CN203184948U - Numerical control machining tool rack of novel structure - Google Patents

Abstract

The utility model discloses a numerical control machining tool rack of a novel structure. The numerical control machining tool rack of the novel structure comprises a tool body, tool feet and a standing column and transverse beam, wherein two drainage grooves are formed in the upper portion of the tool body, two X-direction ball guide rails are arranged between the drainage grooves, a plurality of installation holes and fixing holes are formed in the tool body and used for installation of other components of a tool, the standing column and transverse beam comprises two standing columns and a transverse beam, the standing columns and the transverse beam are integrally formed, the standing column and transverse beam is also provided with a plurality of installation holes and fixing holes used for installation of other components of the tool, and two Y-direction ball guide rails arranged up and down are arranged at the right side edge of the transverse beam of the standing column and transverse beam. By the adoption of the integral square structure, bearing capacity is large, the vibration absorption effect is good, deformation is little, the tool feet support the rack independently in a four-point mode, supporting force is dispersed to be processed, the structure is stable, the drainage grooves drain water in a centralized mode within a small area, and steam prevention performance is good.

Description

The frame of the numerical control machine tool of new structure

Technical field

The utility model relates to machining tool, particularly the frame of the numerical control machine tool of the new structure in the workbench.

Background technology

China's machine-tool industry both had been faced with the demand of elevating mechanism manufacturing industry level and the good opportunity that causes, also suffered from intense market competition pressure.From technological layer, accelerating to advance Numeric Control Technology will be a key that solves the machine-tool industry sustainable development.The technical merit of equipment manufacture and up-to-dateness are determining level and the up-to-dateness of whole national economy.Various countries, world today manufacturing industry extensively adopts Numeric Control Technology, to improve manufacturing capacity and level, improves adaptive capacity and competitiveness to dynamic changeable market.Digit Control Machine Tool becomes the main flow of machine industry already, and when keeping increasing fast, industrial upgrading and structural adjustment are carried out and also obtained effect, rely on autonomous innovation, and technical products is accelerated to high-end upgrading paces.At following 3-5, the thriving demand of China NC Machine industry will keep rapid growth, the bigger market space will be welcome, growth rate of market will reach 12%, this will drive the development of China's domestic numerical control lathe and digital control system and correlation function parts, also undoubtedly for domestic digital control system production firm constantly develops own technology, expansion market provides fabulous opportunity.

Because machining center can the concentrated area, automatically finish working procedures, artificial operate miss, the adjustment time that has reduced clamping workpiece, measurement and lathe and workpiece turnover, carrying and resting period have been avoided, working (machining) efficiency and machining accuracy have been improved greatly, so have good economic benefit.Particularly it can finish the processing that many conventional equipments can not be finished, and complicated to shape, the many variety production of the single-piece work that required precision is high or small batch are more suitable.

At present, the structural member of machinery equipment etc. all is ironcasting, there is thermal stress, machining stress etc., slowly distortion, and rigidity and intensity are not very high, have destroyed the precision of equipment, not too are fit to efficient high-accuracy part processing, and cast iron class lathe is because the requirement of processing technology, as tempering, annealing, quenching, Ageing Treatment etc., make the technology chain length, thereby to the control of its precision also difficulty reach, the production cost height is arranged, cause long critical defect of cycle.

Summary of the invention

Goal of the invention of the present utility model is in order to overcome the shortcoming of above-mentioned background technology, a kind of frame of numerical control machine tool of new structure to be provided.

The technical solution of the utility model is: a kind of frame of numerical control machine tool of new structure, comprise lathe bed, cabinet base, stand column and beam, described lathe bed is cube structure, the lathe bed top is provided with two rhones, be provided with two directions X spherical guides between the described rhone, lathe bed is provided with some for installing hole and fixing hole that all the other members of lathe are installed, described stand column and beam comprises integrated two root posts and a crossbeam, also be provided with some installing hole and fixing holes for all the other members of installation lathe on the stand column and beam, the crossbeam right edge position of stand column and beam is provided with two Y-direction spherical guides that are arranged above and below.

Described lathe bed, cabinet base, stand column and beam all adopt marble material to make.

The generous of described stand column and beam is 200*220mm.

Distance between described directions X spherical guide and the rhone is 56mm.

Distance between described two directions X spherical guides is 408mm.

Described lathe bed length and width are thick to be 1200*1320*220mm.

The beneficial effects of the utility model are: the utility model adopts whole square structure, bearing capacity is big, shock attenuation result is good, deflection is small, cabinet base is in 4 independent modes of supporting, the holding power dispersion treatment, Stability Analysis of Structures, rhone is with small size central drainage pattern, and anti-aqueous vapor performance is good, and stand column and beam is generous planar structure, intensity is big, precision is high, more Canon enough adapts to the process requirements of high rotating speed, high feeding, high rigidity, more can adapt to the machine of two main shafts, three main shafts and more main shaft numbers, and make easy installation and reliable.Through meticulous product design, have first-class machine tool structure, the body rigidity is strong, carries the main shaft of high rigidity, anti-heavy cut, working (machining) efficiency is high, steady structure as if huge rock, the basis of having established rigidity and the precision of good machine, size is accurate, and machined surface is smooth careful, has improved production efficiency greatly.

Description of drawings

Fig. 1 is the structural representation of the utility model lathe bed;

Fig. 2 is the structural representation of the utility model stand column and beam;

Fig. 3 is the utility model structural representation;

Wherein: 1, lathe bed, 2, cabinet base, 3, rhone, 4, fixing hole, 5, the directions X spherical guide, 51, the directions X spherical guide installs locating piece, 6, directions X spherical guide installing hole, 7, the holder locating hole, 8, the crossbeam fixing hole, 9,106, hole for hoist, 10, stand column and beam, 101, the screw rodb base installing hole, 102, fixing hole, 103, the Y-direction spherical guide installs locating piece, 104, Y-direction spherical guide installing hole, 105, electric installing hole.

The specific embodiment

Present embodiment is a kind of frame of numerical control machine tool of new structure, and it comprises lathe bed 1, cabinet base 2, stand column and beam 10.

Lathe bed 1 is cube structure as shown in Figure 1, the top of lathe bed 1 is provided with two rhones 3, be provided with two directions X spherical guides between the described rhone 3 locating piece 51 is installed, described directions X spherical guide is installed between locating piece 51 and the rhone 3 and is provided with directions X spherical guide installing hole 6, both sides, lathe bed upper end are provided with fixing hole 4, be provided with holder locating hole 7 between the both sides fixing hole 4, be provided with crossbeam fixing hole 8 between holder locating hole and the left side fixing hole 4, the side end positions place of lathe bed 1 is provided with hole for hoist 9, and the below of lathe bed 1 is provided with four cabinet bases 2.

Stand column and beam as shown in Figure 2,10 is generous stereochemical structure, right positions place, stand column and beam 10 upper end is provided with two Y-direction spherical guides that are arranged above and below locating piece 103 is installed, described two Y-direction spherical guides are installed locating piece 103 both sides and are provided with screw rodb base installing hole 101, the top that each Y-direction spherical guide is installed locating piece 103 is provided with Y-direction spherical guide installing hole 104, stand column and beam 10 belows are provided with fixing hole 102, the top is provided with electric installing hole 105, and side is provided with hole for hoist 106.

Distance between directions X spherical guide and the rhone is 56mm as shown in Figure 1, article two, the distance between the directions X spherical guide is 408mm, if the distance between directions X spherical guide and the rhone is crossed conference and is made and can not closely be connected between each assembly, if the too small meeting of the distance between directions X spherical guide and the rhone causes cooling water too much wandering, poor sealing.If the distance two between the directions X spherical guide is crossed conference and is caused insufficient space, too small stationarity and the machining accuracy that can influence lathe of distance between two directions X spherical guides.

The lathe bed of this equipment, cabinet base, members such as stand column and beam are marble, be out of shape little, the rigidity height, manufacturing process is simple, the element precision height of processing, rigging error is less, has complied with efficient high-accuracy production development direction.

The conventional machines that current market uses has certain limitation, and this equipment combines the product technology trend of present process requirements and following industry-by-industry, has carried out comprehensive innovative design.

Claims (6)

1. the frame of the numerical control machine tool of a new structure, comprise lathe bed, cabinet base, stand column and beam, it is characterized in that described lathe bed is cube structure, the lathe bed top is provided with two rhones, be provided with two directions X spherical guides between the described rhone, lathe bed is provided with some for installing hole and fixing hole that all the other members of lathe are installed, described stand column and beam comprises integrated two root posts and a crossbeam, also be provided with some installing hole and fixing holes for all the other members of installation lathe on the stand column and beam, the crossbeam right edge position of stand column and beam is provided with two Y-direction spherical guides that are arranged above and below.

2. the frame of the numerical control machine tool of new structure according to claim 1 is characterized in that described lathe bed, cabinet base, stand column and beam all adopt marble material to make.

3. the frame of the numerical control machine tool of new structure according to claim 1, what it is characterized in that described stand column and beam generously is 200*220mm.

4. the frame of the numerical control machine tool of new structure according to claim 1 is characterized in that the distance between described directions X spherical guide and the rhone is 56mm.

5. the frame of the numerical control machine tool of new structure according to claim 1 is characterized in that the distance between described two directions X spherical guides is 408mm.

6. the frame of the numerical control machine tool of new structure according to claim 1 is characterized in that the thick 1200*1320*220mm of being of described lathe bed length and width.

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