position control plates 1262 and 1264, respectively. At this time, the center position control plates 1242 and 1244 are inserted into the first mounting hole of the third external pressing part 96 and the second mounting hole of the fourth external pressing part 98, respectively. Also, the semi-fitting pipes 824, 826, 844, and 846 are inserted into the half-fitting pipe mounting grooves of the external holding parts 96 and 98, respectively. Subsequently, the external holding parts 96 and 98 and the screw holes 147 installed in the slider 70 are fastened by the screws 146, and the external holding parts 96 and 98 are fastened to the second end of the slider 70.

  Finally, as shown in FIG. 20, the screw hole 149 installed in the second end cap 110 and the slider 70 is fastened by the screw 148, and the second end cap 110 is firmly tightened to the second end of the slider 70. . As a result, the first upper position control plate 1222, the second upper position control plate 1226, the first lower position control plate 1262, and the second lower position control plate 1264 are the first upper mounting groove and the second upper portion of the second end cap 110, respectively. Inserted into the mounting groove, the first lower mounting groove and the second lower mounting groove. The assembly is completed in this way as shown in FIG.

It is an exploded view of the motion guide apparatus which is a well-known technique. It is a three-dimensional exploded view showing a state in which an inner edge guide member, which is a well-known technique, is installed on a link belt. It is a three-dimensional exploded view showing a relatively good embodiment of the present invention. It is an exploded view showing a relatively good embodiment of the present invention. It is a three-dimensional exploded view showing an external pressing part in a relatively good embodiment of the present invention. FIG. 3 is an exploded view showing a first end cap in a relatively preferred embodiment of the present invention. In the comparatively favorable Example of this invention, it is a three-dimensional exploded view which shows the state in which the external holding | suppressing component was connected to the upper position control structure. In the comparatively favorable Example of this invention, it is a three-dimensional exploded view which shows the state by which the external holding | suppressing component was connected to the center part position control structure. In the comparatively favorable Example of this invention, it is a three-dimensional exploded view which shows the state by which the external holding | suppressing component was connected to the lower position control structure. It is an exploded view showing a link belt in a relatively good embodiment of the present invention. It is a three-dimensional exploded view showing a link belt in a relatively good embodiment of the present invention. It is sectional drawing which shows the link belt in the comparatively favorable Example of this invention. It is an assembly figure which shows the assembly procedure in the comparatively favorable Example of this invention. It is an assembly figure which shows the assembly procedure in the comparatively favorable Example of this invention. It is an assembly figure which shows the assembly procedure in the comparatively favorable Example of this invention. It is an assembly figure which shows the assembly procedure in the comparatively favorable Example of this invention. It is an assembly figure which shows the assembly procedure in the comparatively favorable Example of this invention. It is an assembly figure which shows the assembly procedure in the comparatively favorable Example of this invention. It is an assembly figure which shows the assembly procedure in the comparatively favorable Example of this invention. It is an assembly figure which shows the assembly procedure in the comparatively favorable Example of this invention. It is an assembly figure which shows the assembly procedure in the comparatively favorable Example of this invention.

Explanation of symbols

3 Roller
4 Parts body
12 Support members
13 Support members
14 Deviation path members
5-1 Side cover
5-2 Side cover
4e slotted hole
15a-1R split part
15a-1L Split part
15b-1R split part
15b-1 Split part
15a-2R split part
15a-2L Split part
15b-2R split part
15b-2L split part
31 Outer edge guide
60 Guide rail
70 Slider
72 drilling
82 1st fixed structure
822 Internal induction parts
8225 Internal guide groove
824 1st half telescoping tube
826 Second half telescoping tube
84 Second fixing structure
842 Internal induction parts
8425 Internal guide groove
96 Third external holding part
964 External guide hole
966 External guide groove
968 Lower position control groove
98 4th external holding part
986 External guide groove
988 Lower position control groove
100 1st end cap
1002 External storage groove
1004 External storage groove
1005 1st upper mounting groove
1006 Second upper mounting groove
1007 1st lower mounting groove
1008 Second lower mounting groove
110 2nd end cap
122 Upper position control structure
1222 First upper position control board
1224 Dustproof plate
10 Roller support plate
11 Support members
844 1st half telescoping tube
846 2nd half telescoping tube
86 3rd fixed structure
862 Internal induction parts
8625 Internal guide groove
864 1st half telescoping tube
866 Second half telescoping tube
88 4th fixed structure
882 Internal induction parts
8825 Internal guide groove
884 1st half telescoping tube
886 2nd half telescoping tube
92 1st external holding part
921 Semi-fitting tube mounting groove
922 Internal storage groove
923 Semi-fitting tube mounting groove
924 External guide hole
925 semi-fitting tube mounting groove
926 External guide groove
927 1st mounting hole
928 Lower position control groove
94 Second external holding part
942 Internal storage groove
946 External guide groove
947 2nd mounting hole
948 Lower position control groove
1226 Second upper position control board
12225 For assembly
12245 Assembly groove
12265 for assembly
124 Center position control structure
1242 1st central position control board
1244 Second center position control board
126 Lower position control structure
1262 1st lower position control part
1264 Second lower position control component
130 Link belt
135 Retainer
1351 Spacer
1353 Connecting band
1355 Tension resistance band
1357 Storage space
139 balls

Claims (15)

In the roller linear guide circulation device,
A slider having a plurality of perforations on each of the first side surface and the second side surface,
A plurality of fixing structures, which are provided so as to penetrate through the perforations, respectively, and are located at the first end and the second end of the slider, respectively, and the fixing structures are all formed in the first half fitting tube and the second half. The first semi-embedded tube is provided with an internal guiding part at the first end, and the second semi-embedded tube and the first semi-embedded tube are combined and integrated so as to penetrate the perforation. A plurality of fixing structures,
A plurality of external holding parts, which are respectively provided at the first end and the second end of the slider, and are respectively provided at the inner guiding part and the first end of the second semi-fitting tube of the fixing structure. The second half-fitting tube and the first half-fitting tube, which are fixedly mounted, are combined and integrated, and the external pressing member located at the first end of the slider is connected to the second end of the slider. The second end of each of the first and second semi-embedding tubes is fixed to the first end of the slider. However, the external pressing part positioned at the second end of the slider is fixed to the second end of the first and second half-fitting pipes.
A first end cap, the first end cap provided at the first end of the slider and fixed to the external pressing member located at the first end of the slider;
A second end cap, the second end cap provided at the second end of the slider and fixed to the external pressing member located at the second end of the slider;
A position control structure, wherein the position control structure is provided so as to enter the slider and the external pressing part, and is fixed between the first end cap and the second end cap.
A plurality of link belts, each of which is provided so as to pass through the fixing structure and the external holding member,
A roller linear guide circulation device comprising the above.   2. The roller linear guide circulating apparatus according to claim 1, wherein the first semi-fitting tube and the internal guide part are integrally formed.   2. The roller linear guide circulating device according to claim 1, wherein these fixing structures include a first fixing structure, a second fixing structure, a third fixing structure, and a fourth fixing structure, and the first fixing structure and the second fixing structure. Fixing structures are provided on both sides of the first end of the slider, respectively, and the third fixing structure and the fourth fixing structure are provided on both sides of the second end of the slider, respectively. The first fixing structure and the second fixing structure each have the second end of each of the first and second half-fitting tubes, and the second end of each of the first and second half-fitting tubes has the third end The third fixing structure and the fourth fixing structure are also inserted into the fixing structure and the fourth fixing structure in order to fix the external holding parts, and the second end of each of the first and second semi-fitting pipes. And the second end of each of the first and second semi-fitting tubes has a first fixing structure and a second fixing structure, respectively. Roller linear guide of the circulating device, characterized in that it is inserted to the external holding fixed parts. 2. The roller linear guide circulating apparatus according to claim 1, wherein the position control structure is an upper position control structure provided so as to penetrate the slider, and both ends of the upper position control structure are the first and second ends, respectively. 1 Upper position control structure to be inserted into the end cap and the second end cap,
A central position control structure provided so as to penetrate the slider, wherein the central position control structure is inserted into the external holding parts at both ends of the slider, respectively. Construction,
A lower position control structure, which is inserted so as to enter the slider and the external pressing parts at both ends of the slider, and both ends of the lower position control structure are respectively the first end cap and the second end. The lower position control structure inserted into the cap,
A roller linear guide circulation device comprising the above. The roller linear guide circulating device according to claim 4, wherein the upper position control structure is
A first upper position control plate installed so as to penetrate the first end of the slider and straddling the external pressing parts positioned at both ends of the first side surface of the slider; Both ends of the upper position control plate are respectively inserted into first upper mounting grooves installed in the first end cap and the second end cap, the first upper position control plate,
A second upper position control plate provided so as to penetrate through the second side surface of the slider and straddling the external pressing parts located at both ends of the second side surface, the second upper position control plate Both ends of the second upper position control plate inserted into the first end cap and the second upper mounting groove installed in the second end cap,
A roller linear guide circulation device comprising the above.   6. The roller linear guide circulating device according to claim 5, wherein the first upper position control plate and the second upper position control plate have a geometric pattern in a cross-section that blocks movement from the external pressing component. A roller linear guide circulation device, which corresponds to the geometric pattern on the cross section of the holding part itself.   6. The roller linear guide circulating device according to claim 5, wherein the upper position control structure is further a dustproof plate, and both sides are provided on one side of the first upper position control plate and the second upper position control plate, respectively. The roller linear guide circulating apparatus comprising the dustproof plate, the dustproof plate being provided so as to penetrate the slider, and straddling the first end cap and the second end cap. The roller linear guide circulating device according to claim 4, wherein the central position control structure is:
A first central position control plate provided so as to penetrate through the first side surface of the slider, wherein both ends of the first central position control plate are external pressing parts at both ends of the first side surface of the slider; The first central position control plate inserted through the first mounting hole provided in the
A second central portion position control plate provided so as to penetrate through the second side surface of the slider, and both ends of the second central portion position control plate are external pressing parts at both ends of the second side surface of the slider The second central position control plate, which is inserted into the second mounting hole provided in
A roller linear guide circulation device comprising:   9. The roller linear guide circulating apparatus according to claim 8, wherein the first center position control plate and the second center position control plate are inserted into the external pressing member, and the first and second center portions are also disposed. The roller linear guide circulation device according to claim 1, wherein a geometric pattern on a cross-section of each position control plate that blocks movement of the external pressing part corresponds to a geometric pattern on a cross-section of the external pressing part itself. The roller linear guide circulating device according to claim 4, wherein the lower position control structure is:
A first lower position control plate, which is inserted through the first side surface of the slider and a lower position control groove provided in the external pressing part located at both ends of the first side surface of the slider, 1 The first lower position control plate, wherein both ends of the lower position control plate are respectively inserted into first lower mounting grooves installed in the first end cap and the second end cap,
A second lower position control plate, which is inserted into the second side surface of the slider and a lower position control groove provided in an external pressing part located at both ends of the second side surface of the slider, The second lower position control plate, wherein both ends of the lower position control plate are respectively inserted into second lower mounting grooves installed in the first end cap and the second end cap;
A roller linear guide circulation device comprising:   The roller linear guide circulating device according to claim 10, wherein the first lower position control plate and the second lower position control plate are provided so as to be fitted into the external pressing component, and the first, second, The roller linear guide circulation device, wherein a geometric pattern in a section of each of the lower position control plates, which is in a cross section that blocks movement from the external pressing part, corresponds to a geometric pattern in a cross section of the external pressing part itself.   2. The roller linear guide circulating apparatus according to claim 1, wherein the internal guide part is provided with an internal guide groove on the outside, the internal guide groove and the first half fitting tube communicate with each other, and the internal guide part is connected to the external guide part. An external guide hole and an external guide groove are provided in the internal holding groove of the holding part, the external guide hole and the external guide groove communicate with each other, and the first end of the slider is the first 1 half-fitting tube and second half-fitting tube, while the outer holding part is located at the second end of the slider, and the first and second half-fitting pipes are inserted into the outer holding part. And the second end portion of the slider also has the first half-fitting tube and the second half-fitting tube, while the external pressing member is connected to the first end of the slider. The first and second half-fitting pipes are located on the outer pressing part. A linear roller guide, wherein the first end cap and the second end cap are each provided with an external storage groove at a location corresponding to the external guide groove. Circulation device.   13. The roller linear guide circulating apparatus according to claim 12, wherein the thickness of the external pressing part is equal to the thickness of the side wall of the internal storage groove.   2. The roller linear guide circulating apparatus according to claim 1, wherein all of the link belts include a retainer and a plurality of balls, the retainers include a plurality of spacers, and all the spacers are separated at an appropriate interval. In addition, a connection band is provided on both sides, the connection band is connected to the tension resistance band on the outside, and there is a storage space between all the spacers, and the ball is provided in the storage space, all the spacers and the An apparatus for circulating a roller linear guide, characterized in that the upper half surface with which the ball comes into contact is arcuate and the lower half surface is flat. 2. The roller linear guide circulating device according to claim 1, wherein the first end cap, the second end cap, the external holding member, and the slider each have at least one screw hole, and a plurality of screws are the screw holes. The roller linear guide circulating device, wherein the first end cap, the second end cap, and the external pressing member are fastened to the slider.

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