CN205218551U - Anchor clamps structure of digit control machine tool - Google Patents

Abstract

The utility model discloses an anchor clamps structure of digit control machine tool, it is installed on the elevating system of digit control machine tool, linear motion about being undertaken by this anchor clamps structure of elevating system drive, include: servo motor, shaft coupling, transmission bearing and tool mount pad, servo motor connects the one end of shaft coupling, and the other end and the one end of transmission bearing of shaft coupling are connected, and the other end and the tool mount pad of transmission bearing are connected, carry out 360 degrees arbitrary rotational positioning through servo motor control tool mount pad. The utility model discloses a rotational positioning of servo motor control tool mount pad, and then the machined surface of control work piece need not to relapse the dismouting work piece, can raise the efficiency, improve the machining precision, and reduce cost improves economic benefits.

Description

A kind of clamp structure of Digit Control Machine Tool

Technical field

The utility model relates to a kind of clamp structure of numerically controlled processing equipment, refers to a kind of leading clamp structure waiting the Digit Control Machine Tool of sanitaryware spool of process water that is used for especially.

Background technology

Existing bathroom faucet spool processing, substantially be all that its shortcoming is that clamping workpiece is complicated, and processing copper powder dirt is too large with manually completing on common driller and hand-drill, be detrimental to health, because long-time single actuating is done, easily cause workman tired, and the heating of working angles copper powder is splashed, the hand of easy scald workman and pin, this method is not only detrimental to health, and physical demands is large, and production efficiency is also quite low.

Application number a kind of Horizontal type valve core numerical control machine that has been the disclosure of the invention of 201110051145.0 for this reason, include support, being respectively equipped with at support two ends can along the casing of support vertical and horizontal sliding horizontal and column, and described casing and column drive vertical and horizontal to slide by the longitudinal motor be arranged on support and horizontal motor by ball screw respectively; Described casing is provided with the spindle drive that some the main shafts being used for mounting cutter rotate with all main shafts of driving simultaneously; Described column is provided with can along the clamping fixture seat of column vertical lifting and the elevating mechanism driving clamping fixture seat lifting; Described clamping fixture seat is provided with for the fixture of gripping faucet valve core towards main shaft.Whereby, make the spool one of wish processing facing to main shaft by fixture gripping tap, relend by longitudinal direction, transverse direction and the automatic cutting processing having moved up and down the multiple operation of this face spool.Because most of spool needs more than one usually, the face of processing, when a workpiece is needed to process multiple, process according to the said equipment, need after the processing completing a spool face, this spool is taken out from fixture, again by for being again installed on fixture facing to the direction of main shaft of carrying out processing, repeated disassembled and assembled like this, until each face of this workpiece machines.

As can be seen here, although above-mentioned Horizontal type valve core numerical control machine obviously promotes compared to the working (machining) efficiency of common driller and hand-drill, but it still needs repeated disassembled and assembled when processing single workpiece, not only wasted work consuming time, production efficiency is low, and easily in disassembly process, because operating personnel's error causes this trade union college when the fixture wrongly installed, and then cause the fraction defective of workpiece to rise, there is necessity of improvement in fact.

In order to improve present stage every profession and trade: particularly the production capacity of labour-intensive manufacturing enterprise and economic benefit are greatly limited by work people cost and significantly rise the crisis brought; promote quality, meet, more and more higher quality and efficiency requirements, reduce production cost, improve the novel automatic equipment of automation and be very important.

In view of this, the design people does not attain perfect caused many disappearances and inconvenience in the clamp structure design of above-mentioned Horizontal type valve core numerical control machine, and deeply conceives, and active research improvement has a fling at and development and Design goes out the utility model.

Utility model content

The purpose of this utility model is the clamp structure providing a kind of Digit Control Machine Tool without the need to repeated disassembled and assembled workpiece, to reduce costs, raises the efficiency.

In order to reach above-mentioned purpose, solution of the present utility model is:

A kind of clamp structure of Digit Control Machine Tool, it is installed on the elevating mechanism of Digit Control Machine Tool, this clamp structure is driven to carry out upper and lower horizontal rectilinear motion by this elevating mechanism, comprise: servomotor, shaft coupling, drive bearing and tool mount pad, servomotor connects one end of shaft coupling, the other end of shaft coupling is connected with one end of drive bearing, and the other end of drive bearing is connected with tool mount pad, is undertaken 360 degree rotate location arbitrarily by Serve Motor Control tool mount pad.

Described tool mount pad comprises mounting platform and lower mounting platform, forms grasping part between upper mounting platform and lower mounting platform, and one end that upper mounting platform deviates from mutually with lower mounting platform is connected with drive bearing described in respectively.

The clamp structure of this Digit Control Machine Tool also comprises a motor mount, and described servomotor is installed on this motor mount.

After adopting said structure, the clamp structure of the utility model Digit Control Machine Tool arranges to drive this tool mount pad to carry out the servomotor that 360 degree rotate arbitrarily location on tool mount pad, workpiece is made to add man-hour, its machined surface rotates accurately location by servomotor, directly rotate to the next face needing processing by Serve Motor Control after processing a face, by the machined surface of Serve Motor Control workpiece, without the need to repeated disassembled and assembled workpiece, repeated disassembled and assembled is needed man-hour (namely to need again to dismantle workpiece after the processing completing a workpiece face compared to existing numerical control machine tool clamp structure adding, the another side installing this workpiece is processed towards tool orientation) defect, its working (machining) efficiency significantly improves, and can machining accuracy be improved by the machined surface of this workpiece of Serve Motor Control, reduce the fraction defective of product, and the staff of dismounting workpiece can be reduced, reduce production cost, quality can be promoted, meet more and more higher quality and efficiency requirements, the automation of raising equipment.The utility model is to the production capacity and the economic benefit that improve present stage every profession and trade, promote industry automatization level, promote quality, meet quality and efficiency requirements that industry " small lot, multi items " produces, have very high economic benefit and good social benefit.

Accompanying drawing explanation

Fig. 1 is the schematic perspective view of the utility model Digit Control Machine Tool;

Fig. 2 is the schematic perspective view of the utility model Digit Control Machine Tool other direction;

Fig. 3 is the side view of the utility model Digit Control Machine Tool;

Fig. 4 is the sectional view of the utility model Digit Control Machine Tool.

Detailed description of the invention

In order to explain the technical solution of the utility model further, below by specific embodiment, the utility model is elaborated.

As shown in Figures 1 to 4, the utility model discloses a kind of clamp structure 100 of Digit Control Machine Tool, this Digit Control Machine Tool mainly comprises mechanical system and electrical system, mechanical system comprises a support 1, be installed on support 1 one end, the cutter header driving mechanism 200 of (Y-axis namely shown in Fig. 1) can be moved along support 1 left and right horizontal, be installed on support 1 other end, can along the elevating mechanism 300 of support 1 horizontal shifting (X-axis as shown in Figure 1), elevating mechanism 300 is provided with the utility model clamp structure 100 that can move horizontally (Z axis as shown in Figure 1) along elevating mechanism about 300.

Electrical system adopts high performance controller, realizes some position motion at a high speed, space line moving interpolation, the functions such as space circular arc interpolation; Set expandability is strong, and parameter configuration is simple, is easy to safeguard; Ensure that the real-time control and scheduling of system based on high-performance treatments chipset functional part, realize interlock and the interpolation of many servo functions parts.System interface simplicity generosity, provide abundant display and monitor message, language instruction system is easy to learn, can meet most industrial requirement.

Cutter header driving mechanism 200 is located on the first linear slide rail 400 of being fixed on support 1, this cutter header driving mechanism 200 can carry out the movement of Y-axis along the first linear slide rail 400, this first linear slide rail 400 is provided with the first servomotor 401, is produced the straight-line feed of Y-axis (left and right) by motor mount 402 and shaft coupling 403, main spindle box body 404, linear bearing 405 and ball screw 406.Cutter header driving mechanism 200 is provided with the second servomotor 201, and produce the positive and negative rotation of W to (as shown in Figure 1) by driving gear 202, the multiple main shaft of travelling gear 203 Gear Planet Transmission 204, multiple main shaft 204 installs different molding cutters and screw tap respectively.First servomotor 401 and the second servomotor 201 are coordinated each main shaft 204 by servo-drive system and are produced tapping and boring action.

Elevating mechanism 300 is installed on the second linear slide rail 500 of being fixed on support 1, elevating mechanism can carry out the movement of X axis (front and back) along the second linear slide rail 500, second linear slide rail 500 is provided with the 3rd servomotor 501, make elevating mechanism 300 produce rectilinear motion to X axis by motor mount 502 and shaft coupling 503, ball screw 504, linear bearing 505 and bearing mounting base 506, facilitate the diverse location of workpiece to process.This elevating mechanism 300 is provided with the 4th servomotor 301, by motor mount 302 and shaft coupling 303, body 304 linear bearing 305 is made in lifting and ball screw 306 produces the rectilinear motion of Z-axis direction to the clamp structure 100 be installed on this elevating mechanism 300, facilitates the processing of workpiece diverse location.

This clamp structure 100 is installed on elevating mechanism 300, the rectilinear motion carrying out Z-axis direction (up and down) on the linear axis 305 of this elevating mechanism 300 can be driven by elevating mechanism 300, this clamp structure 100 comprises servomotor 2, motor mount 3, shaft coupling 4, drive bearing 5 and tool mount pad 6, servomotor 2 is installed on motor mount, servomotor 2 connects one end of shaft coupling 4, the other end of shaft coupling 4 is connected with one end of drive bearing 5, the other end of drive bearing 5 is connected with tool mount pad 6, by Serve Motor Control tool mount pad carry out U as shown in Figure 1 to 360 degree rotate location arbitrarily, facilitate the diverse location of workpiece and the processing of angle orientation.Coordinate shown in Fig. 3 and Fig. 4, this tool mount pad 6 comprises mounting platform 61 and lower mounting platform 62, form grasping part 63 between upper mounting platform 61 and lower mounting platform 62, one end that upper mounting platform 61 and lower mounting platform 62 deviate from mutually connects a drive bearing 5 respectively.

When the utility model uses, by the two ends of workpiece respectively sandwiched be fixed in the upper mounting platform of tool mount pad 6 and lower installation flat 62, workpiece is made to be placed in grasping part 63, drive servomotor 2 that tool mount pad 6 can be made to rotate, control the tool orientation facing to cutter header driving mechanism 200 of this workpiece for processing, after completing the processing in this face again, for processing other faces of this workpiece, only need control tool mount pad 6 by servomotor 2 and rotating.Coordinate each axle again by space line moving interpolation under high performance servo controller controls, space circular arc interpolation etc. realize at a high speed some position ganged movement, reach workpiece and arrive fast and specify clamping cutter spindle to carry out the processing of position, hole and the function of tapping.

The utility model needs repeated disassembled and assembled (namely to need again to dismantle workpiece after the processing completing a workpiece face compared to existing numerical control machine tool clamp structure adding man-hour, the another side installing this workpiece is processed towards tool orientation) defect, its working (machining) efficiency significantly improves, and can machining accuracy be improved by the machined surface of this workpiece of Serve Motor Control, reduce the fraction defective of product, quality can be promoted, meet more and more higher quality and efficiency requirements, reduce production cost, improve the automation of equipment.The utility model is to the production capacity and the economic benefit that improve present stage every profession and trade, promote industry automatization level, promote quality, meet quality and efficiency requirements that industry " small lot, multi items " produces, have very high economic benefit and good social benefit.

Above-described embodiment and graphic and non-limiting product form of the present utility model and style, any person of an ordinary skill in the technical field, to its suitable change done or modification, all should be considered as not departing from patent category of the present utility model.

Claims (3)

1. the clamp structure of a Digit Control Machine Tool, it is installed on the elevating mechanism of Digit Control Machine Tool, this clamp structure is driven to carry out upper and lower rectilinear motion by this elevating mechanism, it is characterized in that, comprise: servomotor, shaft coupling, drive bearing and tool mount pad, servomotor connects one end of shaft coupling, and the other end of shaft coupling is connected with one end of drive bearing, the other end of drive bearing is connected with tool mount pad, is undertaken 360 degree rotate location arbitrarily by Serve Motor Control tool mount pad.

2. the clamp structure of a kind of Digit Control Machine Tool as claimed in claim 1, it is characterized in that: described tool mount pad comprises mounting platform and lower mounting platform, form grasping part between upper mounting platform and lower mounting platform, one end that upper mounting platform deviates from mutually with lower mounting platform is connected with drive bearing described in respectively.

3. the clamp structure of a kind of Digit Control Machine Tool as claimed in claim 1 or 2, it is characterized in that: also comprise a motor mount, described servomotor is installed on this motor mount.