FR3011570A3 - ROLLING MECHANISM WITH AUTOMATIC ADJUSTMENT AND LOW NOISE - Google Patents

Abstract

A roller mechanism (10) comprises a roller seat (20), and a first roller (21) and a second roller (22), both of which are securely disposed on the roller seat (20). The roller seat (20) comprises a third wheel (41) which is disposed between the first and second wheels (21, 22), the third wheel (41) being firmly connected to a control element slidably mounted in the seat of rollers (20) and capable of moving downward and away from the first and second rollers (21, 22).

Description

The present invention relates to a roller mechanism and in particular to a roller mechanism having functions of automatically adjusting the vertical position and reducing the noise generated during the movement of the roller mechanism. The roller mechanism can be used for example in a door assembly, such as a shower door assembly. Pebble mechanisms are commonly used in door assemblies. The roller mechanisms normally move along a slide formed in a door frame, so as to promote the opening and closing of the door. The conventional roller mechanisms that are available have a two-wheeled structure or a three-wheeled structure.

A two-wheeled structure has two points of contact with the slide, that is to say that each wheel is in contact with the slide by a point of contact. As a result, the rollers have a large oscillation amplitude at a high moving speed, which causes a lot of noise. On the other hand, there is a risk that the roller mechanism emerges from the slide. In addition, when the roller mechanism is to be adjusted, a locking member such as a screw must first be released and then the door is raised or lowered, before re-attaching the locking member, thereby made a long and difficult operation.

On the other hand, a conventional three-wheeled structure increases stability to a certain extent (due to three points of contact formed between the three wheels and the door frame), which has the effect that the roller mechanism is not easy to clear. However, the wheels of the roller mechanism are not adjustable, and when they are accommodated in the slide, there will inevitably be a space between the wheels and the door frame, which generates a lot of noise due to the large amplitude of oscillation at a high displacement speed.

The object of the present invention is to provide a useful roller mechanism for a door assembly, particularly a shower door assembly. The roller mechanism has a function of automatically adjusting the position of the rollers and is also able to reduce the noise generated during the movement of the roller mechanism. According to one embodiment, the roller mechanism comprises a roller seat, and a first roller and a second roller, both of which are securely disposed on the roller seat, the roller seat comprising a third roller disposed between the roller bearings. first and second casters, the third caster being firmly connected to an adjusting member slidably mounted in the pebble seat and movable downwardly and away from the first and second casters.

According to one embodiment, the roll seat has an opening formed in a surface on which the first and second rollers are disposed, and between the first and second rollers, the adjusting member being slidably mounted in the seat of pebbles at the place of the opening.

According to one embodiment, the opening has a guide slot and the adjusting member has a rail, the rail can be inserted into the guide slot and be moved therein. According to one embodiment, the roller seat further comprises a cover having a recessed portion, so that when the roller seat is covered, the adjusting member is slidable relative to the roller seat. . According to one embodiment, the adjusting element comprises an elastic element and, when the lid covers the roller seat, the elastic element is in contact with the lid, at one end, and with the adjustment element. at the other end. According to one embodiment, the adjustment element comprises a first cavity intended to receive a portion of the elastic element.

According to one embodiment, the roller seat is provided with anchoring elements with tapped holes to be connected to the first and second wheels, for example by screws. According to one embodiment, the cover has a through hole, and the roll seat has a threaded hole, so that the cover can be securely attached to the roller seat by a screw. According to one embodiment, the adjustment element comprises a second cavity. The second cavity comprises a nut, and the adjusting element further comprises an anchoring element provided with a through hole and a screw. The screw is connected to the nut through the through hole, so that the third wheel is connected to the anchor. The roller mechanism proposed by the present invention comprises a third adjustable wheel, thereby facilitating the mounting of the mechanism. In addition, because of the presence of the adjusting member and its ability to move away from the first and second rollers when housed in the door frame, the three rollers are always in close contact with the slide of the door. door frame, so that there is no large amplitude of oscillation during the movement of the roller mechanism. The displacement noise will be reduced, and this also prevents the mechanism from disengaging the slide. The object of the invention will be better understood by those skilled in the art to the detailed study of the following description of some embodiments of the invention, with reference to the accompanying drawings, in which: - Figure 1 is a schematic view of an example of a roller mechanism according to the present invention; FIG. 2 is an exploded view of the example of the roller mechanism of FIG. 1, some elements being omitted for the sake of clarity; - Figure 3 is another view of an example of a roller mechanism according to the present invention; FIG. 4 is an exploded view of an adjusting element according to an embodiment of the present invention; - Figure 5 shows an example of a roller mechanism, before its engagement with a door frame; - Figure 6 shows an example of a roller mechanism, after its engagement with a door frame; FIG. 7 is a sectional view showing the grip between an example of a roller mechanism and a door frame; and - Figure 8 is a front view of an example of a roller mechanism. Elements unrelated to the present invention are omitted from the drawings. Figure 1 shows an example of a roller mechanism as a whole. The roller mechanism 10 comprises a roller seat 20, a first roller 21, a second roller 22 and a third roller 41. The roller seat 20 has a rectangular hollow structure and comprises a lid 30. The first and second roller 21, 22 are placed at the same height, and the third wheel 41 is placed below and between the first and second wheels 21, 22.

Figure 2 shows in detail the roller mechanism as shown in Figure 1. The roller seat 20 has two anchors 23, 24 on a side surface. In the present example, the first and second rollers 21, 22 are arranged on the anchoring elements 23, 24, for example by means of a screw which passes into the first and second rollers 21, 22 and is inserted in threaded holes 29 in the anchoring elements 23, 24. The roller seat 20 has an opening 25 in the surface on which the anchoring elements 23, 24 are located. The opening 25 is placed between the elements anchoring 23, 24. A guide slot 26 (see Figure 3) is provided in the opening 25 and is preferably in the hollow structure of the seat 20. The opening 25 extends vertically through the surface, its lower end extending to the lower edge of the surface of the roll seat 20, and its upper end extending beyond the upper edge of the surface. The roll seat 20 further comprises a cover 30 having a recessed portion 32. This recessed portion 32 is aligned with the opening 25, so that a closed sliding space is formed when the cover 30 is formed. covers the opening 25. The lid 30 may be connected to the roller seat 20 by appropriate methods. In the present example, the lid 30 is provided with a through hole 31, and the roller seat 20 is provided with a corresponding threaded hole 28. The lid 30 may be separably connected to the roller seat 20 by a screw. An adjusting member 40 is disposed in the hollow space of the roller seat 20. As shown in FIG. 4, the adjusting member 40 comprises a rail 45 for insertion into the guide slot 26, so that that the adjusting member 40 is slidably mounted in the roller seat 20. In the present example, the adjusting member 40 further comprises a first cavity 49 and an elastic member 44 (eg a spring) which is at least partially in the first cavity 49. The first cavity 49 preferably has a shape matching that of the elastic element 44, for example the shape of a cylinder, so that the elastic element 44 does not shift radially. When the cover 30 covers the roller seat 20, the elastic member 44 is in contact with the cover 30, at one end, and with the adjusting member 40, at the other end. When the adjustment member 40 is moved upward, the elastic effect of the elastic member 44 allows the adjusting member 40 to move down to return to its original position. As illustrated, the adjusting member further comprises a second cavity 48 which may or may not communicate with the first cavity 49. The second cavity 48 is used to receive a nut 47 and preferably has the same profile as the nut. 47, so that the nut 47 can not move into the second cavity 48. As illustrated in Figure 2, the adjusting member 40 also includes an anchor 42 having a hole The third wheel 41 is connected to the adjusting element 40 by a screw 46 (see FIG. 4) which passes into the third wheel 41 and into the through hole 421 and is screwed into the nut 47. one skilled in the art will find other means for making a separable connection of the third wheel 41 with the adjusting element 40. FIG. 5 shows an example of a roller mechanism 10, before it is engaged with a frame 50. the roller mechanism 10 must be mounted on the frame 50, the first and second rollers 21, 22 are brought into contact with an upper slide 51 of the frame 50, and the third roller 41 is brought into contact with a lower slide 52 visible in FIG. 6. Referring to FIG. 8, when they are not engaged with the frame 50, the distance between the upper edges of the first and second rollers 21, 22 and the lower edges of the third wheel 41 is designated by D1 which is larger than the distance D2 between the upper slide 51 and the lower slide 52 visible in FIG. 7. Therefore, when the roller mechanism 10 is to be mounted on the frame 50, the first and second wheels 21, 22 are aligned with the upper slide 51, and the third roller 41 is aligned with the lower slide 52, and then the rollers are pushed into the slideways. Due to the elastic effect of the elastic member 44, the third wheel 41 will slide up a distance to reduce the distance D1, until the distance D1 is substantially equal to the distance D2. The first, second and third rollers are then respectively positioned in the slides 51, 52. When the three rollers are positioned in the slideways, the elastic element 44 is always in the compressed state, because the third roller 41 has been moved to the top. This has the effect that the adjusting member 40 can move along the guide slot 26 downwardly at any time. Therefore, the third roller 41 is in close contact with the lower slide 52 and, under the effect of the counterforce, the first and second roller 21, 22 are in close contact with the upper slide 51. Therefore, during when the roller mechanism is moved, the rollers do not oscillate with any amplitude. This reduces the noise generated by moving the rollers along the rails. At the same time, the casters do not emerge from the slides, which reinforces the safety of the roller mechanism. The person skilled in the art can adjust the distance from which the third wheel 41 moves upwards, according to the specific needs, for example by modifying the elastic forces of the elastic element, by changing the size of the recess portion 32 of the cover 30, or by changing the size of the adjusting member 40. Given the presence of the adjusting member and its ability to move away from the first and second wheels when mounted in the door frame , the three rollers are always in close contact with the slide of the door frame, so that there is no large amplitude of oscillation during the movement of the roller mechanism. The noise of displacement will be reduced and secondly, it prevents the mechanism from disengaging the slide.

Claims (9)

REVENDICATIONS1. Roller mechanism (10) comprising a roller seat (20) and a first roller (21) and a second roller (22), both of which are solidly arranged on the roller seat (20), characterized in that the roller seat (20) comprises a third wheel (41) disposed between the first and second wheels (21, 22), the third wheel (41) being securely connected to a control element (40) slidably mounted in the wheel seat rollers (20) and capable of moving down and away from the first and second wheels (21, 22). Roller mechanism according to Claim 1, characterized in that the roller seat (20) has an opening (25) formed in a surface on which the first and second rollers (21, 22) are arranged, and between the first and second rollers (21, 22). and second rollers (21,22), the adjusting member (40) being slidably mounted in the roll seat (20) at the opening (25). Roller mechanism according to Claim 2, characterized in that the opening (25) has a guide slot (26), and the adjusting element (40) has a rail (45), the rail (45) can be inserted into the guide slot (26) and moved therein. 4. roller mechanism according to claim 2, characterized in that the roller seat (20) further comprises a cover (30) with a recessed portion (32), so that when the seat of roller (20) is covered, the adjusting element (40) is slidable relative to the roller seat (20). Roller mechanism according to Claim 4, characterized in that the adjusting element (40) comprises a resilient element (44) which, when the cover (30) covers the roller seat (20), is in contact with the cover (30) at one end and with the adjusting element (40) at the other end. 6. roller mechanism according to claim 5, characterized in that the adjusting element (40) comprises a first cavity (49) for receiving a portion of the elastic element (44). Roller mechanism according to Claim 1, characterized in that the roller seat (20) is provided with anchoring elements (23, 24) with tapped holes for connection to the first and second wheels (21, 22). ) by screws. Roller mechanism according to Claim 4, characterized in that the cover (30) has a through hole (31), and the roll seat (20) has a threaded hole (28) so that the cover (30) can be securely attached to the roller seat (20) by a screw. The roller mechanism according to claim 1, characterized in that the adjusting element (40) has a second cavity (48) with a nut (47), and the adjusting element (40) further comprises an element anchor (42) having a through hole (421) and a screw (46), the screw (46) being bonded to the nut (47) through the through hole (421) to connect the third roulette (41) to the anchoring element (42).