CN2587616Y - Rimae working device for ceramic sleeve - Google Patents

Abstract

The utility model relates to a rima machining device for a ceramic sleeve. The utility model comprises an AC servo motor X used for controlling the movement of a screw rod in an X direction, the screw rod which is fixedly connected, a screw rod nut X used for positioning the movement of the screw rod in the X direction, an AC servo motor X used for controlling the movement of the screw rod in a Y direction, the screw rod which is fixedly connected, a screw rod nut Y used for positioning the movement of the screw rod in the Y direction. The utility model is characterized in that the screw rod fixedly connected with the AC servo motor X is fixed with a push rod, and the head part of the push rod is provided with a slide block; the screw rod nut X and the screw rod nut Y are respectively fixed on a cross beam, and the cross beam is connected with two upright posts; the cross beam is fixedly connected with a swing stem mechanism, one end of the swing stem mechanism is extended in the slide block, and the other end of the swing stem mechanism is fixed with a cutter used for machining the ceramic sleeve. The rima machining device for a ceramic sleeve having the advantages of simple preparing process and high machining precision is suitable for vertical dry process and machining various rimas of the ceramic sleeve.

Description

Insulator Small and Deep Hole Machining device

Technical field: the utility model relates to a kind of insulator Small and Deep Hole Machining device.

Background technology: in the foreign literature about etc. the research report of the small-sized insulator of static compression explained hereafter more, less about the research of large-scale insulator Small and Deep Hole Machining, the report of this respect has HIRAMITSUKUME＜JP〉etc. a kind of electric porcelain insulator production technology that contains aluminium oxide, silica, calcium oxide, sodium oxide molybdena coating of people bulletin: the inside and outside shaping surface instrument of a kind of porcelain insulation sleeve pipe of people such as GALEEV R G bulletin, the mode secured blank that adopts two to compress is utilized rotary cutter processing endoporus.This processing mode is fit to horizontal, wet method processing technology.CERAM group website introduce the large-scale insulator product and the production technology of this group Sweden BROMOLLA plant produced, static compression explained hereafter crude green bodies such as it adopts, the placement level is carried out interior processing at horizontal Boring machine, and then vertical the placement utilized the vertical profile repaired biscuit locomotive shape of going out.For CERAM group website introduce the big product of large-scale porcelain of this group Sweden BROMOLLA plant produced and production operation is comparatively complicated, machining accuracy is low, complicated elongated endoporus processing is existed many technological problemses.

Summary of the invention: the purpose of this utility model is a kind of insulator Small and Deep Hole Machining device of design, and its is fit to vertical, dry process, has that technology is simple, machining accuracy is high, be fit to the fine long endoporus processing of various insulators.

The purpose of this utility model is such realization, design a kind of insulator Small and Deep Hole Machining device, it comprises AC servo motor X that control directions X leading screw moves and fixedly connected leading screw, feed screw nut X that location directions X leading screw moves, AC servo motor Y that control Y direction leading screw moves and fixedly connected leading screw, the feed screw nut Y that location Y direction leading screw moves, it is characterized in that: be fixed with a push rod on the leading screw that AC servo motor X is fixedlyed connected, the push rod head has slide block; Feed screw nut X, feed screw nut Y are separately fixed on the crossbeam, and crossbeam is connected on two columns, and crossbeam is fixedly connected with a swing-bar mechanism, and swing-bar mechanism one end puts in the slide block, and the other end is fixed with the cutter of processing insulator.

Described swing-bar mechanism is " L " type structure, and its short end puts in the slide block, and a long end is fixed with cutter.

Insulator Small and Deep Hole Machining control method, when cnc mechanism control AC servo motor X starts working, AC servo motor X drives fixedly connected leading screw, push rod prolongs directions X and moves, the fixedly connected slide block in push rod end can drive a swing-bar mechanism and slide, cutter on the swing-bar mechanism not only has the variation of Δ X at this moment, and the variation of Δ Y arranged, it no matter is the variation that cutter on the swing-bar mechanism is made Δ X, still make the variation of Δ Y, cnc mechanism all can calculate the variable quantity of Δ Y according to the physical size of swing-bar mechanism, on the Y direction, make correction by cnc mechanism control AC servo motor Y again, realize the accurate control of the depth of cut.

The utility model has the advantages that: because described insulator Small and Deep Hole Machining device, its AC servo motor Y3 is fixedlyed connected with leading screw 5, feed screw nut Y4 is enclosed within on the leading screw 5, feed screw nut Y4 is fixedlyed connected with crossbeam 12, and AC servo motor X2 is fixedlyed connected with feed screw nut X6, and feed screw nut X6 is enclosed within the leading screw 7, leading screw 7 is fixedlyed connected with slide block 9 with push rod 8, slide block 9 slides on swing-bar mechanism 10, and crossbeam 12 slides up and down at column 11, and swing-bar mechanism 10 has been fixed with crossbeam 12 and has been connected.It is to have increased push rod on the basis of original Digit Control Machine Tool, swing-bar mechanism, swing-bar mechanism is " L " type structure, a short end puts in the slide block, a long end is fixed with cutter, when starting working, AC servo motor X drives fixedly connected leading screw, push rod prolongs directions X and moves, the fixedly connected slide block in push rod end can drive a swing-bar mechanism and slide, cutter on the swing-bar mechanism not only has the variation of Δ X at this moment, and the variation of Δ Y arranged, cnc mechanism can calculate the variable quantity of Δ Y according to the physical size of swing-bar mechanism, on the Y direction, make correction by cnc mechanism control AC servo motor Y again, realize the accurate control of the depth of cut.Swing-bar mechanism can be processed into as required and be fit to the elongated endoporus processing dimension of processing different shape insulator, and processing technology is simple, can satisfy the high requirement of machining accuracy.

The utility model is described in further detail below in conjunction with the embodiment accompanying drawing:

Description of drawings: Fig. 1 is the utility model embodiment 1 structural representation.

Among the figure, 1, cnc mechanism; 2, AC servo motor X; 3, AC servo motor Y; 4, feed screw nut Y; 5, leading screw; 6, feed screw nut X; 7, leading screw; 8, push rod; 9, slide block; 10, swing-bar mechanism; 11, column; 12, crossbeam; 13, cutter; 14, column.

Embodiment: embodiment as shown in Figure 1, insulator Small and Deep Hole Machining device, its AC servo motor Y3 is fixedlyed connected with leading screw 5, feed screw nut Y4 is enclosed within on the leading screw 5, feed screw nut Y4 is fixedlyed connected with crossbeam 12, AC servo motor X2 is fixedlyed connected with feed screw nut X6, feed screw nut X6 is enclosed within the leading screw 7, leading screw 7 is fixedlyed connected with slide block 9 with push rod 8, slide block 9 slides on swing-bar mechanism 10, crossbeam 12 slides up and down at column 11 and column 14, and swing-bar mechanism 10 has been fixed with crossbeam 12 and has been connected.AC servo motor X2 that it is moved by control directions X leading screw and fixedly connected leading screw 7, feed screw nut X6 that location directions X leading screw moves, AC servo motor Y3 that control Y direction leading screw moves and fixedly connected leading screw 5, the feed screw nut Y4 that location Y direction leading screw moves, with be fixed with a push rod 8 on the leading screw 7 that AC servo motor X2 is fixedlyed connected, push rod 8 heads have slide block 9; Feed screw nut X6, feed screw nut Y4 are separately fixed on the crossbeam 12, and crossbeam 12 is connected on two columns 11 and 14, and crossbeam 12 is fixedly connected with a swing-bar mechanism 10, and swing-bar mechanism 10 1 ends put in the slide block 9, and the other end is fixed with the cutter 13 of processing insulator.Swing-bar mechanism 10 is " L " type structure, and a short end puts in the slide block 9, a long end fixed cutting tool 13.When cnc mechanism 1 control AC servo motor X2 starts working, because AC servo motor X2 is fixedlyed connected with leading screw 7, leading screw 7 is fixedlyed connected with push rod 8, feed screw nut X6 is enclosed within on the leading screw 7, slide block 9 is slidingly connected with swing-bar mechanism 10, and swing-bar mechanism 10 is fixedlyed connected with crossbeam 12, at this moment, feed screw nut X6, leading screw 7, push rod 8, slide block 9 is at directions X rectilinear motion together, slide block 9 can drive swing-bar mechanism 10 and show an angle delta X, and the cutter 13 on the swing-bar mechanism 10 not only has the variation of Δ X, and the variation of Δ Y arranged, it no matter is the variation that cutter 13 on the swing-bar mechanism 10 is made Δ X, still make the variation of Δ Y, cnc mechanism 1 all can calculate by the directions X amount of movement of AC servo motor X2, makes motion in the other direction by cnc mechanism 1 control AC servo motor Y4 on the Y direction again and revises, and realizes the control of the depth of cut.

Claims (2)

1, insulator Small and Deep Hole Machining device, it comprises AC servo motor X that control directions X leading screw moves and fixedly connected leading screw, feed screw nut X that location directions X leading screw moves, AC servo motor Y that control Y direction leading screw moves and fixedly connected leading screw, the feed screw nut Y that location Y direction leading screw moves, it is characterized in that: be fixed with a push rod on the leading screw that AC servo motor X is fixedlyed connected, the push rod head has slide block; Feed screw nut X, feed screw nut Y are separately fixed on the crossbeam, and crossbeam is connected on two columns, and crossbeam is fixedly connected with a swing-bar mechanism, and swing-bar mechanism one end puts in the slide block, and the other end is fixed with the cutter of processing insulator.

2, insulator Small and Deep Hole Machining device according to claim 1 is characterized in that: described swing-bar mechanism is " L " type structure, and its short end puts in the slide block, and a long end is fixed with cutter.