CN217371558U - Numerical control machining device for precision elements - Google Patents

Abstract

The utility model discloses an accurate component numerical control processingequipment belongs to the numerical control processingequipment field, it includes the workstation, the workstation lateral wall is provided with the standing groove, the standing groove interpolation is equipped with dust collection box and can follow the sliding of standing groove length direction, the top of standing groove extends to the workstation roof, the fixed filter plate that is provided with of workstation roof, the standing groove tank bottom runs through and is provided with the negative pressure hole, be provided with negative pressure fan in the negative pressure hole, the dust collection box diapire runs through and is provided with a plurality of holes that induced draft, the hole that induced drafts communicates with the negative pressure hole, the dust collection box bottom is connected with the gauze that is used for a plurality of negative pressure holes of closing cap. Open negative-pressure air fan, negative-pressure air fan outwards pumps the air in the standing groove, can be so that be in negative pressure state in the standing groove, therefore the air of filter plate top will be inhaled in the standing groove, and the scope of collection bits is bigger promptly. And the scraps are intercepted under the action of the gauze, so that secondary pollution to the air below the workbench is avoided, and the scrap collecting effect is better.

Description

Numerical control machining device for precision elements

Technical Field

The utility model relates to a numerical control processingequipment technical field especially relates to a precision component numerical control processingequipment.

Background

A numerical control machining device for precision elements is a device for machining workpieces.

The prior Chinese patent with the publication number of CN213033815U discloses a numerical control machining device for precise elements, which comprises a workbench, wherein the workbench is connected with a dust collecting mechanism for collecting scraps. The dust collection mechanism comprises a dust collection box, a placing groove is formed in the side wall of the workbench, the dust collection box is inserted into the placing groove and is in sliding fit with the placing groove, a filter plate is arranged above the placing groove, and the filter plate is fixedly connected with the workbench.

The related art described above has the following drawbacks: the dust collecting box can only passively collect the naturally falling debris, so the collecting effect is poor, and the improvement is needed.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to solve the technical problem of providing a precise element numerical control processing device.

The application provides a precision component numerical control processingequipment adopts following technical scheme:

the utility model provides a precision component numerical control processingequipment, includes the workstation, the workstation lateral wall is provided with the standing groove, the standing groove interpolation is equipped with dust collection box and dust collection box can follow the standing groove length direction and slide, the top of standing groove extends to the workstation roof, the fixed filter plate that is provided with of workstation roof, the standing groove tank bottom runs through and is provided with the negative pressure hole, be provided with negative-pressure fan in the negative pressure hole, the dust collection box diapire runs through and is provided with a plurality of holes of induced drafting, the hole of induced drafting communicates with the negative pressure hole, the dust collection box bottom is connected with the gauze that is used for the closing cap a plurality of negative pressure holes.

The utility model discloses preferred technical scheme lies in, the mounting hole has been seted up to the inboard diapire of dust collection box, the mounting hole is linked together with a plurality of holes of induced drafting, threaded connection has the collar in the mounting hole, the gauze links to each other with the collar.

The utility model discloses preferred technical scheme lies in, the gauze butt is between the inboard diapire of collar diapire and dust collection box.

The utility model discloses preferred technical scheme lies in, the gauze edge is provided with a plurality of antiskid ribbed tile along its circumference is fixed, the mounting hole bottom of hole is provided with a plurality of antiskid ribbed tile, antiskid ribbed tile and antiskid ribbed tile one-to-one, just antiskid ribbed tile adaptation is inserted and is established to corresponding antiskid downthehole.

The utility model discloses preferred technical scheme lies in, the fixed anticreep piece that is provided with of antiskid ribbed tile lateral wall, the downthehole lateral wall of antiskid ribbed tile is provided with the anticreep hole, anticreep piece adaptation is inserted and is established to the anticreep downthehole.

The utility model discloses preferred technical scheme lies in, the fixed wearing layer that is provided with of roof at gauze edge, wearing layer and installation ring bottom wall butt.

The utility model discloses preferred technical scheme lies in, the fixed two anti-skidding beads that are provided with of collar roof, the mounting hole opening part is stretched out at the top of anti-skidding bead, two the axis of anti-skidding bead use the collar sets up as symmetry axis symmetry.

The utility model discloses preferred technical scheme lies in, the filter plate lateral wall rotates and is connected with the limiting plate, the bottom of limiting plate is located the side of dust collection box.

The utility model discloses preferred technical scheme lies in, the fixed rubber gasket that is provided with in side of limiting plate orientation filter plate, when the bottom of limiting plate upwards rotates, the rubber gasket can with the turned angle of filter plate lateral wall looks butt with the locking limiting plate.

The utility model has the advantages that:

the utility model aims to solve the technical problem that a precision component numerical control processingequipment is proposed belongs to numerical control processingequipment technical field, comprises a workbench, the workstation lateral wall is provided with the standing groove, the standing groove interpolation is equipped with dust collection box and can follows the sliding of standing groove length direction, the top of standing groove extends to the workstation roof, the fixed filter plate that is provided with of workstation roof, the standing groove tank bottom runs through and is provided with the negative pressure hole, be provided with negative-pressure air fan in the negative pressure hole, the dust collection box diapire runs through and is provided with a plurality of holes that induced draft, the hole that induced drafts communicates with the negative pressure hole, the dust collection box bottom is connected with the gauze that is used for a plurality of negative pressure holes of closing cap. Open negative-pressure air fan, negative-pressure air fan outwards pumps the air in the standing groove, can be so that be in negative pressure state in the standing groove, therefore the air of filter plate top will be inhaled in the standing groove, and the scope of collection bits is bigger promptly. And the scraps are intercepted under the action of the gauze, so that secondary pollution to the air below the workbench is avoided, and the scrap collecting device has the advantage of better scrap collecting effect on the whole.

Drawings

Fig. 1 is a schematic view of an overall structure of a precision component numerical control machining apparatus according to an embodiment of the present invention;

fig. 2 is a schematic structural view for showing a connection relationship between a mounting ring and a gauze in the precision component numerical control processing apparatus according to the embodiment of the present invention;

FIG. 3 is an enlarged view at A in FIG. 1;

FIG. 4 is an enlarged view at B in FIG. 1;

in the figure: 1. a work table; 10. a placement groove; 11. a dust collecting box; 12. filtering the plate; 13. a negative pressure fan; 130. a negative pressure hole; 14. an air suction hole; 15. gauze; 2. a mounting ring; 20. mounting holes; 21. anti-slip ribs; 3. an anti-slip bar; 30. an anti-slip hole; 31. an anti-drop block; 310. anti-drop holes; 32. a wear layer; 4. a limiting plate; 41. a rubber gasket.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

As shown in fig. 1-4, the utility model provides a pair of precision component numerical control processingequipment, including workstation 1, workstation 1 lateral wall is provided with standing groove 10, standing groove 10 interpolation is equipped with dust collection box 11 and dust collection box 11 can slide along standing groove 10 length direction, the top of standing groove 10 extends to workstation 1 roof, the fixed filter plate 12 that is provided with of workstation 1 roof, standing groove 10 tank bottom runs through and is provided with negative pressure hole 130, be provided with negative pressure fan 13 in the negative pressure hole 130, negative pressure fan 13 is used for drawing and sending the air in the standing groove 10 towards the outside. A plurality of air suction holes 14 are formed in the bottom wall of the dust collection box 11 in a penetrating manner, the air suction holes 14 are communicated with the negative pressure holes 130, and gauze 15 for sealing the negative pressure holes 130 is connected to the bottom of the dust collection box 11.

Preferably, a mounting hole 20 is formed in the bottom wall of the inner side of the dust collection box 11, the mounting hole 20 is communicated with the plurality of air suction holes 14, a mounting ring 2 is connected to the mounting hole 20 through an internal thread, and the gauze 15 is connected with the mounting ring 2.

Preferably, the gauze 15 abuts between the bottom wall of the mounting ring 2 and the bottom wall inside the dust box 11.

Preferably, a plurality of anti-slip rods 3 are fixedly arranged at the edge of the gauze 15 along the circumferential direction of the gauze, a plurality of anti-slip holes 30 are formed in the bottoms of the mounting holes 20, the anti-slip rods 3 correspond to the anti-slip holes 30 one by one, and the anti-slip rods 3 are inserted into the corresponding anti-slip holes 30 in a matched manner.

Preferably, the anti-slip rod 3 is fixedly provided with an anti-slip block 31 on the side wall, the anti-slip hole 30 is provided with an anti-slip hole 310 on the inner side wall, and the anti-slip block 31 is inserted into the anti-slip hole 310 in an adaptive manner. The anti-skid rod 3 and the anti-skid block are made of rubber.

Preferably, the top wall of the edge of the gauze 15 is fixedly provided with a wear-resistant layer 32, and the wear-resistant layer 32 abuts against the bottom wall of the mounting ring 2.

Preferably, two anti-slip protruding ridges 21 are fixedly arranged on the top wall of the mounting ring 2, the tops of the anti-slip protruding ridges 21 extend out of the openings of the mounting holes 20, and the two anti-slip protruding ridges 21 are symmetrically arranged with the axis of the mounting ring 2 as a symmetry axis.

Preferably, the side wall of the filter plate 12 is rotatably connected with a limit plate 4, and the bottom of the limit plate 4 is positioned at the side of the dust collection box 11.

Preferably, the side of the limiting plate 4 facing the filter plate 12 is fixedly provided with a rubber gasket 41, and when the bottom of the limiting plate 4 rotates upwards, the rubber gasket 41 can abut against the side wall of the filter plate 12 to lock the rotation angle of the limiting plate 4.

The utility model provides a pair of precision component numerical control processingequipment's implementation principle does: the negative pressure fan 13 is turned on, and the negative pressure fan 13 pumps the air in the placing groove 10 outwards, so that the placing groove 10 is in a negative pressure state, and therefore the air above the filter plate 12 is sucked into the placing groove 10, namely the range of collecting the scraps is larger. And the scraps are intercepted under the action of the gauze 15, so that secondary pollution to the air below the workbench 1 is avoided, and the scrap collecting effect is better.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the invention. The present invention is not to be limited by the specific embodiments disclosed herein, and other embodiments that fall within the scope of the claims of the present application are intended to be within the scope of the present invention.

Claims (9)

1. The utility model provides a precision component numerical control processingequipment which characterized in that:

including workstation (1), workstation (1) lateral wall is provided with standing groove (10), standing groove (10) interpolation is equipped with dust collection box (11) and dust collection box (11) can follow standing groove (10) length direction and slide, the top of standing groove (10) extends to workstation (1) roof, workstation (1) roof is fixed to be provided with filter plate (12), standing groove (10) tank bottom runs through and is provided with negative pressure hole (130), be provided with negative pressure fan (13) in negative pressure hole (130), dust collection box (11) diapire runs through and is provided with a plurality of holes (14) of induced drafting, it is linked together with negative pressure hole (130) to induced draft hole (14), dust collection box (11) bottom is connected with gauze (15) that are used for closing cap a plurality of negative pressure holes (130).

2. The numerical control machining apparatus for precision members according to claim 1, characterized in that:

mounting hole (20) have been seted up to the inboard diapire of dust collection box (11), mounting hole (20) are linked together with a plurality of holes (14) that induced drafts, mounting hole (20) female connection has collar (2), gauze (15) link to each other with collar (2).

3. The numerical control machining apparatus for precision members according to claim 2, characterized in that:

the gauze (15) is abutted between the bottom wall of the mounting ring (2) and the inner side bottom wall of the dust collection box (11).

4. The numerical control machining apparatus for precision members according to claim 3, characterized in that:

the gauze is characterized in that a plurality of anti-slip rods (3) are fixedly arranged on the edge of the gauze (15) along the circumferential direction of the gauze, a plurality of anti-slip holes (30) are formed in the bottoms of the mounting holes (20), the anti-slip rods (3) correspond to the anti-slip holes (30) one to one, and the anti-slip rods (3) are inserted into the corresponding anti-slip holes (30) in an adaptive mode.

5. The numerical control machining apparatus for precision members according to claim 4, characterized in that:

the anti-slip rod is characterized in that anti-slip blocks (31) are fixedly arranged on the side wall of the anti-slip rod (3), anti-slip holes (310) are formed in the inner side wall of each anti-slip hole (30), and the anti-slip blocks (31) are inserted into the anti-slip holes (310) in an adaptive mode.

6. The numerical control machining apparatus for precision members according to claim 5, characterized in that:

the top wall at the edge of the gauze (15) is fixedly provided with a wear-resistant layer (32), and the wear-resistant layer (32) is abutted to the bottom wall of the mounting ring (2).

7. The numerical control machining apparatus for precision members according to claim 2, characterized in that:

two anti-skidding convex edges (21) are fixedly arranged on the top wall of the mounting ring (2), the tops of the anti-skidding convex edges (21) extend out of the opening of the mounting hole (20), and the anti-skidding convex edges (21) are symmetrically arranged by taking the axis of the mounting ring (2) as a symmetry axis.

8. The numerical control machining apparatus for precision members according to claim 1, characterized in that:

the side wall of the filter plate (12) is rotatably connected with a limiting plate (4), and the bottom of the limiting plate (4) is positioned on the side of the dust collection box (11).

9. The numerical control machining apparatus for precision members according to claim 8, characterized in that:

limiting plate (4) are provided with rubber gasket (41) towards the fixed side of filter plate (12), and when the bottom of limiting plate (4) upwards rotated, rubber gasket (41) can with filter plate (12) lateral wall looks butt with the turned angle of locking limiting plate (4).

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