CN109434553B - Chip removal device of numerical control machine tool - Google Patents

Abstract

The utility model provides a digit control machine tool chip removal device, includes the case seat, locates motor on the case seat, locate sprocket chain revolute pair and the gear engagement revolute pair of case seat export top, locate the motor with drive chain between the sprocket chain revolute pair, locate the riding wheel of case seat entry below, two pairs of locating sprocket chain revolute pair with drive chain between the riding wheel, locate magnetic groove in the case seat still includes a plurality of locating two pairs adsorption rod between the drive chain, be used for connecting the adsorption rod with the support bar of drive chain, locate be used for on the gear engagement revolute pair the adsorption rod with the device is rubbed with cutting of magnetic groove chip removal. According to the invention, the adsorption rod is arranged to concentrate scrap iron, the first-stage chip removal and the second-stage chip removal are carried out on the adsorption rod through the arrangement of the scraping device, and meanwhile, the first chip removal strip is used for removing chips on the magnetic groove, so that the chip removal effect is good, and the noise is low.

Description

Chip removal device of numerical control machine tool

Technical Field

The invention relates to the technical field of industrial equipment, in particular to a chip removal device of a numerical control machine tool.

Background

The industry is a large industry in China, along with the improvement of processing technology, the use of numerical control machine tools is quite common, and the numerical control machine tools can generate a large amount of scraps when processing mechanical parts, and the scraps need to be cleaned in time so as to keep the normal use of the numerical control machine tools. At the present stage, the magnetic chip remover sends the scrap iron to the scrap outlet through the magnetic groove, and the scrap iron cannot fall into the scrap iron barrel at the scrap outlet due to no demagnetization of the scrap iron and the soaking of oil liquid during processing, so that the scrap iron is accumulated and the magnetic groove is blocked; the original swing sheet type magnetic chip removing mechanism meets the chip removing requirement, but has huge noise and attractive appearance when in use.

Disclosure of Invention

The invention aims to provide a chip removal device for a numerical control machine tool, which solves the problems of poor chip removal effect and huge noise of the existing chip removal device for the numerical control machine tool.

The technical scheme of the invention is as follows: the utility model provides a digit control machine tool chip removal device, includes the case seat, locates motor on the case seat, locate sprocket chain revolute pair and the gear engagement revolute pair of case seat export top, locate the motor with drive chain between the sprocket chain revolute pair, locate the riding wheel of case seat entry below, two pairs of locating sprocket chain revolute pair with drive chain between the riding wheel, locate magnetic groove in the case seat still includes a plurality of locating two pairs adsorption rod between the drive chain, be used for connecting the adsorption rod with the support bar of drive chain, locate be used for on the gear engagement revolute pair the adsorption rod with the device is rubbed with cutting of magnetic groove chip removal.

Preferably, the scraping and rubbing device comprises a plurality of connectors arranged on the gear meshing revolute pair in an array manner, a plurality of first chip removal strips arranged on the outer surface of the connectors, a plurality of second chip removal strips arranged on the inner surface of the connectors, a cavity arranged in the connectors, a communication hole communicated with the cavity, and a reset mechanism arranged at the bottom of the connectors, wherein the first chip removal strips and the cavity have eccentric distances.

Preferably, the reset mechanism comprises a locating plate arranged at the bottom of the connecting body, a reset plate arranged at one end of the locating plate, a reset spring arranged between the locating plate and the reset plate, a support spring arranged below the reset plate and a movable groove for accommodating the support spring.

Preferably, the connector comprises a first arc-shaped plate arranged on the positioning plate, a second arc-shaped plate arranged on the reset plate, and a stress plate fixed at one end, far away from the reset plate, of the second arc-shaped plate.

Preferably, the length of the force-receiving plate is smaller than the length of the first chip ejection bar.

Preferably, the first chip removing strip is far away from the concave-convex arrangement at one end of the connecting body and is attached to the surface of the adsorption rod.

Preferably, the second chip removing strip extends obliquely inwards, and the containing cavity forms an included angle of 30-60 degrees.

Preferably, a storage cavity is formed between two adjacent second chip removal strips.

Preferably, the adsorption rod is provided with a plurality of storage grooves at intervals.

Preferably, a booster air bag is arranged at the bottom of the storage groove.

The invention has the beneficial effects that:

according to the invention, the adsorption rod is arranged to concentrate scrap iron, the first-stage chip removal and the second-stage chip removal are carried out on the adsorption rod through the arrangement of the scraping device, and meanwhile, the first chip removal strip is used for removing chips on the magnetic groove, so that the chip removal effect is good, and the noise is low.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 3 is a schematic diagram of the cooperation of the adsorption rod and the scratch device;

FIG. 4 is an enlarged schematic view of FIG. 3 at A;

FIG. 5 is a side view of a connector;

FIG. 6 is a schematic diagram of an adsorption rod structure;

in the figure: the device comprises a 1-box seat, a 2-motor, a 3-sprocket chain revolute pair, a 4-gear meshing revolute pair, a 5-transmission chain, a 6-driving chain, a 7-adsorption rod, a 7-1-storage groove, a 7-2-boosting air bag, an 8-scratch device, an 8-1-connector, an 8-1-1-first arc plate, an 8-1-2-second arc plate, an 8-1-3-stressed plate, an 8-2-containing cavity, an 8-3-communicating hole, an 8-4-reset mechanism, an 8-4-1-positioning plate, an 8-4-2-reset plate, an 8-4-3-reset spring, an 8-4-4-support spring, an 8-4-5-movable groove, an 8-5-first chip removing strip, an 8-6-second chip removing strip, an 8-6-1-storage cavity, a 9-magnetic groove, a 10-supporting wheel and an 11-support strip.

Description of the embodiments

The invention is further illustrated by way of example with reference to the accompanying drawings.

The present embodiment is only for explanation of the present invention and is not to be construed as limiting the present invention, and modifications to the present embodiment, which may not creatively contribute to the present invention as required by those skilled in the art after reading the present specification, are all protected by patent laws within the scope of claims of the present invention.

Embodiment, as shown in fig. 1, fig. 2, fig. shows, a digit control machine tool chip removal device, including case seat 1, locate motor 2 on the case seat 1, locate sprocket chain revolute pair 3 and gear engagement revolute pair 4 of case seat 1 export top, here sprocket chain revolute pair 3 and gear engagement revolute pair 4 realize synchronous rotation through gear engagement, locate motor 2 with drive chain 6 between sprocket chain revolute pair 3, locate the die-drop 10 of case seat 1 entry below, two pairs of locating sprocket chain revolute pair 3 with drive chain 5 between the die-drop 10, locate magnetic groove 9 in the case seat 1, still include a plurality of locating two pairs of adsorption rod 7 between the drive chain 5, here adsorption rod 7 adopts magnet implementation, and adsorption rod 7 is with the iron fillings in the magnetic groove 9 concentrated on the adsorption rod 7, through with cut the cooperation between the device 8, get rid of the iron fillings on the adsorption rod 7, be used for connecting adsorption rod 7 with drive chain 5's die-drop 11 is here adopted and is rubbed the drive chain 5, and is used for the device is prevented from being rubbed here by the drive chain 11 and is used for carrying out the magnetic groove 8 to rub the device on the drive chain 8, and is used for the device is provided with the magnetic groove 8 is used for the normal, and the device is set up through the drive device is used for the drive 4 is reached here to be reached.

As shown in FIG. 4, the scraping device 8 comprises a plurality of connectors 8-1 arranged on the gear meshing revolute pair 4 in an array manner, a plurality of first chip removal strips 8-5 arranged on the outer surface of the connectors 8-1, wherein the first chip removal strips 8-5 are implemented by rubber, scrap iron on the adsorption rod 7 is scraped through friction between the first chip removal strips 8-5 and the adsorption rod 7, so that primary chip removal is completed, noise generated by friction between the first chip removal strips 8-5 and the adsorption rod 7 is smaller, a plurality of second chip removal strips 8-6 arranged on the inner surface of the connectors 8-1 are implemented by plastic, the second chip removal strips 8-6 are implemented by the aid of plastic, after the adsorption rod 7 enters the accommodating cavity 8-2, the scrap iron on the adsorption rod 7 is scraped, so that secondary chip removal is completed, the accommodating cavity 8-2 arranged in the connectors 8-1, the communicating communication holes 8-3 are formed in the accommodating cavity 8-2, the reset mechanism 8-4 arranged at the bottom of the connectors 8-1, the eccentric mechanism 8-4 enables the adsorption rod 7 to enter the accommodating cavity 8-2, and the eccentric rod 8-2 is driven by the eccentric rod 8-2 to have a size which is determined according to the actual size of the second chip removal strip 8-1, and the eccentric rod 8H is located for the actual size of the second chip removal strip 8-8. The reset mechanism 8-4 comprises a locating plate 8-4-1 arranged at the bottom of the connecting body 8-1, a reset plate 8-4-2 arranged at one end of the locating plate 8-4-1, a reset spring 8-4-3 arranged between the locating plate 8-4-1 and the reset plate 8-4-2, a support spring 8-4-4 arranged below the reset plate 8-4-2, and a movable groove 8-4-5 for accommodating the support spring 8-4, wherein the side, away from the accommodating cavity 8-2, of the reset plate 8-4-2 is preferably hinged with the inner wall of the movable groove 8-4-5. The connector 8-1 comprises a first arc-shaped plate 8-1-1 arranged on the positioning plate 8-4-1, a second arc-shaped plate 8-1-2 arranged on the resetting plate 8-4-2, and a stress plate 8-1-3 fixed at one end, far away from the resetting plate 8-4-2, of the second arc-shaped plate 8-1-2, wherein the stress plate 8-1-3 ensures that the adsorption rod 7 can enter the accommodating cavity 8-2 for chip removal again. The length of the stress plate 8-1-3 is smaller than that of the first chip removal strip 8-5, and the arrangement ensures that the first chip removal strip 8-5 scratches and removes chips on the magnetic groove 9 before contacting the adsorption rod 7, so that the chip removal effect of the device is improved. The second chip removal strip 8-6 extends obliquely inwards, and the containing cavity 8-2 forms an included angle of 30-60 degrees, preferably 45 degrees. A storage cavity 8-6-1 is formed between two adjacent second chip removal strips 8-6, after the adsorption rod 7 enters the containing cavity 8-2, scrap iron on the adsorption rod 7 enters the storage cavity 8-6-1, and after the adsorption rod 7 is separated from the containing cavity 8-2, the scrap iron in the storage cavity 8-6-1 falls out of the outlet of the box seat 1 under the action of gravity.

As shown in FIG. 5, the first chip removing strip 8-5 is far away from the concave-convex arrangement at one end of the connecting body 8-1 and is attached to the surface of the adsorption rod 7, and the arrangement ensures that the first chip removing strip 8-5 is fully contacted with the adsorption rod 7, so that the chip removing effect is better.

As shown in fig. 6, the adsorption rod 7 is provided with a plurality of receiving grooves 7-1 at intervals, so that the area for adsorbing scrap iron can be increased, more scrap iron is concentrated on the adsorption rod 7, and the scrap removal effect is improved. The bottom of the accommodating groove 7-1 is provided with the assisting air bag 7-2, preferably, the magnets at the bottom of the accommodating groove 7-1 are arranged at intervals and connected through rubber strips, and the accommodating groove 7-1 can be separated from scrap iron at the bottom of the accommodating groove 7-1 after receiving acting force from the first scrap discharging strip 8-5 and the second scrap discharging strip 8-6, so that the scrap discharging effect is improved.

Claims (8)

1. The utility model provides a digit control machine tool chip removal device, includes case seat (1), locates motor (2) on case seat (1), locate sprocket chain revolute pair (3) and gear engagement revolute pair (4) above case seat (1) export, locate motor (2) with drive chain (6) between sprocket chain revolute pair (3), locate riding wheel (10) of case seat (1) entry below, two pairs of locating sprocket chain revolute pair (3) with drive chain (5) between riding wheel (10), locate magnetic groove (9) in case seat (1), its characterized in that: the device is characterized by further comprising a plurality of adsorption rods (7) arranged between the two pairs of transmission chains (5), support strips (11) used for connecting the adsorption rods (7) with the transmission chains (5), a plurality of second chip removal strips (8-6) arranged on the inner surface of the connection body (8-1), a cavity (8-2) arranged in the connection body (8-1), a communication hole (8-3) communicated with the cavity (8-2), a reset mechanism (8-4) arranged at the bottom of the connection body (8-1) and comprising a plurality of arrays, wherein the connection body (8-1) is arranged on the gear engagement rotation pairs (4), the first chip removal strips (8-5) are arranged on the outer surface of the connection body (8-1), the second chip removal strips (8-6) are arranged on the inner surface of the connection body (8-1), the communication hole (8-3) arranged in the connection body (8-1), and the reset mechanism (8-4) arranged at the bottom of the connection body (8-1), and the first chip removal strips (8-2) are provided with a chip removal distance H.

2. The numerical control machine tool chip removal device according to claim 1, wherein: the reset mechanism (8-4) comprises a positioning plate (8-4-1) arranged at the bottom of the connecting body (8-1), a reset plate (8-4-2) arranged at one end of the positioning plate (8-4-1), a reset spring (8-4-3) arranged between the positioning plate (8-4-1) and the reset plate (8-4-2), a support spring (8-4-4) arranged below the reset plate (8-4-2) and a movable groove (8-4-5) used for accommodating the support spring (8-4-4).

3. The numerical control machine tool chip removal device according to claim 2, wherein: the connecting body (8-1) comprises a first arc-shaped plate (8-1-1) arranged on the positioning plate (8-4-1), a second arc-shaped plate (8-1-2) arranged on the reset plate (8-4-2), and a stress plate (8-1-3) fixed at one end, far away from the reset plate (8-4-2), of the second arc-shaped plate (8-1-2).

4. A numerical control machine tool chip removal device according to claim 3, characterized in that: the length of the stress plate (8-1-3) is smaller than that of the first chip removing strip (8-5).

5. The numerical control machine tool chip removal device according to claim 1, wherein: the first chip removal strip (8-5) is far away from one end of the connecting body (8-1) and is arranged in a concave-convex mode and is attached to the surface of the adsorption rod (7).

6. The numerical control machine tool chip removal device according to claim 1, wherein: the second chip removal strip (8-6) extends inwards in an inclined mode, and the containing cavity (8-2) forms an included angle of 30-60 degrees.

7. The numerical control machine tool chip removal device according to claim 1, wherein: a storage cavity (8-6-1) is formed between two adjacent second chip removal strips (8-6).

8. The numerical control machine tool chip removal device according to claim 1, wherein: the bottom of the storage groove (7-1) is provided with a power-assisted air bag (7-2).