RU40664U1 - FRICTION PRODUCT - Google Patents

Abstract

The friction product contains a metal frame, which can be flat or curved (for example, in the form of a part of a cylindrical shell or more complex shape). Holes are made in the frame (one or more). The holes can be round, oval, rectangular or other shape. A friction element is molded to the frame, provided with protrusions corresponding in their location to the holes in the frame. The number of protrusions may be equal to the number of holes in the frame or be less. The shape of the protrusions may repeat the shape of the holes or differ from it, while the height of the protrusions is equal to the depth of the holes. The friction element can be made, for example, from a polymer composite friction composite containing a polymer matrix and dispersed, including fibrous, fillers. In the protrusions, the composite is made with a lower density (more "loose") than in the rest of the friction element. A lower density of the composite can be in all protrusions or in some of them, while, as a rule, the formulation of the composite of protrusions and the element itself is the same. However, it is possible to use composites with different formulation composition.

Description

The inventive utility model relates to mechanical engineering, namely, to friction products containing a reinforcing metal frame, for example, brake disc pads for cars, friction products for various machines and equipment, etc.

An analogue of the claimed utility model is a friction product containing a metal frame and a polymer composite friction element formed on it, the layer of which adjacent to the frame is additionally reinforced with expanded metal sheet fixed on the frame (see RF patent No. 20055619, IPC B 29 D 9/00, 1994). The essential features of the analogue "metal frame, a friction element molded to it" coincide with the essential features of the claimed utility model.

The disadvantage of the analogue is the complexity of manufacturing the product, due to the need to fix an additional reinforcing expanded metal sheet (for example, bolting, welding, etc.), as well as, in some cases, the inability to manufacture the product (for example, for disc pads with small sizes and thickness passenger car brakes).

The prototype of the claimed utility model is a friction product containing a reinforcing metal frame with holes and a polymer composite friction element formed on it, provided with protrusions corresponding to the holes in the frame and placed inside the holes, while the height of the protrusions corresponds to the depth of the holes (see M.M. Borodulin and other Asbestos technical products. Directory-directory. M., TSNIITENeftekhim, 1984, pp. 74, 75, 79). The essential features of the prototype “a metal frame with holes, a friction element molded to it made of a polymer friction composite, provided with protrusions corresponding to the holes and placed inside the holes, while the height of the protrusions corresponds to the depth of the holes” coincide with the essential features of the claimed utility model.

The disadvantage of the prototype is the insufficient strength of the connection between the frame and the friction element to the forces characteristic of friction units, shifting the friction element relative to the frame under conditions of variable thermal loads (sequential heating and cooling of the product). The strength of the friction product of the prototype to these shear forces (deformations) is due to the adhesion of the material of the friction element to the surface of the metal frame, as well as the shear strength of the protrusions of the friction element. Moreover, the "shear" strength depends not only on the strength of the friction material. Due to the fact that the protrusions of the friction element are in the holes of the frame without a gap (as a result of shaping), and their height corresponds to the depth of the holes, there is no possibility of compensating for stresses arising under conditions of variable thermal loads due to the difference in the thermal expansion coefficients of the metal of the frame and the polymer composite of which the friction element is made, and the possibility of compensation is absent both from the side of the protrusions of the polymer composite, which are surrounded by metal over the entire height e, and from the holes in the frame, since the holes of the wall in contact with the polymeric composition throughout the depth of the protrusions. As a result, under conditions of variable thermal loads, cracking of the protrusions, chipping of material from them, etc., is possible, which leads to a decrease in the strength of the protrusions “in shear” and makes further operation of the product dangerous.

The problem to which the claimed utility model is directed is to increase the strength of the connection of the frame and the friction element to shear loads under variable thermal loads during operation of the friction product. Another technical result, the receipt of which can be provided by the claimed utility model, is to reduce the mass of the friction element and the product as a whole, which reduces the cost of the product and simplifies the manufacturing technology of the product.

To achieve the specified technical result in a friction product containing a metal frame with holes and a friction element formed thereon, provided with protrusions corresponding to the holes in the frame and placed inside the holes, while the height of the protrusions is equal to the depth of the holes, and the friction element is made of a polymer friction composite,

whose density in the protrusions is less than in other parts of the friction element. The essential features of the claimed invention "the friction element is made of a polymer friction composite, the density of which in the protrusions is less than in the remaining parts of the friction element" are distinctive from the features of the prototype.

The friction product contains a metal frame, which can be flat or curved (for example, in the form of a part of a cylindrical shell or more complex shape). Holes are made in the frame (one or more). The holes can be round, oval, rectangular or other shape. A friction element is molded to the frame, provided with protrusions corresponding in their location to the holes in the frame. The number of protrusions may be equal to the number of holes in the frame or be less. The shape of the protrusions may repeat the shape of the holes or differ from it, while the height of the protrusions is equal to the depth of the holes. The friction element can be made, for example, from a polymer composite friction composite containing a polymer matrix and dispersed, including fibrous, fillers. In the protrusions, the composite is made with a lower density (more "loose") than in the rest of the friction element. A lower density of the composite can be in all protrusions or in some of them, while, as a rule, the formulation of the composite of protrusions and the element itself is the same. However, it is possible to use composites with different formulation composition.

In FIG. a section of a portion of a friction product according to a specific example is shown.

A specific example of the claimed utility model is a VAZ-2107 disc brake shoe containing a flat metal frame 1 with holes 2, 3. The frame contains four holes, the thickness H of the frame is ~ 5 mm, the depth L of the holes is ~ 5 mm, respectively. A friction element 4 is molded to the frame, provided with protrusions 5 corresponding to holes in the frame. The element is made of a polymer friction composite TIIR-109-08-8. The composition of the composite protrusions and the friction element is the same. The density of the composite protrusions is 90% of the density of the composite friction element (pads).

The inventive friction product can be manufactured by known methods. For example, a polymer composition and a metal frame are placed in a mold. Next, molding and manufacturing of the block is carried out by known methods, while the protrusions of the friction element are formed in the molding process by extruding the polymer composition into the holes of the frame. The composition of the composition is selected so that, at the temperature and pressure of the molding, the composition does not transition to a fluid state (or transitions, but to a state of low fluidity). As a result, the specific molding pressure in the holes of the frame will be less than in the remaining parts of the element, which ensures a lower density of the composite. If the composition of the composite of the protrusions differs from the composition of the composite of the element (this applies when the fluidity of the composition of the main part of the friction element is high enough), then two layers of the polymer composition of different composition are placed in the mold, while the thickness of the layer in contact with the metal frame, should be sufficient for the formation of protrusions.

The protrusions are less dense than the other parts of the friction element, increases the ability to compensate for strains, increases the ability to compensate for strains that occur in the metal frame as a result of thermal deformations of the metal frame. As a result, the influence of the carcass on the protrusions is reduced, which reduces the possibility of cracking and chipping of the protrusions and, as a result, increases the strength of the connection of the carcass and the friction element to shear loads. Making the protrusions less dense allows the thermal expansion of the protrusion material to reduce internal stresses in the protrusion and, accordingly, the possibility of cracking and fracture of the surface and body of the protrusion is reduced, i.e., the joint of the frame and friction element to shear loads during operation is also increased.

Claims (1)

A friction product comprising a metal frame with holes and a friction element formed thereon provided with protrusions corresponding to holes in the frame and placed inside the holes, the friction element being made of a polymer friction composite and the height of the protrusions equal to the depth of the holes, characterized in that the protrusions made of a composite of lower density than the rest of the friction element.