CN105081789B

CN105081789B - High-accuracy carving and milling machine

Info

Publication number: CN105081789B
Application number: CN201510566690.1A
Authority: CN
Inventors: 陆庆年; 姚先凯
Original assignee: SUZHOU EASSON OPTOELECTRONICS CO Ltd
Current assignee: SUZHOU EASSON OPTOELECTRONICS CO Ltd
Priority date: 2013-07-16
Filing date: 2013-07-16
Publication date: 2017-10-24
Anticipated expiration: 2033-07-16
Also published as: CN103358163B; CN105081789A; CN103358163A

Abstract

The present invention discloses a kind of high-accuracy carving and milling machine, including column, base, workbench, the head for being provided with cutter, the first steel ring cap, the second steel steel ring cap, the 3rd steel ring cap, the 4th steel steel ring cap and the supporting plate between base and workbench；End face of the two ends of one buffer spring respectively with first steel ring cap, the second steel steel ring cap is fixedly connected, stationary half one end is fixed in elastic semi-ring one end, gap is left between elastic the semi-ring other end and the stationary half other end and by the bolt connection for adjusting this gap distance；First steel ring cap, the second steel steel ring cap, the 3rd steel ring cap, the 4th steel steel ring cap each include basic ring seat and are fixed on the stationary half of basic ring seat end face；The upper surface of the workbench has several installation grooves.The high-accuracy carving and milling machine of the present invention prevents motor output shaft and leading screw bias, error, and caused damage, deformation improve Product Precision and efficiency.

Description

High-accuracy carving and milling machine

Technical field

The present invention relates to a kind of Digit Control Machine Tool, more particularly to a kind of high-accuracy carving and milling machine.

Background technology

Milling machine is the main lathe being processed with cutter head to the workpiece of rotation.Also can use on milling machine drill bit, reamer, Reamer, screw tap, screw die and Digit Control Machine Tool checkering tool etc. are processed accordingly.Milling machine be mainly used in processing axle, disk, set and its He has the workpiece of rotary surface, is using a most wide class lathe in machine-building and repair factory.

Existing Digit Control Machine Tool bearing capacity is weak, and machining accuracy and formed product efficiency are low, how to design a kind of bearing capacity strong, high The Digit Control Machine Tool that precision, high speed, machining accuracy are high, formed product rate is high, the direction made great efforts as those skilled in the art.

The content of the invention

The present invention provides a kind of high-accuracy carving and milling machine, this high-accuracy carving and milling machine prevent motor output shaft and leading screw it is eccentric, Error, caused damage, deformation, improves Product Precision and efficiency, it is ensured that the reliability of product.

To reach above-mentioned purpose, the technical solution adopted by the present invention is：A kind of high-accuracy carving and milling machine, including column, base, Workbench, the head for being provided with cutter, the first steel ring cap, the second steel steel ring cap, the 3rd steel ring cap, the 4th steel steel ring cap and it is located at Supporting plate between base and workbench, the column is fixed on base upper surface, and the head is located at the column upper side Face and on the table side；

The column includes cylinder, is individually fixed in the first support feet and the second support feet of cylinder lower surface both sides, should First support feet, the second support feet, which are individually fixed in, is fixed on base upper surface both sides, so that in the first support feet, the second support Vacancy section is formed between pin, base and cylinder；

The workbench lower surface is abreast fixed with least two x to sliding block, and the support plate upper surface is parallel to be fixed with Two x are to line rail, and the x is embedded in x into the groove of sliding block to line rail, an x to drive mechanism be located at two x between line rail and Below workbench, the x includes x to motor, x to nut, embedded x to the x of nut to leading screw, x to base bearing to drive mechanism Seat and x are to from bearing block, and the x is embedded in x to main shaft by x to base bearing mechanism, x to from Bearning mechanism respectively to leading screw two ends Bearing, x are to out of bearing block each through hole, and x is fixed on workbench lower surface to nut, and x is installed on x to main bearing seat to motor Outside；

It is embedded in positioned at x to the in-house x of base bearing to leading screw leading section in the first steel ring cap, the x is to motor output shaft In embedded second steel steel ring cap, the end of the two ends of one first buffer spring respectively with first steel ring cap, the second steel steel ring cap Face is fixedly connected；

End face of the two ends of one buffer spring respectively with first steel ring cap, the second steel steel ring cap is fixedly connected, described First steel ring cap, the second steel steel ring cap each include basic ring seat and are fixed on the stationary half of basic ring seat end face, elastic semi-ring Stationary half one end is fixed in one end, and gap is left and by for adjusting between elastic the semi-ring other end and the stationary half other end Save the bolt connection of this gap distance；

The supporting plate lower surface is abreast fixed with least two y to sliding block, and the base upper surface is parallel to be fixed with two Individual y is to line rail, and the y is embedded in y into the groove of sliding block to line rail, a y to drive mechanism be located at two y between line rail and Below supporting plate, the y includes y to motor, y to nut, embedded y to the y of nut to leading screw, y to main bearing seat to drive mechanism With y to from bearing block, the y is embedded in y to base bearing by y to base bearing mechanism, y to from Bearning mechanism respectively to leading screw two ends Seat, y are to out of bearing block each through hole, and y is fixed on supporting plate lower surface to nut, and y is installed on y to outside main bearing seat to motor Side；

It is embedded in positioned at y to the in-house y of base bearing to leading screw leading section in the 3rd steel ring cap, the y is to motor output shaft In embedded 4th steel steel ring cap, the end of the two ends of one second buffer spring respectively with the 3rd steel ring cap, the 4th steel steel ring cap Face is fixedly connected；

First steel ring cap, the second steel steel ring cap, the 3rd steel ring cap, the 4th steel steel ring cap each include basic ring seat and The stationary half of basic ring seat end face is fixed on, stationary half one end is fixed in elastic semi-ring one end, and the elastic semi-ring other end is with consolidating Determine to leave gap and by the bolt connection for adjusting this gap distance between the semi-ring other end；

The head side is abreast fixed with least two z to sliding block, and the column is parallel with the side that head is faced solid Surely have two z to line rail, the z is embedded in z into the groove of sliding block to line rail, a z to drive mechanism be located at two z to line rail it Between, the z includes z to motor, z to nut, embedded z to the z of nut to leading screw, the upper table mask of the workbench to drive mechanism There are several that groove is installed.

Because above-mentioned technical proposal is used, the present invention has following advantages compared with prior art：

1. high-accuracy carving and milling machine of the invention, the first steel loop is embedded in positioned at x to the in-house x of base bearing to leading screw leading section In set, the x is embedded in the second steel steel ring cap to motor output shaft, the two ends of one first buffer spring respectively with first steel Ring set, the end face of the second steel steel ring cap are fixedly connected, the two ends of a buffer spring respectively with first steel ring cap, the second steel steel The end face of ring set is fixedly connected, and first steel ring cap, the second steel steel ring cap each include basic ring seat and be fixed on basic ring seat Stationary half one end, the elastic semi-ring other end and the stationary half other end are fixed in the stationary half of end face, elastic semi-ring one end Between leave gap and by the bolt connection for adjusting this gap distance；Prevent motor output shaft with leading screw bias, by mistake Difference, caused damage, deformation, improves Product Precision and efficiency, it is ensured that the reliability of product.

2. high-accuracy carving and milling machine of the invention, its column includes cylinder, is individually fixed in first of cylinder lower surface both sides Spike and the second support feet, first support feet, the second support feet, which are individually fixed in, is fixed on base upper surface both sides, so that Vacancy section is formed between first support feet, the second support feet, base and cylinder, bearing capacity is strong, substantially reduces lathe x, y-axis To floor space.

Brief description of the drawings

Accompanying drawing 1 is high-accuracy carving and milling machine main structure diagram of the invention；

Accompanying drawing 2 is the left view structural representation of accompanying drawing 1；

Accompanying drawing 3 is structural representation at A in accompanying drawing 1；

Accompanying drawing 4 is structural representation at B in accompanying drawing 2；

Accompanying drawing 5 is the right side structural representation of accompanying drawing 1；

Accompanying drawing 6 is that accompanying drawing 2 overlooks partial structural diagram；

Accompanying drawing 7 is x of the present invention to drive mechanism partial structural diagram；

Accompanying drawing 8 is y of the present invention to drive mechanism partial structural diagram.

In the figures above：1st, column；101st, cylinder；102nd, the first support feet；103rd, the second support feet；2nd, base；3rd, work Make platform；4th, cutter；5th, head；6th, supporting plate；7th, x is to sliding block；8th, x is to line rail；9th, x is to drive mechanism；91st, x is to motor；92、x To nut；93rd, x is to leading screw；94th, x is to main bearing seat；95th, x is to from bearing block；96th, x is to base bearing mechanism；97th, x is to from bearing Mechanism；10th, x is to buffer coupling；11st, y is to sliding block；12nd, y is to line rail；13rd, y is to drive mechanism；131st, y is to motor；132、y To nut；133rd, y is to leading screw；134th, y is to main bearing seat；135th, y is to from bearing block；136th, y is to base bearing mechanism；137th, y to From Bearning mechanism；14th, y is to buffer coupling；15th, z is to sliding block；16th, z is to line rail；17th, z is to drive mechanism；171st, z is to motor； 172nd, z is to nut；173rd, z is to leading screw；The 18th, groove is installed；19th, the first steel ring cap；20th, the second steel steel ring cap；21st, the first buffering Spring；22nd, basic ring seat；23rd, stationary half；24th, elastic semi-ring；26th, the 3rd steel ring cap；27th, the 4th steel steel ring cap；28th, second Buffer spring.

Embodiment

Below in conjunction with the accompanying drawings and embodiment the invention will be further described：

Embodiment：A kind of high-accuracy carving and milling machine, including column 1, base 2, workbench 3, the head 5 for being provided with cutter 4, One steel ring cap 19, the second steel steel ring cap 20, the 3rd steel ring cap 26, the 4th steel steel ring cap 27 and between base 2 and workbench 3 Supporting plate 6, the column 1 is fixed on the upper surface of base 2, and the head 5 is located at the upper side of column 1 and in workbench 3 tops；

The column 1 includes cylinder 101, is individually fixed in the first support feet 102 and second of the lower surface both sides of cylinder 101 Support feet 103, first support feet 102, the second support feet 103, which are individually fixed in, is fixed on the upper surface both sides of base 2, so that Vacancy section is formed between first support feet 102, the second support feet 103, base 2 and cylinder 101；

The lower surface of workbench 3 is abreast fixed with least two x to sliding block 7, and the upper surface of supporting plate 6 is parallel solid Surely there are two x to line rail 8, the x is embedded in x into the groove of sliding block 7 to line rail 8, and an x is located at two x to line to drive mechanism 9 Between rail 8 and below workbench 3, the x includes x to motor 91, x to nut 92, embedded xs of the x to nut 92 to drive mechanism 9 To leading screw 93, x to main bearing seat 94 and x to from bearing block 95, the x is to the two ends of leading screw 93 respectively by x to base bearing mechanism 96th, x is embedded in x to main bearing seat 94, x to out of bearing block 97 respective through hole to from Bearning mechanism 97, and x is fixed on work to nut 92 Make the lower surface of platform 3, x is installed on x to the outside of main bearing seat 94 to motor 91；

It is embedded in positioned at xs of the x into base bearing mechanism 96 to the leading section of leading screw 93 in the first steel ring cap 19, the x is to motor 91 output shafts are embedded in the second steel steel ring cap 20, the two ends of one first buffer spring 21 respectively with first steel ring cap 19, the The end face of two steel steel ring caps 20 is fixedly connected；

The two ends of one buffer spring 21 are fixed with the end face of first steel ring cap 19, the second steel steel ring cap 20 respectively to be connected Connect, first steel ring cap 19, the second steel steel ring cap 20 each include basic ring seat 22 and be fixed on consolidating for basic ring 22 end faces of seat Determine semi-ring 23, the one end of stationary half 23 is fixed in elastic one end of semi-ring 24, and the elastic other end of semi-ring 24 and stationary half 23 are another Gap is left between end and by the bolt connection for adjusting this gap distance；

The lower surface of supporting plate 6 is abreast fixed with least two y to sliding block 11, the parallel fixation in the upper surface of base 2 Have two y to line rail 12, the y is embedded in y into the groove of sliding block 11 to line rail 12, a y to drive mechanism 13 be located at two y to Between line rail 12 and below supporting plate 6, the y includes y to motor 131, y to nut 132, embedded y to spiral shell to drive mechanism 13 The y of mother 132 is to leading screw 133, y to main bearing seat 134 and y to from bearing block 135, and the y passes through y respectively to the two ends of leading screw 133 Y is embedded in main bearing seat 134, y to out of bearing block 135 respective through hole to base bearing mechanism 136, y to from Bearning mechanism 137, y The lower surface of supporting plate 6 is fixed on to nut 132, y is installed on y to the outside of main bearing seat 134 to motor 131；

It is embedded in positioned at ys of the y into base bearing mechanism 136 to the leading section of leading screw 133 in the 3rd steel ring cap 26, the y is to electricity The output shaft of machine 131 is embedded in the 4th steel steel ring cap 27, the two ends of one second buffer spring 28 respectively with the 3rd steel ring cap 26, The end face of 4th steel steel ring cap 27 is fixedly connected；

First steel ring cap 19, the second steel steel ring cap 20, the 3rd steel ring cap 26, the 4th steel steel ring cap 27 each include The one end of stationary half 23 is fixed in basic ring seat 22 and the stationary half 23 for being fixed on basic ring 22 end faces of seat, elastic one end of semi-ring 24, Gap is left between the elastic other end of semi-ring 24 and the other end of stationary half 23 and by the bolt for adjusting this gap distance Connection；

The side of head 5 is abreast fixed with the side that at least two z is faced to sliding block 15, the column 1 with head 5 Parallel to be fixed with two z to line rail 16, the z is embedded in z into the groove of sliding block 15 to line rail 16, and a z is to drive mechanism 17 In two z between line rail 16, the z includes z to motor 171, z to nut 172, embedded z to nut 172 to drive mechanism 17 Z is to leading screw 173.

The upper surface of above-mentioned workbench 3 has several installation grooves 18.

The above embodiments merely illustrate the technical concept and features of the present invention, and its object is to allow person skilled in the art Scholar can understand present disclosure and implement according to this, and it is not intended to limit the scope of the present invention.It is all according to the present invention The equivalent change or modification that Spirit Essence is made, should all be included within the scope of the present invention.

Claims

1. a kind of high efficiency Digit Control Machine Tool, it is characterised in that：Including column（1）, base（2）, workbench（3）, cutter is installed （4）Head（5）, the first steel ring cap（19）, the second steel steel ring cap（20）, the 3rd steel ring cap（26）, the 4th steel steel ring cap（27） With positioned at base（2）And workbench（3）Between supporting plate（6）, the column（1）It is fixed on base（2）Upper surface, the machine Head（5）Positioned at the column（1）Upper side and in workbench（3）Top；

The column（1）Including cylinder（101）, be individually fixed in cylinder（101）First support feet of lower surface both sides（102）With Second support feet（103）, first support feet（102）, the second support feet（103）It is individually fixed in base（2）Upper surface both sides, So as in the first support feet（102）, the second support feet（103）, base（2）And cylinder（101）Between form vacancy section；

The workbench（3）Lower surface is abreast fixed with least two x to sliding block（7）, the supporting plate（6）Upper surface is parallel Two x are fixed with to line rail（8）, the x is to line rail（8）X is embedded in sliding block（7）Groove in, an x is to drive mechanism（9）Position In two x to line rail（8）Between and in workbench（3）Lower section, the x is to drive mechanism（9）Including x to motor（91）, x is to nut （92）, embedded x is to nut（92）X to leading screw（93）, x is to main bearing seat（94）With x to from bearing block（95）, the x is to silk Thick stick（93）Two ends are respectively by x to base bearing mechanism（96）, x is to from Bearning mechanism（97）X is embedded in main bearing seat（94）, x to From bearing block（97）In respective through hole, x is to nut（92）It is fixed on workbench（3）Lower surface, x is to motor（91）Be installed on x to Main bearing seat（94）Outside；

Positioned at x to base bearing mechanism（96）Interior x is to leading screw（93）Leading section is embedded in the first steel ring cap（19）Interior, the x is to electricity Machine（91）Output shaft is embedded in the second steel steel ring cap（20）It is interior, one first buffer spring（21）Two ends respectively with first steel loop Set（19）, the second steel steel ring cap（20）End face be fixedly connected；

The supporting plate（6）Lower surface is abreast fixed with least two y to sliding block（11）, the base（2）Upper surface is parallel solid Surely there are two y to line rail（12）, the y is to line rail（12）Y is embedded in sliding block（11）Groove in, a y is to drive mechanism（13） Positioned at two y to line rail（12）Between and in supporting plate（6）Lower section, the y is to drive mechanism（13）Including y to motor（131）、y To nut（132）, embedded y is to nut（132）Y to leading screw（133）, y is to main bearing seat（134）With y to from bearing block （135）, the y is to leading screw（133）Two ends are respectively by y to base bearing mechanism（136）, y is to from Bearning mechanism（137）Embedded y To main bearing seat（134）, y is to from bearing block（135）In respective through hole, y is to nut（132）It is fixed on supporting plate（6）Lower surface, Y is to motor（131）Y is installed on to main bearing seat（134）Outside；

Positioned at y to base bearing mechanism（136）Interior y is to leading screw（133）Leading section is embedded in the 3rd steel ring cap（26）It is interior, the y to Motor（131）Output shaft is embedded in the 4th steel steel ring cap（27）It is interior, one second buffer spring（28）Two ends respectively with the described 3rd Steel ring cap（26）, the 4th steel steel ring cap（27）End face be fixedly connected；

First steel ring cap（19）, the second steel steel ring cap（20）, the 3rd steel ring cap（26）, the 4th steel steel ring cap（27）Each Including basic ring seat（22）Be fixed on basic ring seat（22）The stationary half of end face（23）, elastic semi-ring（24）Fixation is fixed in one end Semi-ring（23）One end, elastic semi-ring（24）The other end and stationary half（23）Gap is left between the other end and by for adjusting The bolt connection of this gap distance；

The head（5）Side is abreast fixed with least two z to sliding block（15）, the column（1）With head（5）Face It is parallel sideways to be fixed with two z to line rail（16）, the z is to line rail（16）Z is embedded in sliding block（15）Groove in, a z is to drive Motivation structure（17）Positioned at two z to line rail（16）Between, the z is to drive mechanism（17）Including z to motor（171）, z is to nut （172）, embedded z is to nut（172）Z to leading screw（173）；The workbench（3）Upper surface have several installation groove （18）.