RU2229629C2 - Design of bearing - Google Patents

Abstract

FIELD: design of a bearing. SUBSTANCE: fastened on a plate, or a similar surface of a door, window or the like part of a structure is the bearing acting both in the axial and radial directions, it carries a handle or some other actuator rotating relative to the plate. The hole made in the plate for the bearing is so designed that the bearing cannot be turned in the hole while the handle or some other actuator is being used. EFFECT: produced a plastic bearing connected to a plate made of a metal sheet for compactness and durability. 10 cl, 8 dwg

Description

The invention relates to a bearing device mounted on a door, window or similar structural member.

In doors, windows, and similar construction products, handle bearings typically use a plastic bearing that allows the handle to have a fairly smooth and virtually silent action, although moving parts usually always work without lubrication. In addition, the wear and tear of the parts is very small if there is a plastic bearing between the moving metal parts.

Most often, a plastic bearing is a sleeve-shaped part, and at one end there is usually a rather thin flange that acts as a thrust bearing. A plastic bearing is used, in particular, in connection with molded plates, since according to available observations, the plastic bearing must have a substantially larger surface opposite the plate opening so that it works without damage. Since it takes a lot of work to make a cast plate and is therefore expensive, the plastic bearing was also tested in a plate made of metal sheet, however, it was found that the durability of the bearing is insufficient in this case. The bearing can be rotated in products of this type either only relative to the plate, or only relative to the handle, or relative to both parts in any ratio.

An object of the present invention is to provide a plastic bearing, which, in addition to its compact form, and also taking into account its durability, could be used in conjunction with a plate made of a metal sheet and a pen or the like.

This technical problem is solved due to the fact that for building metal products in public buildings or in other places associated with difficult conditions of use, a bearing device is usually used in which on the surface of a door, window or similar part to which the assembly plate is attached or what Something like that, a plastic bearing is fixed and a handle or other acting means rotates relative to the plate. As a rule, cast plates are used. In the case of using in accordance with the invention a plate made of a metal sheet with an opening for a bearing device acting both axially and radially, designed so that the bearing cannot rotate in the opening while using a pen or other acting means, in this case, the bearing is used for wear much longer than in the case when the bearing can rotate in the hole in the plate. This is particularly due to the fact that the surface area of the hole in the plate of the metal sheet of the bearing is essentially small due to the fact that the material of the plate is thin, and, in addition, since the hole in the plate is not machined, its surface is mostly rough after stamping. Since, in accordance with the invention, the handle boss and the inner surface of the plastic bearing form a sliding bearing, the bearing surface in this case is larger than the surfaces of the plastic bearing and the holes in the metal sheet. The smooth boss of the handle when turning does not completely wear out the inner surface of the plastic bearing.

It is preferable that the hole in the plate has a substantially circular shape, however, one or more recesses are made in the hole in the radial direction, the manufacture of which is carried out manually using the same punching tool and, thus, at the same stage of operation as the hole itself . Although the inner surface of the bearing is basically cylindrical, however, its outer surface corresponds to a hole in the plate so that in the radial direction one or more recesses correspond to the corresponding location of the hole in the plate, which prevents the bearing from turning in the plate. If there are recesses of at least two or more, it is easier to find the right direction at the installation stage.

Alternatively, it is preferable that the hole in the plate has the shape of a circle, however with one or more expansions in the hole in the radial direction, and also that the inner surface of the bearing is in principle cylindrical, however its outer surface corresponds to the hole in the plate so that one or several extensions in the bearing in the radial direction fits to the corresponding position of the plate and prevents the bearing from turning in the plate. Also in this case, the smooth swivel boss acts as a good surface for the sliding bearing with respect to the cylindrical inner surface of the bearing.

If the plastic bearing includes a part of a flange type, the size of which is larger than the hole in the plate, on which at least partially rests a part of the end surface of the handle or the corresponding boss, the part of the type of flange acts as a thrust bearing of the handle or appropriate means. If the bearing flange type part has the shape of the truncated cone outer surface, the flange type part surface is axially elastic as a result of the axial force created by the handle or the like. Therefore, to create an axial clearance or elasticity in the axial direction, there is no need for a traditional elastic so-called wave-like plate made of steel, which simplifies the design.

If the supporting part, the shape of which is basically similar to the sleeve, closes the handle, bearing and plate in one piece by using the grooves in the boss shaft of a type of groove under the locking ring, the design becomes simpler and cheaper, including due to the ease of assembly. Since the parts are made of plastic, corrosion of products working in wet places cannot occur.

If the other end of the supporting part on the circumference in the axial direction includes at least a pair of gaps, as a result of which the supporting part can be elastic at the assembly stage for installing the annular end protrusion into the groove of the handle boss type groove under the locking ring, and only two parts are made of plastic of considerable rigidity, the plastic bearing fits well on the steel plate, while maintaining the reliability of the handle and plate, which can be rotated, but rigidly fixed together.

The invention is further described in more detail with reference to the accompanying drawings, in which:

Figure 1 is a plan view of a plastic bearing from a bearing device in accordance with the invention;

Figure 2 is a sectional view of the bearing in accordance with Figure 1 along the line II-II;

Figure 3 is a plate from a bearing device in accordance with the invention without other parts;

Figure 4 is another structural embodiment of the hole in the plate in accordance with Figure 3;

5 is a support part of a bearing device in accordance with the invention;

6 is a support part in accordance with Figure 5 in partial section, a view in the direction VI-VI of Figure 3;

7 is a partial sectional view of a bearing device in accordance with the invention;

Figure 3 - surface VIII of Figure 7 on an enlarged scale.

In the drawings, the reference numeral 1 denotes a substantially cylindrical plastic bearing with one or preferably several recesses 2 on the outer surface of the cylindrical part 3. The plastic bearing 1 also includes a flange type part 4 at one end thereof that acts as a thrust bearing. For example, in a bearing device for a door handle, a cylindrical plastic bearing with a rather thin wall is very convenient for this purpose. A typical bearing wall thickness is only about 5% of the outer diameter of the bearing.

Figure 2 shows a section along the line II-II of the plastic bearing 1 in accordance with Figure 1. The recess 2 extends from the outer surface to approximately half the radial thickness of the plastic bearing material, and this thickness in other places than the recesses is approximately 1 mm. The flange of part 4 has the shape of a low truncated circular cone surface. This place will be explained in more detail later. In the axial direction, the length of the radial bearing part of the plastic bearing 1 is approximately equal to the plate thickness, about 1.5 ... 2 mm. It is more difficult to make the plate from a thicker material, and additional rigidity or additional strength in connection with this, therefore, is not at all necessary. The largest diameter of the flange of part 4 in the plastic bearing 1 cannot, for reasons of appearance, be larger than the diameter of the so-called handle boss sleeve, when it comes to the end of the handle facing the plate, which is approximately cylindrical. The surface 5 of the flange of part 4 will face the outer surface of the plate 6 (see Fig. 8).

In the hole 7 in the plate 6 of FIG. 3 there is a substantially outer cylindrical circumference 8, but the hole 7 includes one or more recesses 9 in the hole 7, the recesses may take the form of, for example, generally low segments of the circle. The recesses 2 in the plastic bearing 1 and the hole 7 of the plate are compatible in this case, so that the plastic bearing 1 fits inside the hole 1, and the recesses 2, for their part, fit inside the corresponding recesses 9, in accordance with their pitch and size. The recesses 2 and 9 thus interact so that, thanks to the recesses, the plastic bearing 1 cannot rotate in the hole 7 in the plate 6. The plate 6 is fixed to the door by countersunk screws, for which the plate 6 includes the usual centering countersinks 10 with holes.

Figure 4 shows the design, which is an option in relation to Figure 3. In this design, the recesses in the hole 7 are mirrored with extensions 9 ’and, accordingly, the plastic bearing 1 has a structure corresponding to this solution. Its purpose and function, however, are exactly similar to the design shown in FIG. 3. It is also possible to make a combination of grooves and extensions, but the installation stage will be more difficult in this case.

5 and 6 show the supporting part 11, which is mainly in the form of a ring. The inner diameter of the support portion 11 is approximately equal to the diameter of the boss of the handle. The ring of the support part 11 includes several slots 12, which extend in the longitudinal direction of the support part 11 to approximately half of the part. This makes the part as resilient as necessary at the installation stage. At the other end of the supporting part 11 in the inner circle there is a protrusion 13 of the flange type facing the central part, and the protrusion is of such a size that it fits into the groove 17 for the locking ring in the area of the boss of the handle. It is also possible that the supporting part 11 does not have a protrusion 13 (not shown) at all, so that the supporting part 11 is simply a cylindrical ring. This type of support portion 11 can be used if it is desired to use a traditional locking ring in this assembly, such as a Seeger ring. An elastic plate is not necessary, since the plastic bearing 1 in accordance with the invention includes an elastic thrust portion 4 of the flange type.

Figure 7 shows the bearing device in accordance with the invention in assembled form. The plastic bearing 1 is mounted on the rotating part of the boss 15 of the handle 14 as a flange in the first place. Next, the plate 6 is attached in place. The fastening can also be carried out in a different order, with the plastic bearing 1 being first installed inside the plate 6 and then the handle 14. At the end, the supporting part 11 is pushed into its place with force. The end face 16 of the boss 15, turned with a slope, in the handle 14 and the slit 12 helps to push the protrusion 13 of the supporting part 11 into its place in the groove 17 for the locking ring. It should be noted that the handle 14 may have a conventional traditional design with the boss 15 and the hole 14 ’for the spindle, so that the handle of the same type can be used further in conjunction with the known plate and bearing.

On Fig shows an enlarged section VIII of Fig.7. At points 18 and 19 there are small gaps. At the installation stage, the sleeve 20 at the other end of the boss 15 of the handle 14 slightly bends in the axial direction part 4 of the flange type of the plastic bearing 1 of the truncated cone type, but the protrusion 13 of the supporting part 11, however, reliably fits into the groove 17 under the locking ring. The thickness of the plate 6 surrounding the hole 7 should be slightly less than the distance between the part 4 of the flange type of the plastic bearing 1 and the end face of the supporting part 11. It is necessary to choose the dimensions in this place so that the clearance in the thrust bearing is small enough, but not too much small. It is necessary that the supporting part is stationary relative to the handle 14, so that the protrusion does not wear out during use. When using the bearing, it is necessary to give such dimensions to the bearing parts in the axial direction so that during assembly there is a small gap between them. When using the bearing in the handle 14 and the plate 6, large friction should not be allowed in any case, since in this case the lock return spring will not have the force to return the handle 14 to the horizontal position after use, which may cause surface damage.

The invention is not limited to the shown structural implementations, but some of the modifications can be made to the extent of the claims.

Claims (10)

1. Bearing device, in which a bearing is mounted on a plate or something similar to be installed on the surface of a door, window or a similar part of the structure, acting both axially and radially, and there is a handle or other acting on it means rotating relative to the plate, characterized in that the hole made in the bearing plate has such a structure that the bearing cannot rotate in the hole during use of a handle or other acting means. 2. The bearing device according to claim 1, characterized in that the hole in the plate has a substantially circular shape, however, it has one or more recesses of the hole located radially in the hole. 3. The bearing device according to claim 2, characterized in that the inner surface and the outer surface of the bearing are essentially cylindrical, and its outer surface corresponds to a hole in the plate so that in the radial direction one or more recesses in the bearing corresponds to a corresponding place in the plate and prevents rotation of the bearing in the plate. 4. The bearing device according to claim 1, characterized in that the hole in the plate is essentially circular in shape, however, it has one or more extensions in the hole. 5. The bearing device according to claim 4, characterized in that the inner surface and the outer surface of the bearing are essentially cylindrical, and its outer surface corresponds to a hole in the plate so that one or more extensions in the bearing in the radial direction corresponds to the corresponding place and prevents rotation bearing in the plate. 6. The bearing device according to any one of the preceding paragraphs, characterized in that the bearing comprises a flange type part, the size of which is larger than the hole in the plate, on which the end surface of the boss is at least partially supported and which acts as a thrust bearing for the handle or something something like that. 7. The bearing device according to claim 6, characterized in that the part of the type of the bearing flange has a shape approximately corresponding to the outer surface of the low truncated cone, and is axially elastic under the influence of a handle or the like. 8. The bearing device according to any one of the preceding paragraphs, characterized in that the supporting part, which is essentially a sleeve, closes the handle, bearing and plate in one piece by using a groove such as a groove for the locking ring made on the lathe on the boss shaft, and a protrusion of the type of flange located at the end of the supporting part on the inner circumference. 9. The bearing device according to any one of the preceding paragraphs, characterized in that at the other end of the support part on the circumference there are at least several slots in the axial direction, under the action of which the support part can be radially elastic at the mounting stage to install an annular end protrusion type of flange into the groove type of a groove for the locking ring on the boss shaft. 10. The bearing device according to any one of the preceding paragraphs, characterized in that the bearing and the supporting part are made of proportionally rigid plastic.

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