RU34105U1 - Special lathe - Google Patents

Description

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SPECIAL LATHE MACHINE

The proposed utility model relates to machine tool construction and is intended for turning and grinding operations when restoring turbine rotors, as well as for processing large-sized parts, for example, shafts, blow fans, circulation pumps, etc.

The processing of these parts is laborious, requires the use of various tools and is time consuming,

Heavy machine tools with a horizontal axis of rotation for the repair of turbine rotors are known in the machine tool industry. mounted on individual bases with the possibility of longitudinal and transverse movement of the right and left calipers and supporting lunettes, developed Kramatorsk Heavy Engineering Plant 1

For the prototype of the claimed utility model, the machine model КЖ1698Ф1 was taken, as the closest in layout solution and functional purpose .:

Lathe of increased accuracy mod. KZh1690F1 is a heavy lathe designed for machining the shafts of generators and rotors of turbines.

The layout of the machine does not solve all the needs for processing the part. The machine does not have the ability to rearrange the calipers on the bed, as a result of which the whole range of diameters of the workpiece is not covered, and there is no means for pre-setting the part to the processing position. Heavy and complex geometric you:. :

based on the axis of the machine, the parts are installed directly on the supporting rests with its further exhibition by means of roller regulation. By adjusting the movement of the rollers it is difficult to achieve the necessary accuracy of the axial location of the part, since The main purpose of the lunettes is to support the part during processing. In addition, when installing the part, the rollers experience an inevitable shock, which leads to their premature wear and loss of accuracy parameters that affect the quality of the workpieces.

The purpose of the proposed utility model is to expand the technological capabilities of the machine, increase the convenience and accuracy of basing the part in the processing position.

This goal is achieved by the fact that in the well-known lathe designed primarily for the treatment of turbine rotors, comprising a base frame made of sections joined to each other, provided with guides of rectangular cross-section, front and rear headstock mounted on the base and equipped with spindle assemblies, the tailstock made integral, installed on individual bases with the possibility of longitudinal and transverse movement of the right and left calipers and supporting lunettes, into it The third caliper is located between the left and right calipers, mounted on its own base (bed) made movable relative to the common base of the machine. The machine is also equipped with means for installing the rotor in the processing position in the form of transversally movable power lifts. Lifts are electromechanical jacks equipped with mounting prisms.

The accompanying drawings illustrate the claimed utility model.

Pa fig. 1 shows a general view of the machine in a perspective view.

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In Fig.Z is a top view of the machine with calipers and lunettes.

The machine contains a common base frame, consisting of a series of plates fastened together, based on the foundation. The base has longitudinal guides 2 of rectangular cross section and a groove 3. On the base 1, a spindle 4 and a rear 5 headstock are installed, equipped with spindle assemblies. The tailstock is made integral: directly of the tailstock 5 and its lower part - a pedestal 6, mounted on the base 1 with the possibility of moving along the guides 2 and the groove 3, from the movement mechanism (rack pair and gear motor) - not shown in the drawing. The tailstock 5 has the possibility of axial movement along the pedestal 6.

On the basis of 1 installed bed with calipers that are moved in the axial and transverse directions (by means of a carriage and crawler). Bed 7 - with a support 8, bed 9 - with a support 10, bed 11 - with a support 12. Calipers have various purposes and are interchangeable: turning rotary (8), crowbar (10), grinding (12). A head for grinding with an end face of a circle or a head for grinding with the periphery of a circle can be mounted on the grinding support. For the convenience of servicing the calipers, they have a platform with a fence (figure 1). Depending on the sizes and shapes of the machined parts, the bed with calipers can be reinstalled in the longitudinal and radial directions, including the transverse arrangement relative to the axis of the machine. For the exhibition and fixing the frame with calipers, the base has longitudinal and transverse grooves 13.

The machine is equipped with electromechanical jacks 14 with mounting prisms 15. The machine (Fig. 1) is shown with the rotor 16 clamped in the front headstock chuck 4 and mounted on the prisms 15 of the jacks 14. Nrisma have the possibility of axial rotation, vertical and radial movements relative to the axis of the machine, which allows install accurately

torus to the processing position. To support the rotor during processing, the machine has open roller rests 17,

To start the machine into operation, it is necessary to carry out preparatory operations, consisting in combining the axis of the product with the axis of the machine.

On the base 1 in the transverse direction the jacks 14 are moved and set along the axis of the machine. Their longitudinal arrangement depends on the length of the workpiece and its technological bases.

Using a crane by weight, the end face of the rotor 16 is inserted into the cams of the front headstock 4 cartridge and placed with the necks, which are the technological bases, onto the prisms 15 of the jacks 14. On the guides 2 and the groove 3, the cabinet 6 with the tailstock 5 is moved towards the rotor and covered by the cartridge cams . Align the installation of the product axis with the axis of the machine (using indicators at the two ends of the rotor) If necessary, adjusting the prisms 15 in height, turn or moving them radially relative to the axis of the machine, achieve the exact alignment of the axis of the rotor with the axis of the machine. Make the final alignment of the installation of the rotor according to the technological requirements and clamp the cams of the spindle cartridges 4 and rear 5 headstock.

Then, in a certain sequence, the jacks 14 (after lowering the prisms 15) are replaced with supporting lunettes 17.

At the end of these operations, the machine is ready for processing the rotor 16. Depending on the type of work performed, beds 7,9,11 with calipers 8,10,12 are installed and fixed in the grooves 13 of the base 1 in the necessary positions.

The machine can be used in a lobotar version when installing a bed with a support from the end of the workpiece perpendicular to the axis of the spindle.

ports allows the consumer to independently create the necessary layout of the machine, which provides processing of the entire range of diameters of the part on the machine.

The inventive machine is a universal, allowing to process heavy parts of various shapes, which makes it possible to reduce the number of units of unique equipment at the consumer.

The design solution of the machine ensures accurate installation of the part in the processing position, which is one of the main conditions for the quality processing of parts.

Bibliographic data:

1. Prospect of a research institute of information on mechanical engineering, Moscow, 1981. “Lathe of increased accuracy, model KZh 1698F1- Kramatorsky Heavy Machine Tool Plant.

Claims (1)

A special turning machine, mainly for machining turbine rotors, containing a base frame made of sections joined together, provided with guides of rectangular cross-section, mounted on the base and equipped with spindle assemblies front and rear headstock, the tailstock being made integral, mounted on individual bases with the possibility of longitudinal and lateral movement of the right and left calipers and supporting lunettes, characterized in that a third caliper is inserted into it, located between the left and right calipers mounted on the own base arranged movable relative to the common base of the machine and means for mounting the rotor in the working position as power lifts movable in the transverse direction, made in the form provided with the mounting prisms electromechanical jacks.