CN201313922Y - Numerical control press quenching machine tool for measuring pressure - Google Patents

Abstract

The utility model relates to heat treatment equipment, in particular to a transmission system of a numerical control press quenching machine tool for measuring pressure, and the transmission system can control the pressure during quenching accurately. In order to realize the purpose, the technical scheme of the utility model is that the transmission system of the numerical control press quenching machine tool for measuring pressure comprises a transmission device arranged on the machine tool and capable of driving an upper mould to move up and down and a movable cross beam arranged on the upper mould. The utility model is characterized in that the transmission device mainly comprises a servomotor, a transmission chain and a ball screw assembly; the ball screw is connected with the movable cross beam; a pressure measuring transducer is installed on the movable cross beam and signals of the pressure measuring transducer are transmitted to a control system; and the servomotor is electrically connected with the control system. The device achieves the purpose of controlling the corresponding relation of the pressure exerted on a quenched workpiece and the time through closed-loop control, so that the quenched workpiece is processed according to the designed quenching technique all the time during the process of quenching, which is no doubt a great technical promotion to the quenching of important parts.

Description

Die quenching machine tool for numerical control force measurement

Technical field

The utility model relates to a kind of Equipment for Heating Processing, the die quenching machine tool for numerical control force measurement of the particularly a kind of displacement that can accurately control mould when quenching, mould die pressure maintenance during to the pressure of the workpiece of being quenched and mould null displacement.

Background technology

In quenching process, because long-time heating and sharply cooling are difficult to avoid by the distortion of quench part, especially for the gear of thin-wall bearing Internal and external cycle, various integral quenching, this problem is particularly outstanding.For solving bearing, the gear quenching process is uncontrollable, being out of shape excessive causing does over again and problem that scrap rate is high, people have done a large amount of work, applied for " railway bearing inner and outer ring quenching apparatus " on April 10th, 2006 as the inventor, number of patent application is 200610076933.4 patent of invention, this equipment comprises base, be fixed on two columns and the crossbeam that is installed on the column on the base, on the movably box worktable bed die is installed, the mold and the cooling oil cover that match with bed die are installed on the moved cross beam moving up and down, when box movable workbench arrives with the mold opposite position, quenching just can enter up and down in the mould with cooling oil, to the about quenching beam of part, when guaranteeing the workpiece quenching hardness, can effectively reduce workpiece quenching deformation like this.But the special-purpose quenching apparatus that aforesaid device is a kind of hydraulic loaded, must accurately not control displacement and load, for quenching process is required quenching situation harsh, that need accurate control die shift and the pressure of the workpiece of being quenched is controlled in good time, aforesaid device is just powerless.

Summary of the invention

The utility model has been used for reference the fuselage and the Working table structure of above-mentioned patent, the loading system of lathe has been done brand-new design, and load cell and joint have been designed at the carrying position of mould, driving, dynamometry, feedback control system by brand-new design, the whole process of quenching is controlled in good time and detected, its objective is needs according to the quenching workpiece, provide a kind of die shift and the numerical control force measurement die quenching press accurately controlled of pressure that can be when quenching, to satisfy the quenching demand of high-precision part.

For realizing the purpose of this utility model, the technical scheme that is adopted is: a kind of die quenching machine tool for numerical control force measurement, comprise bed piece, worktable, be installed in the bed die of the fixation workpiece on the worktable, be installed in the mold of the fixation workpiece on the moving beam and drive the transmission mechanism that moving beam moves, it is characterized in that above-mentioned transmission mechanism places the lathe top, mainly by servomotor and rotary encoder group, transmission chain and ball screw assembly, are formed, ball-screw in the ball screw assembly, or nut link to each other with moving beam or slide block, load cell is installed between moving beam and the mold, the signal of load cell passes to Controlling System, and servomotor and rotary encoder group are electrically connected with Controlling System.

Above-mentioned transmission chain is made up of the speed reduction unit that links to each other with servomotor and the active profile of tooth belt wheel, the synchronous cog belt that link to each other with the speed reduction unit output terminal and the passive profile of tooth belt wheel that links to each other with ball screw assembly.

On the coaxial nut that is installed in the ball screw assembly, of above-mentioned passive profile of tooth belt wheel, the lower end of ball-screw and moving beam or slide block are hinged.

Fixedly connected with passive profile of tooth belt wheel in the upper end of the ball-screw in the above-mentioned ball screw assembly,, nut and moving beam in the ball screw assembly, are fixedly linked.

The lower end of above-mentioned ball-screw links to each other with bed piece is rotatable.

Above-mentioned load cell is a pull pressure sensor.

The utility model is on existing quenching machine basis, according to the requirement that quilt quenching workpiece is exerted pressure, design has accurate ball screw assembly,, meet servomotor-rotary encoder group and Controlling System that motivating force requires, pass through step-down gear, be with synchronously, drive the rotation of ball-screw or nut, the effect of ball screw assembly, is rotatablely moving servomotor, be converted to the controlled of moving beam, accurate straight line moves and the driving torque of servomotor is converted into pressure, by moving beam or slide block-load cell-mold-quenching workpiece-the be installed in bed die on the worktable, quilt quenching workpiece is exerted pressure, the size of pressure is recorded by load cell, feed back via electric system, control, regulate the output corner and the output torque of servomotor, by closed-loop control, reaching control is applied to by the corresponding relation of pressure on the quenching workpiece and time, make by the quenching workpiece in quenching process, all the time the quenching technology curve according to design carries out, and this is for quenching huge skill upgrading beyond doubt of strength member.

Above-mentioned ball-screw and nut, different according to the quenching machine structure with job requirement, can be the leading screw rotation, the nut straight line moves, and also can be the nut rotation, and the leading screw straight line moves, driving link is by the servomotor driven rotary, and Passive part drives moving beam or slide block moves.

Above-mentioned ball-screw and nut can be ball-screw and the nuts that is opposite to the parallel distribution of two couples in " door " shape fuselage two columns, also can be to place in the middle of the moving beam or " C " shape single armed single ball-screw of fuselage intermediary and nut.Moving beam or slide block move along the vertical guideway that is installed on the fuselage, have guaranteed the precision of motion.For traverser, guide rail then is installed on base, worktable is motion on request on guide rail.

For the quenching machine of " C " shape single armed fuselage, its slide block also just is equivalent to the moving beam in the quenching machine of " door " shape fuselage.Mold links to each other with slide block by load cell.

Characteristics of the present utility model are:

1, for satisfying the requirement of different parts quenching operating modes, exerting oneself of this quenching apparatus can reach 0-500kN, and the dynamometry precision can reach ± 1% full range, and translational speed can satisfy the quenching requirement of various product substantially at 0.01-2000mm/min.

2, owing to the singularity of quenching technology, the drive system of moving beam all places top, lathe top, can avoid drive system to suffer the erosion and the pollution of cooling oil, and the securing system works better has improved convenience for maintenance and repair simultaneously.

3, the mariages thick stick for " door " shape fuselage drags structure, and main loading bearing places the leading screw bottom, and last driving is carrying down, makes leading screw tension at work, reduces the leading screw diameter, avoids unstability.

4, variable zero, because the height difference of quench part is big, the fixed stroke can prolong the time that low workpiece is gone into oil, the different idle motion of workpiece setting of pressing different heights has not only improved efficient but also satisfied the requirement of going into the oil time.

5, non-displacement loads, and by the quenching technology requirement, behind the mould workpiece pressing, displacement is zero, but must continue to exert pressure to resist by the deformation force of quenching workpiece to mould, guarantees the stable and consistence of quenching workpiece size.

6, the Controlling System that adopts of quenching process is computer control, and data are gathered in good time, digital demonstration, storage, printing and network communication.

Description of drawings

Accompanying drawing 1 drags the structural representation of quenching machine for " door " of the present utility model shape mariages thick stick;

Accompanying drawing 2 is the structural representation of " C " of the present utility model shape single armed quenching machine;

Accompanying drawing 3 drags the structural representation of quenching machine for " door " of the present utility model shape monofilament thick stick.

Embodiment

In Fig. 1,2,3,1-base, 2-worktable, 3-bed die, 4-vertical guideway, 5-mold, 6-load cell, 7-moving beam, 8-nut, 9-ball-screw, 10-passive profile of tooth belt wheel, 11-servomotor and rotary encoder group, 12-speed reduction unit, 13-active profile of tooth belt wheel, 14-synchronous cog belt, 15-lathe bed, 16-slide block.

Embodiment 1:

As shown in Figure 1, this quenching machine drags quenching machine for " door " shape mariages thick stick.Worktable 2 is installed on the base 1, the bed die 3 that is used for fixing by the quenching workpiece is installed on worktable, be used for fixing by the mold 5 of quenching workpiece and be installed on the moving beam 7 by load cell 6, moving beam 7 can move up and down along the vertical guideway on the bed piece 15 4.On lathe bed 15 tops servomotor and rotary encoder group 11 are installed, servomotor drives speed reduction unit 12 rotations, initiatively profile of tooth belt wheel 13 is installed on the output shaft of speed reduction unit by key, drive two passive profile of tooth belt wheel 10 rotations by synchronous cog belt 14, the upper end of the ball-screw 9 in two passive profile of tooth belt wheels 10 and the ball screw assembly, is connected by key, and two nuts 8 in the ball screw assembly, are fixed on the two ends, the left and right sides of moving beam.During quenching, will be installed in the bed die by the quenching workpiece, at this moment servomotor-speed reduction unit-profile of tooth transmission chain drive ball-screw rotates, and nut is done downward straight line and moved, and drives moving beam-load cell-mold and moves down.After mold will be compressed by the pressure that configures by the quenching workpiece, quench.In quenching process, load cell is given Controlling System with pressure signal transmission, by Controlling System control signal is fed back to servomotor, by the output corner and the output torque of control servomotor, adjusts the size of quenching pressure.

Embodiment 2:

Present embodiment at be the quenching machine of " C " shape fuselage.As shown in Figure 2, worktable 2 is installed on the base 1, the bed die 3 that is used for fixing by the quenching workpiece is installed on the worktable 2, is used for fixing by the mold 5 of quenching workpiece and is installed on the slide block 16 by load cell 6, slide block 16 can move up and down along the vertical guideway on the bed piece 15 4.On lathe bed 15 tops servomotor and rotary encoder group 11 are installed, servomotor drives speed reduction unit 12 rotations, initiatively profile of tooth belt wheel 13 is installed on the output shaft of speed reduction unit by key, drive passive profile of tooth belt wheel 10 rotations, nut 8 coaxial being installed on the passive profile of tooth belt wheel 10 by synchronous cog belt 14.Because the axial restraint of nut 8 can only rotate, ball-screw 9 moves up and down under the drive of nut like this, the lower end of ball-screw and 16 rotatable connections of slide block.Drive path during quenching is: servomotor-speed reduction unit-active profile of tooth belt wheel 13-synchronous cog belt 14 drives nut 8 rotations in the ball screw assembly,, mold 5 is installed on the slide block by load cell 6, and slide block moves up and down along the vertical guideway on the lathe bed 4.After mold will be compressed by the pressure that configures by the quenching workpiece, quench.In quenching process, load cell is given Controlling System with pressure signal transmission, by Controlling System control signal is fed back to servomotor, by the output corner and the output torque of control servomotor, adjusts the size of quenching pressure.

Embodiment 3:

On the basis of embodiment 1, the rotation of ball-screw is become the rotation of nut, move and the transmission of power by two ball screw assembly,s, become single ball screw assembly,, on the passive profile of tooth belt wheel 10 coaxial nuts 8 that are installed in the ball screw assembly,, the lower end of ball- screw 9 and 7 rotatable connections of moving beam, all the other structures are constant.

Load cell 6 can adopt pull pressure sensor in the above-described embodiments.

Controlling System adopts computer control, have that data are gathered in good time, function such as digital demonstration, storage, printing and network communication, and the quenching pressure of whole quenching process is by closed-loop control, reaching control is applied to by the corresponding relation of pressure on the quenching workpiece and time, make by the quenching workpiece in quenching process, all the time the quenching technology curve according to design carries out, and this is for quenching huge skill upgrading beyond doubt of strength member.This device can use on the lathe with die quenching device of various structures.

Claims (6)

1, a kind of die quenching machine tool for numerical control force measurement, comprise bed piece, worktable, be installed in the bed die of the fixation workpiece on the worktable, be installed in the mold of the fixation workpiece on the moving beam and drive the transmission mechanism that moving beam moves, it is characterized in that above-mentioned transmission mechanism places the lathe top, mainly by servomotor and rotary encoder group (11), transmission chain and ball screw assembly, are formed, ball-screw in the ball screw assembly, or nut link to each other with moving beam or slide block, load cell (6) is installed between moving beam and the mold (5), the signal of load cell passes to Controlling System, and servomotor and rotary encoder group are electrically connected with Controlling System.

2, die quenching machine tool for numerical control force measurement according to claim 1 is characterized in that above-mentioned transmission chain is made up of the speed reduction unit that links to each other with servomotor (12) and the active profile of tooth belt wheel (13) that links to each other with the speed reduction unit output terminal, synchronous cog belt (14) and the passive profile of tooth belt wheel (10) that links to each other with ball screw assembly.

3, die quenching machine tool for numerical control force measurement according to claim 2 is characterized in that the lower end of ball-screw (9) and moving beam or slide block are hinged on the coaxial nut (8) that is installed in the ball screw assembly, of above-mentioned passive profile of tooth belt wheel (10).

4, die quenching machine tool for numerical control force measurement according to claim 2, fixedly connected with passive profile of tooth belt wheel (10) in the upper end that it is characterized in that the ball-screw (9) in the above-mentioned ball screw assembly,, the nut in the ball screw assembly, (8) is fixedly linked with moving beam (7).

5, die quenching machine tool for numerical control force measurement according to claim 4 is characterized in that the lower end of above-mentioned ball-screw links to each other with bed piece is rotatable.

6,, it is characterized in that above-mentioned load cell (6) is pull pressure sensor according to above-mentioned any described die quenching machine tool for numerical control force measurement of claim.

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