RU2284255C2 - Rest of grinding machine tool - Google Patents

Abstract

FIELD: machine tool manufacture, possibly rests of round grinding machine tools for centerless grinding, for example of rolling raceways or beads of outer or inner races of rolling bearings.

SUBSTANCE: rest includes strut in which lower support for compensating weight of article and multi-step self-aligning correction support are mounted. Correction support includes members symmetrical relative to their own rocking axes, namely balance beams and bearing shoes whose positions in support are determined by angles μ₁ , μ₂ where μ₁ - angle formed by radius passing through rotation center of article and rocking axis of bearing shoes and by radius passing through rotation center of article and rocking axis of balance bean of first step; μ₂ - angle formed by radius passing through rotation center of article and rocking axis of bearing shoes and by radius passing through rotation center of article and contact point of supporting surface of one arm of bearing shoe with article. Said multi-step support is asymmetrical relative to axis of last step. At least one member of one step has predetermined angles μ₁ and(or) μ₂ different from angles μ₁ , μ₂ of remaining members of the same step.

EFFECT: enlarged diameter range of worked products, enlarged band of suppressed harmonics.

3 cl, 2 dwg

Description

The invention relates to the field of machine tool industry and can be used in the rests of circular grinding machines for centerless processing, for example, raceways or collars of the outer or inner rings of rolling bearings.

Known centerless external grinding based on parts on rigid supports (V.P. Filkin, I.B.Koltunov "Progressive methods of centerless grinding, Engineering, Moscow, 1971, p. 141). With this method of grinding, the part with the base surface is mounted on two supports located at an angle to each other and rigidly mounted on a vertical stand, which is part of the headstock support.

One of the varieties of centerless external grinding based on parts on rigid supports is centerless grinding of the outer surface based on the surface being machined.

The disadvantages of the known solutions include reduced stiffness, the need to fine-tune angles, a narrow range of suppressed harmonic components of non-circularity.

Known multi-stage self-aligning corrective support used for centerless grinding (RU 2228249, 2004.10.05, 24 B 19/06). The method of centerless grinding is based on using a multi-stage self-adjusting corrective support consisting of prismatic shoes, first stage and rocker balancers, and a lower support when grinding to stabilize the axis of rotation of the product in the direction of its processing. Grinding is carried out with the location of the mentioned elements of the multi-stage self-adjusting corrective support at given angles μ ₀ , μ ₁ , μ ₂ , and the lower support at an angle β to the vertical, the values of which are chosen from the condition of guaranteed correction of harmonic components of non-circularity of the profile in a given range of their spectrum.

The disadvantages of the known solutions include restrictions on the range of diameters of the processed products and a wider but limited range of suppressed harmonics.

The tasks that are solved by the invention are to expand the range of diameters of the processed products, expanding the range of suppressed harmonics.

The tasks are solved as follows.

Grinder of a grinding machine, comprising a stand on which a lower support is mounted to compensate for the weight of the product and a multi-stage self-adjusting corrective support, consisting of elements - balancers and support shoes, the position of which in the support is determined by the angles μ ₁ and μ ₂ , where μ ₁ is the angle formed the radius passing through the center of rotation of the product and the axis of swing of the support shoe, and the radius passing through the center of rotation of the product and the axis of swing of the balancer of the first stage; μ ₂ is the angle formed by the radius passing through the center of rotation of the product and the axis of swing of the support shoe, and the radius passing through the center of rotation of the product and the contact point of the support surface of one shoulder of the support shoe with the product, characterized in that the multi-stage self-aligning corrective support, consisting of symmetrical with respect to their swing axes, the elements are asymmetric with respect to the axis of the last stage, while at least one of the elements of one of the stages has predetermined angles μ ₁ and / or μ ₂ ex differ from the given angles μ ₁ and / or μ _{2 of the} remaining elements of the same step. The lunette can be made in the form of a single monolithic structure and / or in the form of individual elements. The multi-stage self-aligning corrective support is a lever-articulated system.

The invention is illustrated by drawings, which show the lunettes with three-stage supports.

Figure 1 shows the lunette made in the form of a monolithic structure, figure 2 - lunette, the support of which is made in the form of individual elements.

The lunette is a rack 1, which is installed on the table or bed of the grinding machine. In the rack 1, a multi-stage self-aligning corrective support is mounted, which consists of support shoes 2, balancers of the first stage 3, the balancer of the second stage - rocker 4 mounted pivotally movably on the axis 5 in the rack 1.

Figure 1 and 2 shows the options for constructive execution of the lunette.

The lunette support in Fig. 2 is made in the form of separate elements that are pivotally connected to each other: support shoes 2 are mounted pivotally movable on the axles 6 of the balancers 3, which, in turn, are pivotally movable on the axes 7 in the beam 4.

The rest in figure 1 is made in the form of a single monolithic part, in which the hinged movable elements are made in the form of jumpers 8, 9, the support shoes 2 are equipped with wear-resistant anti-friction inserts.

To compensate for the weight of the product 10 in the rack 1 has a lower support 11 located at a given angle β to the vertical.

The multi-stage self-adjusting corrective support is a multi-stage lever-hinge system, each step of which is located symmetrically with respect to the swing axis of the rocker arm 5. The number of steps of the self-aligning support n, where n = 2, 3 ... and angles μ ₀ , μ ₁ , μ ₂ , determine based on the guaranteed correction of the harmonic components of the non-circularity of the profile in a given range of their spectrum, while

μ ₀ is the angle formed by the radius passing through the center of rotation of the product (point O) and the swing axis of the balancer of the first stage (points O ₅ or O ₆ ), and the radius passing through the center of rotation of the product (point O) and the axis of swing of the rocker arm (point O ₇ )

μ ₁ is the angle formed by the radius passing through the center of rotation of the product (point O) and the axis of swing of the support shoe (points O ₁ , O ₂ , O ₃ , O ₄ ), and the radius passing through the center of rotation of the product (point O) and the swing axis of the balancer of the first stage (points O ₅ , O ₆ ),

μ ₂ - the angle formed by the radius passing through the center of rotation of the product (point O) and the axis of swing of the support shoe (points O ₁ , O ₂ , O ₃ O ₄ ), and the center of rotation of the product (point O) and the contact point of the supporting surface of one shoulder support shoe with the product.

The essence of the invention lies in the fact that the corrective support, consisting of elements symmetrical about its axis of swing, is made asymmetric about the axis of the last stage of the support. For this, at least the given angles of one of the elements of one of the steps differs from the given angles of a similar element of the same step.

Figure 1 shows the design of the corrective support, in which one of the support shoes forming the first stage is installed so that the angle μ ₂ defining the contact points of each shoulder of the support shoe with the surface of the product differs from the angles μ _{2 of the} remaining support shoes of the same stage .

This design allows you to:

- expand the overall spectrum of suppressed harmonics, since each pair of balancers provides effective suppression of a certain part of the spectrum of harmonics,

- expand the range of diameters of products processed on the same rest.

The invention will find application in the processing of external and internal cylindrical surfaces of products to which high demands are placed on the accuracy of the geometric shape.

Claims (3)

1. A lance of a grinding machine, comprising a stand on which a lower support is mounted to compensate for the weight of the product and a multi-stage self-adjusting corrective support, consisting of elements - balancers and support shoes, the position of which in the support is determined by the angles μ ₁ and μ ₂ , where μ ₁ is the angle formed by the radius passing through the center of rotation of the product and the axis of swing of the support shoe, and the radius passing through the center of rotation of the product and the axis of swing of the balancer of the first stage; μ ₂ is the angle formed by the radius passing through the center of rotation of the product and the axis of swing of the support shoe, and the radius passing through the center of rotation of the product and the contact point of the support surface of one shoulder of the support shoe with the product, characterized in that the multi-stage self-aligning corrective support, consisting of symmetrical with respect to their axis of swing of the elements, made asymmetric with respect to the axis of the last stage, while at least one of the elements of one of the stages has predetermined angles μ ₁ and / or μ ₂ about differ from the given angles μ ₁ and / or μ _{2 of the} remaining elements of the same step. 2. The lunette according to claim 1, characterized in that it is made in the form of a single monolithic structure and / or in the form of individual elements. 3. The lunette according to claim 1, characterized in that the multi-stage self-aligning corrective support is made in the form of a lever-hinge system of support shoes and balancers.

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