RU2042477C1 - Boring head - Google Patents

Abstract

FIELD: metal working. SUBSTANCE: boring head has a cutter toolholder in the form of micrometric screw 1. A cradle for fastening cutting plate 2 is made on one of its ends. A dowel interacting with the gap of boring bar 6 is made on the other end. Limb in the form of two nuts interacts with screw 1. One of the nuts can be shifted relative to the other in the axial direction sampling thus a gap. The limb is mounted in the bush with nonius and is fixed in it with the aid of the groove of the retaining ring and flexible member made as gaps on the generatrix of the limb disposed on both sides of the retaining ring. EFFECT: enhanced accuracy of the hole working. 1 cl, 14 dwg

Description

 The invention relates to metalworking, in particular to the finishing of holes.

 Known boring head (EE Feldstein. Cutting tool and tooling for CNC machines. Minsk: Higher School, 1988, p.190), including a cutting holder with a clamp, a limb, a spring washer and a clamping washer, as well as a screw that interacts with a tool holder and a boring bar with a washer.

 The disadvantage of this boring head is the complexity of the design and the inaccuracy of adjusting it to size.

 Also known is a boring head containing a cutting holder in the form of a micrometer screw with a gripping plate, a limb mounted in the sleeve. The limb has two nuts that interact with the threads of the tool holder, one of the nuts being able to move axially relative to the other. This is achieved by means of grooves cut in a checkerboard pattern on the cylindrical surface of the limb between the nuts. The limb is connected to the sleeve using a snap ring. Between the end face of the limb and the ring is an elastic element in the form of a wavy washer for sampling gaps in the thread and between the supporting surfaces of the sleeve and the limb.

 The disadvantage of this boring head is the complexity of the design, which consists in the manufacture of an elastic element, in particular a corrugated washer.

 The purpose of the invention is to simplify the design of the device.

 The goal is achieved by the fact that the boring head, which includes a cutting holder in the form of a micrometer screw, on one end of which there is a socket for attaching the cutting insert with a screw and a grip, and on the other a key that interacts with the groove of the boring mandrel, as well as a limb with two nuts. One of the nuts can be displaced in the axial direction relative to the other. The nuts are interfaced with a micrometer screw, and the limb is installed in the sleeve with a vernier and is fixed in it using a retaining ring and an elastic element. The elastic element is made in the form of elastic elements on the generatrix of the limb between the nuts and formed using grooves and located on both sides of the retaining ring.

 Figure 1 shows a General view of the boring head; figure 2 General view, section; figure 3 view B in figure 2; in Fig.4 a section aa in Fig.1; Figures 5,6,7 and 8 show an assembly diagram of a limb, a sleeve and a screw for elastic elements made with slots at an angle to the axis of the limb; Fig.9, 10, 11 and 12 assembly diagram of the limb, sleeve and screw for elastic elements made using grooves perpendicular to the axis of the limb; on Fig and 14 scan of the generatrix of the limb with grooves at an angle and, respectively, perpendicular to the axis of the limb.

 The boring head (microboron) consists of a micrometer screw 1, which acts as a tool holder. At one end of the screw 1 there is a socket for a cutting insert 2, fixed by a screw 3 and a gripper 4, and a key 5 is installed on the other, which has the ability to slide along the groove of the mandrel 6 and prevents rotation of the screw 1. Screw 1 is interfaced with nuts 7 and 8 made in the limb 9. The nuts 7 and 8 are interconnected by elastic elements 10 formed by means of grooves 11 in the generatrix. The grooves 11 can be made at an angle to the axis of the limb 9 or perpendicular to it. Their number and parameters are determined by the necessary rigidity of the elastic element. A prerequisite is the presence of an elastic element 10 on both sides of the groove 12 for the snap ring 13, with which the dial 9 is axially fixed in the sleeve 14. The sleeve 14 has a vernier 15 and is attached to the mandrel 6 with screws 16. The screw 1 is locked after adjustment screw 17 through the liner 18, made of a softer material than screw 1. To adjust and assemble the head on the limb 9 made turnkey places. This is a hexagon 19, and in a design with inclined grooves 11 also flats 20.

 Setting the boring head is as follows.

First, the rotation of the screw 17 in the direction of “expanding” (Fig. 1) detects the micrometer screw 1. Then, by turning the dial 9 relative to the vernier 15, the cutting part of the insert 2 is set to the required size. The accuracy of the adjustment is achieved, firstly, by the appropriate manufacture of the necessary parts, and secondly, by a design that provides a selection of gaps when assembling the head and adjusting it to size. The assembly has its own characteristics and is carried out according to the schemes: according to FIGS. 5,6,7 and 8 for an elastic element 10, made using grooves 11 at an angle to the axis of the limb 9, or according to FIGS. 9, 10, 11 and 12 for an elastic element 10, made using grooves 11 perpendicular to the axis of the limb 9. For both schemes, the assembly occurs in the following sequence. The limb 9 (Fig. 5 or 9) is installed in the sleeve 14 (Fig. 6 or 10) and the screw 1 is screwed only into the nut 7. At this moment, the limb 9 cannot be locked with the ring 13, since the size a <C + S ₁ , where S _{1 the} thickness of the ring 13. The difference in size a and (C + S) determines the degree Δ of interference on the ends of B and D, Δ (C + S) a. To lock the limb 9 in the sleeve 14 with the ring 13, one end of the limb 9 is held by the hexagon 19, for example, in a vice, and the second is twisted by the elastic part 10 or is pulled by the screw 1 using a wrench and flats 20 (Fig. 6).

 As a result, the size of a increases to the necessary, i.e. a> c + S, and the ring 13 is installed in the groove 12 and stops the dial 9 in the sleeve 14.

 Then the torque is removed from the wrench, and due to its elasticity, part of the limb 9 is twisted in the opposite direction and, thus, a gap is selected at the ends B and D and a certain interference is created. Then the end of the limb 9 with the nut 7 is twisted or compressed (Fig. 8) in the opposite direction of the initial twist so that the size b decreases by Δ until the thread steps in the nuts 7 and 8 coincide, and the screw 1 is screwed into the nut 8. Then, the screw the moment is removed from the key and the end of the limb 9 is twisted in the opposite direction due to its elasticity, pulling out the screw 1 and choosing the gaps in the thread. This is because the twist angle is small and the elongation of size Δ is greater than the part of the thread pitch corresponding to this twist angle. Similarly, the assembly is carried out using grooves 11, perpendicular to the axis of the limb 9. In this case, the twisting is replaced only by tension-compression of the elastic element 10. Since the gaps at the ends B and D and the thread are selected in the direction of action of the cutting forces, the rigidity of the elastic element does not affect the accuracy processing sizes. After assembly, the boring head is ready for adjustment and operation.

 The economic efficiency of the proposed device lies in the simplicity of its design.

Claims (2)

 1. BORING HEAD, containing a holder in the form of a micrometer screw, on one end of which a socket for a cutting insert is made, and on the other is a key designed to interact with the groove of the boring mandrel, a limb placed in the sleeve with a vernier mounted on the mandrel, and made in the form of two nuts, coupled to the said screw, connected by an elastic element formed by grooves on the generatrix of the limb fixed in the sleeve by a retaining ring, characterized in that the elastic element is made of two parts, located dix on both sides of the locking ring.  2. The head according to claim 1, characterized in that the said grooves are located at an angle to the axis of the limb.

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