CN208196175U - Processing center machine high-precision Z-axis mechanism - Google Patents

Abstract

The utility model relates to processing center machine fields, and in particular to processing center machine high-precision Z-axis mechanism；Including being slidedly arranged on the integrally formed X-axis slide plate of X-axis, perpendicular to X-axis slide plate and two pairs of Z guide rails being arranged in parallel on X-axis slide plate, the Z sliding block being slidedly arranged on each pair of Z guide rail, the Z slide plate being installed on Z sliding block, the Z axis being installed on Z slide plate, the servo motor for driving Z axis to move up and down along Z guide rail, the servo motor is installed at the top of Z axis, and the Z axis bottom is equipped with cutter；Two Z axis are arranged in parallel, and two servo motors work independently.The utility model machining accuracy is high, applied widely.

Description

Processing center machine high-precision Z-axis mechanism

Technical field

The utility model relates to processing center machine fields, more particularly to processing center machine high-precision Z-axis mechanism.

Background technique

Metalworking machine, that is, metal working machine tool, is also CNC machine, and (English name is abbreviation machining center Computerized Numerica1Contro1Machine abbreviation cnc).Intermetallic composite coating center machine be usually by control system, The height suitable for manufacturing complex shapes workpiece that servo-system, detection system, machine driven system and other auxiliary systems form Efficiency automated machine tool.

The processing center machine of the prior art, partially using double Z axis structures, and double Z axis be it is split type, pass through connection sheet and spiral shell Nail connection is driven the movement of double Z axis by a set of driving mechanism.On the one hand, due to double Z axis split-type designs, when process and assemble, is easy Cause location error, so as to cause machining accuracy reduction, second aspect, a set of driving mechanism, cause whenever, double Z axis are all It works at the same time, is not suitable for only needing the occasion of Z axis operating, the scope of application is small.

Utility model content

It is used to solve the above problems, the utility model provides the processing center machine that a kind of machining accuracy is high, applied widely High-precision Z-axis mechanism.

The technical scheme adopted by the utility model is processing center machine high-precision Z-axis mechanism, including it is slidedly arranged on X-axis Integrally formed X-axis slide plate, perpendicular to X-axis slide plate and two pairs of Z guide rails being arranged in parallel on X-axis slide plate, be slidedly arranged on each pair of Z Z sliding block on guide rail, the Z slide plate being installed on Z sliding block, the Z axis being installed on Z slide plate, driving Z axis move up and down along Z guide rail Servo motor, the servo motor is installed at the top of Z axis, and the Z axis bottom is equipped with cutter；Two Z axis are arranged in parallel, and Two servo motors work independently.

Further improvement to above-mentioned technical proposal is that two lateral roof of orbital plane of the Z guide rail is equipped with the first arc groove, It is equipped with the first arc convex below first arc groove, corresponding first arc groove of the Z sliding block is equipped with the second arc convex, and corresponding the One arc convex is equipped with the second arc groove, and the first arc groove and the second arc convex seamless connectivity, the second arc groove and the One arc convex seamless connectivity.

Further improvement to above-mentioned technical proposal is to be arranged in parallel on each Z guide rail there are two Z sliding block.

Further improvement to above-mentioned technical proposal is that the servo motor is direct-connected high torque motor.

The utility model has the following beneficial effects:

1, it on the one hand, being arranged in parallel there are two Z axis, each Z axis bottom is connected with a cutter, if there are two cutters, and Each Z axis is individually equipped with a servo motor, and two servo motors work independently, can two cutters workpiece is added simultaneously Work, work efficiency is high, can also one processing one do not process, one processing or a tool changing, be applicable to the visitor of different production capacities Family, it is applied widely.Second aspect, two Z axis are installed on the same X-axis slide plate, double Z axis difference compared with the existing technology The split type structure of crossbeam is connected to by slide plate, process and assemble error is small, runs more stable, machining accuracy height.The third aspect, The movement of Z axis is driven using servo motor, and kinematic accuracy is high, and stationarity is good, is further conducive to improve machining accuracy.

2, two lateral roof of orbital plane of Z guide rail is equipped with the first arc groove, is equipped with the first arc convex below the first arc groove, Corresponding first arc groove of the Z sliding block is equipped with the second arc convex, and corresponding first arc convex is equipped with the second arc groove, and first Arc groove and the second arc convex seamless connectivity, the second arc groove and the first arc convex seamless connectivity, meanwhile, Z guide rail Structure it is also identical, Z guide rail and Z guide rail are all that gapless pre-tightens, can be real between Z guide rail and Z guide rail between Z guide rail and Z sliding block Existing seamless connectivity further improves machining accuracy so that Z axis and cutter operation are more stable.

3, it is arranged in parallel on each Z guide rail there are two Z sliding block, sets that there are four Z sliding blocks on each pair of guide rail altogether, pass through four A Z sliding block supports Z axis, so that Z axis and cutter operation are more stable, further improves machining accuracy.

4, servo motor is direct-connected high torque motor, and precision is high, and high low speed can realize large torque, and the cutting moment of torque is big, cuts It scabbles surely, vibration is small, further improves machining accuracy and stability.

Detailed description of the invention

Fig. 1 is the perspective view of the utility model；

Fig. 2 is the perspective view at another visual angle of the utility model；

Fig. 3 is the perspective view of the Z guide rail of the utility model；

Fig. 4 is the perspective view of the Z sliding block of the utility model.

Specific embodiment

The utility model is further described below in conjunction with attached drawing.

As shown in Figure 1 to 4, the respectively perspective view of the utility model different perspectives, the perspective view of Z guide rail and Z sliding block Perspective view.

Processing center machine high-precision Z-axis mechanism 100, the integrally formed X-axis slide plate 110, vertical including being slidedly arranged on X-axis In X-axis slide plate 110 and two pairs of Z guide rails 120 being arranged in parallel on X-axis slide plate 110, the Z cunning being slidedly arranged on each pair of Z guide rail 120 Block 130, the Z slide plate 140 being installed on Z sliding block 130, the Z axis 150 being installed on Z slide plate 140, driving Z axis 150 are along Z guide rail 120 servo motors 160 to move up and down, the servo motor 160 are installed on 150 top of Z axis, and 150 bottom of Z axis is equipped with Cutter 170；Two Z axis 150 are arranged in parallel, and two servo motors 160 work independently.

Two lateral roof of orbital plane of Z guide rail 120 is equipped with the first arc groove 121, is equipped with the first arc below the first arc groove 121 Shape protrusion 122, corresponding first arc groove 121 of the Z sliding block 130 are equipped with the second arc convex 131, corresponding first arc convex 122 are equipped with the second arc groove 132, and 131 seamless connectivity of the first arc groove 121 and the second arc convex, the second arc groove 132 With 122 seamless connectivity of the first arc convex, meanwhile, the structure of Z guide rail 120 is also identical, and Z guide rail 120 and Z guide rail 120 are all Gapless pre-tightens, and between Z guide rail 120 and Z sliding block 130, is able to achieve seamless connectivity between Z guide rail 120 and Z guide rail 120, so that Z axis 150 and cutter 170 run more stable, further improve machining accuracy.

It is arranged in parallel on each Z guide rail 120 there are two Z sliding block 130, sets that there are four Z sliding blocks on each pair of guide rail altogether 130, support Z axis 150 by four Z sliding blocks 130 so that Z axis 150 and cutter 170 run it is more stable, further improve plus Work precision.

Servo motor 160 is direct-connected high torque motor, and precision is high, and high low speed can realize large torque, and the cutting moment of torque is big, cuts It scabbles surely, vibration is small, further improves machining accuracy and stability.

On the one hand, it being arranged in parallel there are two Z axis 150, each 150 bottom of Z axis is connected with a cutter 170, if there are two Cutter 170, and each Z axis 150 is individually equipped with a servo motor 160, two servo motors 160 work independently, can be two Cutter 170 simultaneously processes workpiece, and work efficiency is high, can also one processing one do not process, one processing or one change Knife is applicable to the client of different production capacities, applied widely.Second aspect, two Z axis 150 are installed on the same X-axis slide plate On 110, double Z axis 150 compared with the existing technology are connected to the split type structure of crossbeam, process and assemble error by slide plate respectively It is small, run more stable, machining accuracy height.The movement of the third aspect, Z axis 150 is driven using servo motor 160, and kinematic accuracy is high, Stationarity is good, is further conducive to improve machining accuracy.

The working principle of the utility model are as follows:

Under power effect, X-axis slide plate 110 is moved left and right along X-axis to drive Z axis 150 and cutter 170 to move left and right, Under the action of servo motor 160, each Z axis 150 drives the cutter 170 for being located at bottom to work independently, can two cutters 170 simultaneously Workpiece is processed, work efficiency is high, can also one processing one do not process, one processing or a tool changing, be applicable to The client of different production capacities, it is applied widely.Two Z axis 150 are installed on the same X-axis slide plate 110, compared with the existing technology Double Z axis 150 are connected to the split type structure of crossbeam by slide plate respectively, and process and assemble error is small, run more stable, machining accuracy It is high.

Above-described embodiments merely represent several embodiments of the utility model, the description thereof is more specific and detailed, But it should not be understood as limiting the scope of the patent of the utility model.It should be pointed out that for the common of this field For technical staff, without departing from the concept of the premise utility, various modifications and improvements can be made, these all belong to In the protection scope of the utility model.Therefore, the scope of protection shall be subject to the appended claims for the utility model patent.

Claims (4)

1. processing center machine high-precision Z-axis mechanism, it is characterised in that: including be slidedly arranged on X-axis integrally formed X-axis slide plate, Perpendicular to X-axis slide plate and two pairs of Z guide rails being arranged in parallel on X-axis slide plate, the Z sliding block being slidedly arranged on each pair of Z guide rail, it is installed on The servo motor that Z slide plate on Z sliding block, the Z axis being installed on Z slide plate, driving Z axis move up and down along Z guide rail, the servo are electric Machine is installed at the top of Z axis, and the Z axis bottom is equipped with cutter；Two Z axis are arranged in parallel, and two servo motors are independent Work.

2. processing center machine according to claim 1 high-precision Z-axis mechanism, it is characterised in that: the track of the Z guide rail Two lateral roof of face is equipped with the first arc groove, and the first arc convex, corresponding first arc of the Z sliding block are equipped with below the first arc groove Slot is equipped with the second arc convex, and corresponding first arc convex is equipped with the second arc groove, and the first arc groove and the second arc convex Seamless connectivity, the second arc groove and the first arc convex seamless connectivity.

3. processing center machine according to claim 2 high-precision Z-axis mechanism, it is characterised in that: on each Z guide rail Z sliding block there are two being arranged in parallel.

4. processing center machine according to claim 3 high-precision Z-axis mechanism, it is characterised in that: the servo motor is Direct-connected high torque motor.