JP2017206951A - Slide device convenient for adjusting tension - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a slide device convenient for adjusting tension.SOLUTION: A slide device is convenient for adjusting tension, and includes a push/pull component 9 made to slide on a groove of a slide rail 7 by a slide rail component 7 and pushing/pulling force. The slide rail component 7 comprises a main component 79 and a pulley box 71 installed and fixed on both sides of the main component 79, the pulley box having a setting plate 61 that is longitudinally symmetrical fitted thereon. An adjustment device 62 curved outward is installed on each setting plate 61. A belt 8 is wound around a pulley 711 in the pulley box 71, to seal the groove. A rotation axis of the pulley 711 is installed on the setting plate 61 in a rotatable way. A top part of the guide sealing belt 8 extends in an upper slit 702 of the groove in a lengthwise direction, to seal the groove.SELECTED DRAWING: Figure 1

Description

  The present invention is a slide device that is convenient to adjust the tension related to the slide device field.

  Speaking of the field related to the technology so far, it is common to need a slide device having a slide rail such as installing a slide door in a building. In order to maintain a stable movement of these sliding measures, it is necessary to lead the movement by the installation of a strong groove. However, contaminants that enter from the outside into the grooves that are used for a long period of time accumulate in the bottom portion, affect the movement of the sliding measure, shorten the service life, and lose strength and smoothness. At the same time, the difficulty of maintenance and cleaning work also increases. Moreover, the protective measures for some of the grooves are incomplete, and the convenience of work is lacking. There was also interference with push-pull parts or grooves during use.

JP-A-8-282291

  An object of the present invention is to provide a slide device that is convenient to adjust the tension, and to overcome the deficiencies of existing technologies.

  It is a slide device that is convenient to adjust the tension, and has a slide rail part and a push / pull part that can slide in the groove of the slide rail by the force of the push / pull. It consists of a pulley box that is fixedly installed on each side, and a setting box that has a symmetrical setting plate attached to each. The rotating shaft of the pulley is installed on the setting plate in a rotatable manner, and the upper part of the guide sealing belt extends in the vertical direction at the upper slit of the groove, thereby sealing the groove, and the lower part of the groove sealing belt is below the groove. A hole at the bottom of the push-pull component that extends in the vertical direction at the side slit Through the slide rail parts, the push-pull parts bottom part is narrowed in the vertical direction, the narrow part is formed, and the protruding locking device that matches the groove lower slit at the cutting plane orthogonal to the vertical direction and the upper slit of the groove A matching extension is formed, in which both sides of the upper part of the groove sealing belt are fixedly connected to the corresponding one-way drive casing part, and the slit part in each one-way drive casing part so that it can slide, The joint surface of the acting force is formed between the side of the unidirectional drive casing part that matches the head part enormous part of the related plunger part fixedly installed next to the narrow part, and the head part enormous part is close to the narrow part. And when a slit is formed between the side wall of the one-way drive casing part far from the narrow part, and when the push-pull component receives the force of push-pull, Pulled groove sealing belt through the action force bonding surface of the one-way drive housing part in question at this time, the plunger portion of another one-way drive housing portion is in a free relative sliding state. Locking measures are installed on the inside and rear of the top plate of each pulley box, outside cushioning measures are installed on the outside of each one-way drive casing, inside cushioning measures are installed on the inside lower part, Contact with the locking means provides a buffering effect, and the inside buffering means contacts both sides of the narrow portion to provide a buffering effect.

  The above-mentioned free relative sliding state means that the plunger can freely slide to the slit portion relative to the casing portion that receives a force in one direction.

  Rotating protective belt that can adjust the length of the protection belt on both sides of the push-pull component in real time by sliding the push-pull component in real time ensures the length of the rail on both sides that always changes depending on the slide of the push-pull component in real time It is possible to achieve effective protection to the groove on the premise that it does not affect the push-pull parts, and it is also possible to prevent foreign contaminants from accumulating in the groove. When the push-pull parts are moved by the push-pull force through the installation of the unidirectional force receiving casings on both sides of the push-pull parts, only the pull force is applied to the protective belt and the push force is given to the relative side. Therefore, an effective tensile force is formed on the protective belt, and there is no push force that causes the belt to protrude, so that the longitudinal accuracy of the protective belt is maintained, the groove sealing effect is ensured, and the push pull Interference with the movement of parts can also be avoided. Push-pull component bottom part installation space secures a space for the unidirectional force-receiving casing, and the movement of the entire push-pull component is not interfered with or influenced by the boxes on both sides, and contact with external objects during use Is also avoided. By installing a hole in the narrow part, the protective belt passed through the push-pull parts, and an operating circuit was created that could move in a coordinated manner. By installing the upper part of the protection belt in the slit of the slide rail, sealing is realized so that contaminants can be blocked by matching without any gap with the slit, and at the same time, this slit matches the projecting part in the other orthogonal direction of the narrow part Use to lead the movement of push-pull parts. The lower protrusion uses a match with the slit at the bottom of the groove to ensure that the push-pull parts do not roll over during operation.

The whole structure figure of the slide measure of the present invention. FIG. 2 is an overhead view of the measure of FIG. FIG. 2 is a partial cross-sectional view of an intermediate position of a push-pull component as a measure of FIG. FIG. 2 is a partially enlarged view of the unidirectional drive casing portion of FIG.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  The slide device according to the embodiment of the present invention, which is convenient to adjust the tension, has a slide rail part 7 and a push / pull part 9 that can slide in the groove of the slide rail 7 by the force of the push / pull. 7 consists of a main body 79 and a pulley box 71 fixedly installed on both sides of the main body 79, each having a setting plate 61 symmetrical to the front and rear, and an adjusting means 62 that bends outward for each setting plate 61 is installed. The pulley 711 in the pulley box 71 is wound around the belt 8 that seals the groove, the rotation shaft of the pulley 711 is installed on the setting plate 61 in a rotatable manner, and the upper part of the guide sealing belt 8 is the upper side of the groove The slit 702 extends in the vertical direction, thus sealing the groove, and the lower portion of the groove sealing belt 8 extends in the vertical direction at the lower slit 701 of the groove. In addition, through the hole 90 in the bottom part of the push-pull part 9, the bottom part of the push-pull part 9 is narrowed in the vertical direction of the slide rail part 7, and a narrow part is formed. A protruding locking device 98 that matches the groove lower slit 701 and an extension 99 that matches the groove upper slit 702 are formed, in which both sides of the upper portion of the groove sealing belt 8 are respectively corresponding one-way drive casing portions 81. The slits 810 in each one-way drive casing 81 so that they can be fixedly connected to each other and slidable match the head part enormous part 92 of the related plunger part 91 that is fixedly installed next to the narrow part. A joint surface of the acting force is formed between the enormous portion 92 and the side wall of the one-way drive casing portion 81 close to the narrow portion, and a slit is formed between the side wall of the one-way drive casing portion 81 far from the narrow portion. Thus, when the push-pull component 9 receives the push-pull force, the groove sealing belt 8 is pulled through the acting force joining surface of the corresponding one-way drive casing part 81, and at this time, another one-way drive The plunger portion 91 of the casing portion 81 is in a free relative sliding state. Each pulley box 71 is provided with a locking means 21 at the inner rear part of the top plate, outside cushioning means 24 outside each one-way drive casing part 81, and inside cushioning means 25 is installed at the inside lower part, The outside cushioning measure 24 comes into contact with the locking measure 21 and exerts a cushioning effect, and the inside cushioning measure 25 comes into contact with both sides of the narrow portion and exerts a cushioning effect.

  Based on the embodiment, as a possible option, it is possible to connect with a stretch protective cover 93 between each side of the narrow part and the corresponding one-way drive casing part 81.

  Based on the embodiment, as an example, the locking effect on the groove sealing belt (8) can be realized by installing the locking protrusion 77 on the upper edge portion of the upper slit 702 of the slide rail part 7.

  Rotating protective belt that can adjust the length of the protection belt on both sides of the push-pull component in real time by sliding the push-pull component in real time ensures the length of the rail on both sides that always changes depending on the slide of the push-pull component in real time It is possible to achieve effective protection to the groove on the premise that it does not affect the push-pull parts, and it is also possible to prevent foreign contaminants from accumulating in the groove. When the push-pull parts are moved by the push-pull force through the installation of the unidirectional force receiving casings on both sides of the push-pull parts, only the pull force is applied to the protective belt and the push force is given to the relative side. Therefore, an effective tensile force is formed on the protective belt, and there is no push force that causes the belt to protrude, so that the longitudinal accuracy of the protective belt is maintained, the groove sealing effect is ensured, and the push pull Interference with the movement of parts can also be avoided. Push-pull component bottom part installation space secures a space for the unidirectional force-receiving casing, and the movement of the entire push-pull component is not interfered with or influenced by the boxes on both sides, and contact with external objects during use Is also avoided. By installing a hole in the narrow part, the protective belt passed through the push-pull parts, and an operating circuit was created that could move in a coordinated manner. By installing the upper part of the protection belt in the slit of the slide rail, sealing is realized so that contaminants can be blocked by matching without any gap with the slit, and at the same time, this slit matches the projecting part in the other orthogonal direction of the narrow part Use to lead the movement of push-pull parts. The lower protrusion uses a match with the slit at the bottom of the groove to ensure that the push-pull parts do not roll over during operation.

  Rotating protective belt that can adjust the length of the protection belt on both sides of the push-pull component in real time by sliding the push-pull component in real time ensures the length of the rail on both sides that always changes depending on the slide of the push-pull component in real time It is possible to achieve effective protection to the groove on the premise that it does not affect the push-pull parts, and it is also possible to prevent foreign contaminants from accumulating in the groove. When the push-pull parts are moved by the push-pull force through the installation of the unidirectional force receiving casings on both sides of the push-pull parts, only the pull force is applied to the protective belt and the push force is given to the relative side. Therefore, an effective tensile force is formed on the protective belt, and there is no push force that causes the belt to protrude, so that the longitudinal accuracy of the protective belt is maintained, the groove sealing effect is ensured, and the push pull Interference with the movement of parts can also be avoided. Push-pull component bottom part installation space secures a space for the unidirectional force-receiving casing, and the movement of the entire push-pull component is not interfered with or influenced by the boxes on both sides, and contact with external objects during use Is also avoided. By installing a hole in the narrow part, the protective belt passed through the push-pull parts, and an operating circuit was created that could move in a coordinated manner. By installing the upper part of the protection belt in the slit of the slide rail, sealing is realized so that contaminants can be blocked by matching without any gap with the slit, and at the same time, this slit matches the projecting part in the other orthogonal direction of the narrow part Use to lead the movement of push-pull parts. The lower protrusion uses a match with the slit at the bottom of the groove to ensure that the push-pull parts do not roll over during operation. Realized through the aforementioned plan. The whole measure is stable and can be operated smoothly, and the groove prevents the difficult maintenance due to the entry of external contaminants.

  It has been made clear by those skilled in the art that modifications of the above embodiments can be made on the assumption that the overall spirit and concept of the present invention are not deviated. All are included in the protection scope of the present invention. The protection of the present invention shall be in accordance with the claims attached to the present invention.

7 Slide rail component 8 Belt 9 Push / pull component 21 Locking measure 24 Outside shock absorbing measure 25 Inside shock absorbing measure 61 Setting plate 62 Adjusting measure 71 Pulley box

Claims (3)

  The slide device is convenient to adjust the tension, and has a slide rail part (7) and a push-pull part (9) that can slide in the groove of the slide rail (7) by the push-pull force. (7) consists of a main part (79) and a pulley box (71) fixedly installed on both sides of the main part (79), each fitted with a symmetrical setting plate (61). ) Is installed, the pulley (711) in the pulley box (71) is wound around the belt (8) that seals the groove, and the rotation axis of the pulley (711) is It is installed on the setting plate (61) in a rotatable manner, and the upper part of the guide sealing belt (8) extends in the vertical direction at the upper slit (702) of the groove, thereby sealing the groove and The lower part of the sealing belt (8) extends in the vertical direction at the lower slit (701) of the groove, and passes through the hole (90) in the bottom part of the push-pull part (9). Push-pull component (9) with a narrow bottom and a narrow part, and a protruding locking device (98) that matches the groove lower slit (701) at the cutting plane orthogonal to the vertical direction and the upper side of the groove An extension part (99) that matches the slit (702) is formed, in which both sides of the upper part of the groove sealing belt (8) are fixedly connected to the corresponding one-way drive casing part (81) so that they can slide The slit (810) part in each one-way drive casing part (81) matches the head part enormous part (92) of the related plunger part (91) fixedly installed next to the narrow part, and thus the head part. Huge part (92) is a one-way drive close to a narrow part The joint surface of the acting force is formed between the side wall of the moving casing part (81) and the slit is formed between the side wall of the one-way drive casing part (81) far from the narrow part, so that the push-pull component When (9) receives the force of push-pull, the groove sealing belt (8) is pulled through the acting force joining surface of the corresponding one-way drive casing part (81), and at this time, another one-way drive casing. The plunger part (91) of the part (81) is in a free relative sliding state. Each pulley box (71) is provided with a locking means (21) on the inner rear part of the top plate, outside cushioning means (24) outside the one-way drive casing part (81), and on the inner lower part. Inside cushioning measures (25) are installed, outside cushioning measures (24) come into contact with rocking measures (21) and have a cushioning effect, inside cushioning measures (25) come into contact with both sides of the narrow part and have a cushioning effect A slide device characterized by the above.   The slide device according to claim 1, wherein the adjustment of the tension is convenient, wherein a stretch protective cover (93) is connected between each side of the narrow portion and the corresponding one-way drive casing portion (81). A slide device characterized by that.   3. A sliding device with convenient adjustment of tension according to claim 1 or 2, wherein a groove sealing belt is provided by a locking projection (77) installed at the upper edge of the slide rail part (7) upper slit (702). (8) A sliding device characterized by achieving locking to.