SU916258A1 - Bearing-and-driving assembly of machine - Google Patents

Description

The invention relates to stationary construction and may find application in metal cutting machines, such as grinding.

Known support-node of the machine tool, made in the form of a radial support for basing the product, coupled with a source of a rotating magnetic field [11.

In this device, the support of the product being grinded is made in the form of a sliding friction support for contact friction, and the source of a rotating magnetic field is made in the form of a stator of an asynchronous electric motor, the windings of which are placed concentrically with the gap. Therefore, the product does not move along the axis and is pressed against the support only by cutting and weight. Non-linear characteristics of the contact friction of the product in the support in combination with the relatively soft characteristic of the torque generated by the magnetic field on the product does not allow for smooth e precise product rotation. The location of the windings in the working area near the product makes them vulnerable and clutters the working area of the machine. All this complicates the constructions of the day and limits the technological capabilities of the machine. _h

The aim of the invention is to simplify the design and expand the technological capabilities of the support-drive unit of the machine, namely the release of the working area of the machine, smooth and accurate combined rotation and axial movement of the product and its pressure against the support, facilitating loading and unloading of products.

For this, the radial support is made open hydro (gas) static, and the product is additionally coupled with a linear magnetic field source for moving the product along its axis and pressing it against the support. A magnetic field source may be coupled to a support.

Figure 1 shows the support-drive unit) in figure 2 - scan of the supporting surface of the node in figure 1.

The support-drive unit of products 1, processed in a wide circle 2, is an open hydrostatic or gas-static radial support 3, on the cylindrical surface of which are bearing pockets 4 connected through hydraulic resistance to a source of pressure of the working medium (liquid or gas) through s 916258. Connecting channels and resistances are not shown. For example, pockets 4 can be made in the form of outlets of supply holes or even in the form of pores on a supporting surface of a support 3 made of a porous material.

In addition, sources of magnetic fields — poles 5 of the magnetic field generator, whose windings are located directly in or outside of support 3 — are laid in support 3. In the latter case, the poles 5 are connected to the magnetic field generator by magnetic circuits. A pillar of articles 1 is installed in the support 3, for example, rings of railway bearings. The power of the windings of the magnetic field generator is organized so that the poles 5 attract products 1 to themselves, i.e. attract them to the support, or the magnetic field 20 rotates along the circumference of the cylindrical surface of the support 3, or the magnetic field moves linearly along the formed cylindrical surface of the support 3. In this case, two schemes for generating magnetic fields are possible. According to the first scheme, each pole is involved only in the generation of one type of magnetic field, i.e. one group of poles attracts the product to support 3, the second group rotates them, and the third moves along the axis. Moreover, the poles of all three groups are evenly distributed - mixed on the cylindrical surface of the support. 35 According to the second scheme, each pole is involved in the generation of all three types of fields or two of them. For example, “each pole attracts products to a support and participates in the reproduction of rotating and moving products of magnetic fields. Thus, the product 1 is associated not only with a source of a rotating magnetic field, but additionally with a source of a linear magnetic field for moving the product along its axis and pressing it against the support 3. In this case, the magnetic field sources are associated with the support 3, but can also be located outside her, for example, along its' 0 edges.

The device operates as follows.

Products 1 ”, falling on the support 3, float on a layer of medium that feeds 55 pockets 4. At the same time, the poles of 5 magnets attract the products to the support 3, increasing the rigidity of the carrier layer of lubricant. Due to the magnetic attraction of the product 1, the hell is rigidly fixed in radial directions, despite the orientation of the support 3 in space, i.e. the cylindrical surface of the support can be turned up, as shown in Fig.6, down or sideways, and the product 1 will still be held on the support, being separated from it by a layer of lubricant. At the same time, the magnetic fields of the poles 5 rotate the product 1 and move them along the axis. The directions of movements in Fig. 7 are shown by arrows. Grinding and rotating with magnetic fields on the lubricant layer of the product 1 are ground with a circle 2. Thus, grinding of rotating parts moving along the axis with one circle in a hydrostatic support without friction braking can be performed, for which an additional leading wheel is usually used. Since the products are located on a hard layer of lubricant and are moved by a non-contact drive, the accuracy and productivity of processing increase. The free working area of the machine facilitates loading and unloading of products, their control and cooling.

The given example of execution shows that the proposed device of the support-drive unit can effectively simplify the design of the machine and expand its technological capabilities. It should be noted that .ono can find application not only in grinding, but also in other types of machines, for example, in turning and boring.

Claims (2)

Claim 1. The support-drive unit of the machine, made in the form of a radial support for the base of the product, coupled with a source of a rotating magnetic field, characterized in that, in order to simplify the design and expand technological capabilities, the radial support is made unbroken hydro (gas) static, and the product is additionally associated with a linear magnetic field source for moving the product along its axis and pressing it against the supports §. 2. Node pop. 1, characterized in that the magnetic sources; fields are associated with a support.