UA26634U - Magnetic suspension assembly for displacement of structural element - Google Patents

Abstract

A magnetic suspension assembly for displacement of structural element, for instant sliding door, has magnetic system that includes at least one magnetconnected to upper edge of structural element, guide made of magnetic material and stop element. The guide is placed above at least one magnet and in parallel to it.

Description

Description of the invention

The useful model refers mainly to the construction of structures, the production of furniture and the manufacture of its components, 2 in particular, fittings.

Different designs of sliding doors and nodes that ensure their functioning are known. Sliding doors are known, the principle of which is to use magnetic forces to overcome the weight of the door. The magnetic system of this design includes a vertically located magnet located between two supporting elements and a detail that ensures a magnetic gap and sliding of the door along the limiting guides, while the magnet 70 is connected to the upper end of the door leaf, see OE 20040503171.

In this design, the weight of the door is compensated by the attraction of the magnet to the supporting elements. Moreover, the magnet's gravitational forces are directed along the X-axis perpendicular to the direction (X-axis) of the door's movement, and the weight of the door is directed downward along axis 7, and the net effect of the magnet's gravitational forces is directed in the opposite direction, i.e. upward. Since the gravitational forces of the magnet are perpendicular to the force of weight, their value must be much higher than the force of the weight of the door, which 72 makes it necessary to use magnets of great power and, therefore, of considerable dimensions. In addition, the restriction element is located along the entire cross-section of the door on both sides and counteracts the magnetic forces.

The basis of the useful model is the task of reducing the friction force when moving the door by improving the design of the magnetic suspension assembly by compensating the weight force with the force of gravity.

The task set in a known magnetic suspension unit for moving a structural element, for example a sliding door containing a magnetic system, which includes at least one magnet connected to the upper end of the structural element, a guide made of magnetic material and a limiting element, according to the claim, was solved by , that the guide is located above at least one magnet and parallel to it, and the limiting element is made in the form of at least one part that slides along the guide and is connected to the 22 structural element, while at the ends of the structural element there is at least one limiting element , which can be made, for example, in the form of a pair of rollers, the axes of rotation of which can be both parallel and coaxial. At the same time, the options for performing sliding parts are not limited by the design of rollers, and can be made of any other shape. Thus, such a design of the magnetic system does not have a support that perceives a vertical load, and instead the magnetic forces of attraction of magnets are used, at which M the structural element (in a separate case - the door) is as if on stretchers and friction occurs between the parts, which slide, and guide. At the same time, the force that crushes them is equal to the difference between the attraction forces of the magnet and the weight of the structural element. eh

The above graphic materials schematically show the magnetic suspension assembly used, for example, in sliding doors. 325 Fig. 1 shows a magnetic suspension unit in which the magnet is selected in such a way that its force in interaction with the guide slightly exceeds the force of the weight of the door, and Fig. 2 shows the same, but the specified force is slightly less than the force of the weight of the door , and in Fig. 3 - a view of the magnetic suspension unit from the side of the side of the door, for example, when using a pair of rollers whose axes are parallel in its design. "

The magnetic suspension unit contains a magnetic system, which includes at least one magnet 1, C 740 connected to the upper end of the structural element 2, a guide C made of a magnetically soft or magnetically hard c material and a limiting element made in the form of at least, for example, one details In the considered

According to the example, the restriction element is made in the form of one part, which accommodates two pairs of rollers 4 sliding along the guide Z, located above and below it and connected to the element 2, while the axes 5 of their rotation are parallel.

To prevent the door from moving in the direction perpendicular to its plane, the guide C can have longitudinal grooves 6, for example, U-shaped on the upper and lower sides of the guide 3, placed on

Ge") at the same distance from the edge, while the rollers 4 have a radial projection of the appropriate shape.

When performing the limiting element in the form of a pair of rollers, the axes of rotation of which are coaxial, the guide C would have lateral longitudinal grooves along which the rollers slide. со 20 Let's consider the operation of the magnetic suspension assembly shown in Fig. 1. Magnet 1 is selected in such a way that the force of its interaction with the guide slightly exceeds the force of the weight of door 2. As a result, between the upper

T" rollers 4 and guide Z is a gap 5, and the upper rollers at the same time perform the function of insurance and the door can move freely with the help of the lower rollers 4 sliding along the guide Z. At the same time, the friction on the axes 5 of the lower rollers 4 is insignificant. In the case when the magnet 1 is selected in such a way that the force of its interaction with the 99 guide C is slightly less than the force of the weight of the door 2 (see Fig. 2), then there is a gap 5 between the lower rollers 4 and the guide C and when moving the door 2 friction occurs on the axes 5 of the upper rollers 4, and its value is also insignificant.

At the same time, in both cases, the size of the gap A between the magnet 1 and the guide Z is always constant and exceeds the size of the gap 5. Thus, the most accurate selection of the magnet allows you to significantly reduce the pressure of the door on the rollers and, thereby, reduce the friction on their axes.

Claims (5)

The formula of the invention 1. A magnetic suspension assembly for moving a structural element, for example a sliding door, containing a magnetic system, which includes at least one magnet connected to the upper end of the structural element, a guide made of magnetic material and a limiting element, which is distinguished by the fact that the guide is located above at least one magnet and parallel to it. 2. The node according to claim 1, which is characterized by the fact that at least one restriction element is located at the ends of the structural element. 3. The unit according to claim 1, which is characterized by the fact that the restriction element is made in the form of at least one part that slides along the guide and is connected to the structural element. 4. The unit according to claim 1, which is characterized by the fact that the restriction element is made in the form of a pair of rollers whose axes of rotation 7/0 are parallel. 5. The node according to claim 1, which differs in that the limiting element is made in the form of a pair of rollers, the axes of rotation of which are coaxial. that 2 « (ze) (Se) (Se) p - and? name) (o) (o) (95) c» 60 b5