CN203254256U - Full-automatic numerical-control tool grinder - Google Patents

Abstract

The utility model discloses a full-automatic numerical-control tool grinder, and belongs to the technical field of machinery. The full-automatic numerical-control tool grinder comprises a grinder body, wherein a base, a rotary table and a flat plate are arranged on the grinder body, a guide base is arranged on the base, a stand column is arranged on the rotary table, a second lead screw is fixedly arranged on the stand column, a second sliding plate is arranged on the stand column in a sliding mode, a grinding spindle is fixedly arranged on the second sliding plate, a grinding wheel is fixedly arranged on the grinding spindle, bent plates are fixedly arranged on the two side faces of the second sliding plate, an electromotor is arranged on the bent plates, a trimmer is fixedly arranged on the upper surface of the stand column through a trimmer fixing plate, a feeding device and a first lead screw are fixedly arranged on the flat plate, a first sliding plate is arranged on the flat plate in a sliding mode, a machine head box is arranged on the first sliding plate, a hollow shaft is installed in the machine head box, the two ends of the machine head box are provided with a protective cover and a shaft end cover respectively in a fixed mode, and a cog belt pulley is fixedly arranged on the hollow shaft. The full-automatic numerical-control tool grinder is high in machining precision, high in smoothness, large in amount of grinding, stable in machining quality and high in production efficiency, and reduces labor intensity of workers and production cost.

Description

The numerical-control full-automatic cutter and tool grinding machine

Technical field

The utility model belongs to field of mechanical technique, relates to a kind of grinding machine, the concrete full-automatic cutter and tool grinding machine of index control.

Background technology

As everyone knows, the early stage canaliculate making of pole class sword is to mill the system cutting as main, lathe used is toolroom miling machine, its characteristics: toolroom miling machine mainly adopts double-end tip to be installed, so require the two ends of processing work that top fabrication hole will be arranged, and can only take manual being installed when being installed, working (machining) efficiency is reduced but also strengthened operator's labour intensity.Adding man-hour because the milling amount of milling cutter is fixed value, can not realize one-shot forming for the groove that cutting output is large.The cutting angle that mills the milling cutter that groove uses is all fixed angle, just can't adjust accurately for machined parameters like this, may make like this product of processing can not obtain expected effect, has also limited type and the scope of processing simultaneously.Long use also can cause strain to milling cutter, needs frequent tool changing, has so also strengthened processing cost; Also reduced simultaneously production efficiency.

Mill the topmost shortcoming of cutlery processed not high for the fineness of processing, precision is low.Solution normally carries out the secondary grinding through blade milling machine to the circumference front edge and reaches its required precision, makes so again working (machining) efficiency reduce, and production cost improves.

Summary of the invention

For the defective that exists in background technology, the utility model provides a kind of numerical-control full-automatic cutter and tool grinding machine.

For achieving the above object, the utility model provides following technical scheme: the numerical-control full-automatic cutter and tool grinding machine, comprise lathe bed, and be provided with pedestal, turntable and flat board on lathe bed, be provided with guide holder on described pedestal; Be provided with column on described turntable, be installed with the second leading screw on column, be slidably equipped with the second slide plate, be installed with grinding spindle on the second slide plate, be installed with emery wheel on grinding spindle, the two sides of the second slide plate are installed with bent plate, be provided with motor on bent plate, the upper surface of column is installed with trimmer by the trimmer fixed head; Be installed with loader and the first leading screw on described flat board, be slidably equipped with the first slide plate, be provided with headstock on the first slide plate, the two ends that hollow shaft and this headstock are installed in headstock are fixed with respectively guard shield and hubcap, are installed with the profile of tooth belt wheel on hollow shaft.

Be provided with the base stand location hole on above-mentioned lathe bed, pedestal is threaded connection on the base stand location hole.

Above-mentioned pedestal upper surface is provided with gathering sill, and the lower end of guide holder is arranged in gathering sill.

The second above-mentioned slide plate is slidably installed on column by the second slide block and the second guide rail.

The first above-mentioned slide plate is slidably installed on flat board by the first slide block and the first guide rail.

Be provided with keyway on above-mentioned hollow shaft, the profile of tooth belt wheel is fixed on keyway by key.

Also be provided with the first servomotor, the second servomotor, the 3rd servomotor and the 4th servomotor; The first servomotor is arranged on the guard shield medial surface, and the second servomotor is connected on trimmer, and the 3rd servomotor is connected on the second leading screw, and the 4th servomotor is arranged on lathe bed.

The first above-mentioned servomotor, the second servomotor, the 3rd servomotor and the 4th servomotor are connected with control panel outward.

The utility model beneficial effect compared to existing technology:

1, the utility model is mainly for the groove grinding of pole class cutter; It is mainly that High Rotation Speed with abrasive machining wheel carries out grinding to workpiece; High-rate grinding compares with the traditional handicraft milling that to have machining accuracy high, highly polished, and stock removal is large, the advantage that crudy is stable;

2, the utility model use abrasive machining wheel and milling used milling cutter compare to have and can repair and durable characteristics;

3, the utility model has adopted numerical control system (control panel), can more accurately carry out grinding under the control of program code, guaranteed like this accuracy of product, can also rationally adjust machined parameters in process, make product more easily reach desirable expection manufacturing effect, greatly improved the flexibility of processing; Because the Powerful-grinder emery wheel has open-ended characteristic, thus can according to the product different angles different types of requirement repair out corresponding angle, make like this kind of converted products and scope further enlarge;

4, the utility model has designed automatical feeding system, this material-uploading style does not require that processing work has center positioning hole, this feeding system can independently carry out material loading, location, clamping, blanking work to workpiece, and this compares more quick, accurate with traditional manual material loading clamping; Realize the operating environment of people's multimachine, greatly enhanced productivity, reduced operator's labour intensity, reduced production cost;

5, the utility model has designed automatic dressing and compensate function, can carry out automatic dressing and compensation to abrasive machining wheel; Can keep the grinding capacity of abrasive machining wheel like this, not worry that also emery wheel makes machining accuracy reduce because of the grinding threshing;

6, the topmost characteristics of the utility model are that the column part can be done 360 degree rotations around the central point of processing work, thereby have solved the single left-handed or dextrorotation problem of mill groove.

Description of drawings

Fig. 1 is one of structural representation of the present utility model;

Fig. 2 is two of structural representation of the present utility model;

Fig. 3 is three of structural representation of the present utility model.

Number in the figure implication: 1-lathe bed; The 2-pedestal; The 3-turntable; 4-is dull and stereotyped; The 5-guide holder; The 6-column; 7-the second leading screw; 8-the second slide plate; 81-the second slide block; 82-the second guide rail; The 9-grinding spindle; The 10-emery wheel; The 11-bent plate; The 12-motor; 13-trimmer fixed head; The 14-trimmer; The 15-loader; 16-the first leading screw; 17-the first slide plate; 171-the first slide block; 172-the first guide rail; The 18-headstock; The 19-hollow shaft; The 20-guard shield; The 21-hubcap; 22-profile of tooth belt wheel; 51-the first servomotor; 52-the second servomotor; 53-the 3rd servomotor; 54-the 4th servomotor.

The specific embodiment

Below in conjunction with drawings and Examples, the specific embodiment of the present utility model is described in further detail.Following examples are used for explanation the utility model, but are not used for limiting scope of the present utility model.

Referring to Fig. 1-shown in Figure 3, the numerical-control full-automatic cutter and tool grinding machine comprises lathe bed 1, is provided with pedestal 2, turntable 3 and dull and stereotyped 4 on lathe bed 1, is provided with guide holder 5 on pedestal 2; Be provided with column 6(column 6 on turntable 3 and can do 360 ° of rotations around the central point of pedestal 2); The angle that be installed with the second leading screw 7 on column 6, is slidably equipped with second slide plate 8(the second slide plate 8 and lathe bed 1 plane is 90 °), be installed with grinding spindle 9 on the second slide plate 8, be installed with emery wheel 10 on grinding spindle 9, the two sides of the second slide plate 8 are installed with bent plate 11, be provided with motor 12 on bent plate 11, the upper surface of column 6 is installed with trimmer 14 by trimmer fixed head 13; Be installed with loader 15 and the first leading screw 16 on dull and stereotyped 4, be slidably equipped with the first slide plate 17, be provided with headstock 18 on the first slide plate 17, the two ends that hollow shaft 19 and this headstock 18 are installed in headstock 18 are fixed with respectively guard shield 20 and hubcap 21, are installed with profile of tooth belt wheel 22 on hollow shaft 19.

As preferably, be provided with the base stand location hole on above-mentioned lathe bed 1, pedestal 2 is threaded connection on the base stand location hole.

As preferably, above-mentioned pedestal 2 upper surfaces are provided with gathering sill, and the lower end of guide holder 5 is arranged in gathering sill.

As preferably, the second above-mentioned slide plate 8 is slidably installed on column 6 by the second slide block 81 and the second guide rail 82.

As preferably, the first above-mentioned slide plate 17 is slidably installed on dull and stereotyped 4 by the first slide block 171 and the first guide rail 172.

As preferably, be provided with keyway on above-mentioned hollow shaft 19, profile of tooth belt wheel 22 is fixed on keyway by key.

As preferably, above-mentioned guard shield 20 medial surfaces are provided with the first servomotor 51, the first servomotors 51 and can drive hollow shaft 19 by the transmission of profile of tooth belt wheel 22 and be rotated.

As preferably, above-mentioned trimmer 14 is connected with the second servomotor 52, and trimmer 14 can be repaired emery wheel 10 under the drive of the second servomotor 52.

As preferably, be connected with the 3rd servomotor 53, the three servomotors 53 on the second above-mentioned leading screw 7 and drive the second leading screw 7 rotations, do knee-action thereby drive the second slide plate 8.

As preferably, be provided with the 4th servomotor 54, the four servomotors 54 on above-mentioned lathe bed 1 and drive the first leading screw 16 rotations, can realize the feed motion of the first slide plate 17.

As preferably, be connected with control panel (control panel is not shown in the figures) outside the first above-mentioned servomotor 51, the second servomotor 52, the 3rd servomotor 53 and the 4th servomotor 54.

The course of work of the present utility model: the hydraulic means of loader 15 by peripheral hardware sent processing work in jump ring on hollow shaft 19 to, completes simultaneously the location and is installed.The 3rd servomotor 53 drives the second slide plate 8, makes emery wheel 10 drop to Working position; The first servomotor 51 and the 4th servomotor 54 are worked simultaneously, complete the screw of processing work; Emery wheel 10 is completed the grinding to processing work under the drive of motor 12; After grinding was completed, emery wheel 10 rose to trim locations; Trimmer 14 is repaired emery wheel 10 under the drive of the second servomotor 52.

The above is only preferred embodiment of the present utility model; should be understood that; for those skilled in the art, under the prerequisite that does not break away from the utility model know-why, make some improvement and modification and also should be considered as protection domain of the present utility model.

Claims (8)

1. the numerical-control full-automatic cutter and tool grinding machine, is characterized in that: comprise lathe bed, be provided with pedestal, turntable and flat board on lathe bed, be provided with guide holder on described pedestal; Be provided with column on described turntable, be installed with the second leading screw on column, be slidably equipped with the second slide plate, be installed with grinding spindle on the second slide plate, be installed with emery wheel on grinding spindle, the two sides of the second slide plate are installed with bent plate, be provided with motor on bent plate, the upper surface of column is installed with trimmer by the trimmer fixed head; Be installed with loader and the first leading screw on described flat board, be slidably equipped with the first slide plate, be provided with headstock on the first slide plate, the two ends that hollow shaft and this headstock are installed in headstock are fixed with respectively guard shield and hubcap, are installed with the profile of tooth belt wheel on hollow shaft.

2. numerical-control full-automatic cutter and tool grinding machine according to claim 1 is characterized in that: be provided with the base stand location hole on described lathe bed, pedestal is threaded connection on the base stand location hole.

3. numerical-control full-automatic cutter and tool grinding machine according to claim 1, it is characterized in that: described pedestal upper surface is provided with gathering sill, and the lower end of guide holder is arranged in gathering sill.

4. numerical-control full-automatic cutter and tool grinding machine according to claim 1, it is characterized in that: described the second slide plate is slidably installed on column by the second slide block and the second guide rail.

5. numerical-control full-automatic cutter and tool grinding machine according to claim 1, it is characterized in that: described the first slide plate is slidably installed on flat board by the first slide block and the first guide rail.

6. numerical-control full-automatic cutter and tool grinding machine according to claim 1, it is characterized in that: be provided with keyway on described hollow shaft, the profile of tooth belt wheel is fixed on keyway by key.

7. numerical-control full-automatic cutter and tool grinding machine according to claim 1, is characterized in that: also be provided with the first servomotor, the second servomotor, the 3rd servomotor and the 4th servomotor; The first servomotor is arranged on the guard shield medial surface, and the second servomotor is connected on trimmer, and the 3rd servomotor is connected on the second leading screw, and the 4th servomotor is arranged on lathe bed.

8. numerical-control full-automatic cutter and tool grinding machine according to claim 7, it is characterized in that: described the first servomotor, the second servomotor, the 3rd servomotor and the 4th servomotor are connected with control panel outward.

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