CN210477539U - Water gap cutting tool assembly - Google Patents

Abstract

The utility model relates to a mouth of a river excision cutter unit spare for the mouth of a river on the excision work piece, it includes: a tool apron; the cutter is arranged on the cutter holder, a plurality of blades are arranged on a cutting surface of the cutter, the blades are sequentially arranged on the cutting surface, and the arrangement direction of the blades is consistent with the moving direction of the cutter relative to the water gap; and the elastic mechanism is arranged between the cutter holder and the cutter, and under the action of the elastic mechanism, the cutter has a movement amount back to the cutting surface relative to the cutter holder after being contacted with the water gap. When the cutter moves relative to the workpiece, the cutting edge is sequentially contacted with the water gap on the workpiece so as to cut the water gap for multiple times, and burrs at the water gap can be effectively cut; and because of the effect of elastic mechanism, have certain supporting force between cutter and the mouth of a river to make the cutting edge hug closely with the mouth of a river, thereby can avoid making the burr excision thorough.

Description

Water gap cutting tool assembly

Technical Field

The utility model relates to a mouth of a river excision cutter unit spare.

Background

In the conventional case that the mouth of a river was got rid of to the working of plastics, get rid of the mouth of a river and mainly rely on single sword of opening to excise, great mouth of a river can be amputated to traditional mode, but to burr effect unstability, mouth of a river burr is less with product connection, and no hardness can't once be cut off by die-cut sword.

Therefore, how to remove the burr requires a new device to be designed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a mouth of a river excision cutter unit spare can get rid of mouth of a river burr well.

In order to achieve the above purpose, the utility model adopts the technical scheme that:

the utility model provides a mouth of a river excision cutter unit spare for the mouth of a river on the excision work piece, it includes:

a tool apron;

the cutter is arranged on the cutter holder, a plurality of blades are arranged on a cutting surface of the cutter, the blades are sequentially arranged on the cutting surface, and the arrangement direction of the blades is consistent with the moving direction of the cutter relative to the water gap;

and the elastic mechanism is arranged between the cutter holder and the cutter, and under the action of the elastic mechanism, the cutter has a movement amount back to the cutting surface relative to the cutter holder after being contacted with the water gap.

Optionally, a gap is provided between the cutting edges, and the gap communicates at a position facing away from the cutting surface to form a row of cutting grooves.

Further, the row of cutting flutes is disposed in the tool.

Optionally, the tool holder is provided with a guide groove, and the tool is embedded in the guide groove so as to guide the tool to move in a direction away from the cutting surface.

Furthermore, the guide groove is expanded outwards at a set position back to the cutting surface, and the cutter is correspondingly expanded outwards and abuts against the expanded part of the guide groove.

Optionally, the elastic mechanism is disposed on a back surface of the tool facing away from the cutting surface, and the elastic mechanism includes a spring i, and the spring i elastically deforms during movement of the tool facing away from the cutting surface.

Optionally, a positioning groove is formed in the cutter, a positioning pin is arranged in the cutter holder, and the front end of the positioning pin extends into the positioning groove.

Optionally, it further comprises:

the brake rod is arranged in the tool apron in a sliding mode and used for abutting against the workpiece.

Further, it also includes:

and the spring II is arranged between the tool apron and the brake rod, and elastically deforms in the sliding process of the brake rod.

Furthermore, a limiting groove is formed in the brake rod, the limiting groove extends along the moving direction of the cutter relative to the workpiece, a limiting pin is arranged on the cutter holder, and the front end of the limiting pin extends into the limiting groove.

Because of the application of the technical scheme, compared with the prior art, the utility model has the following advantages:

the utility model discloses a mouth of a river excision cutter subassembly, because be provided with a plurality of cutting edges on the cutter, and the cutting edge arranges in proper order on the cutting face, the direction of array is unanimous with the cutter relative to the direction of movement of mouth of a river, therefore when the cutter moved relative to the work piece, the cutting edge contacted with the mouth of a river on the work piece in proper order thus cut the mouth of a river many times, can effectively cut the burr of mouth of a river; and because of the effect of elastic mechanism, have certain supporting force between cutter and the mouth of a river to make the cutting edge hug closely with the mouth of a river, thereby can avoid making the burr excision thorough.

Drawings

Some specific embodiments of the present invention will be described in detail hereinafter, by way of illustration and not by way of limitation, with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar elements or components. Those skilled in the art will appreciate that the drawings are not necessarily drawn to scale. In the drawings:

fig. 1 is a perspective schematic view of a nozzle cutting tool assembly according to a preferred embodiment of the present invention;

FIG. 2 is a cross-sectional view A-A of FIG. 1;

FIG. 3 is a schematic cut away nozzle;

FIG. 4 is an enlarged schematic view of the bottom member of FIG. 2;

FIG. 5 is a perspective view of the tool and a partial insert seat structure for limiting the tool;

FIG. 6 is a schematic view of the tool mounted in the holder;

wherein the reference numerals are as follows:

1. a tool apron;

2. a cutter;

3. cutting the surface;

4. a blade;

5. an elastic mechanism;

6. a void;

7. arranging and cutting grooves;

8. a guide groove;

9. a back side;

10. a spring I;

11. positioning a groove;

12. positioning pins;

13. a brake lever;

14. a spring II;

15. a limiting groove;

16. a spacing pin;

17. a chute I;

18. a chute II;

19. a workpiece;

20. a nozzle.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Furthermore, the technical features mentioned in the different embodiments of the invention described below can be combined with each other as long as they do not conflict with each other.

As shown in fig. 1, the nozzle cutting tool assembly includes a holder 1, and the holder 1 is mounted on a driving mechanism (not shown) and driven by the driving mechanism to move up and down. A cutter 2 is mounted in the cutter holder 1.

As shown in fig. 2, a slide groove i 17 in the vertical direction is opened in the tool holder 1, the slide groove 17 extends vertically and downwardly from the top of the tool holder 1, and the tool 2 slides into a predetermined position from the top to the bottom from the slide groove i 17.

As shown in fig. 5, the back surface 9 of the cutter 2 is provided with a positioning groove 11, as shown in fig. 2, the cutter holder 1 is provided with a positioning pin 12, and the front end of the positioning pin 12 extends into the positioning groove 11, so as to limit the cutter 2 from moving up and down. The front-rear position (left-right position in fig. 2) of the positioning pin 12 is adjustable. The front end of the positioning pin 12 does not abut against the cutter 2, so that a space is reserved for the left and right movement of the cutter 2.

As shown in fig. 2 and 3, the back 9 of the cutter 2 is provided with an elastic mechanism 5, and the elastic mechanism 5 is two spring plungers which are of a structure conventional in the art and are provided with springs i 10. The elastic mechanism 5 is arranged between the tool apron 1 and the tool 2 and is used for tightly abutting against the tool 2. After the cutter 2 contacts the workpiece 19, the cutter 2 contacts the water gap 20 and slightly moves to the left, and the spring I10 moves to the left in the cutter 2 and is compressed to increase the elastic force, so that the cutter 2 is tightly pressed on the water gap 20. The spring force of the spring I10 is adjustable, for example, the spring plunger can be moved back to the left or moved forward to the right.

As shown in fig. 5, the cutting surface 3 of the cutter 2 is provided with a plurality of cutting edges 4, the cutting edges 4 are arranged in sequence in the vertical direction, and the cutting edges 4 are contacted with the water gap 20 on the workpiece 19 in sequence during the downward movement of the cutter 2 along with the cutter holder 1, so that the water gap 20 is cut for a plurality of times, and burrs on the water gap 20 can be removed well.

As shown in fig. 5, the cutting edges 4 are provided with gaps 6 therebetween, the gaps 6 extend away from the cutting surface 3, and inner ends of the gaps 6 are communicated to form cutting grooves 7, and the cutting grooves 7 are used for cutting. The row cutting grooves 7 are opened in the cutter 2, thereby reducing the weight of the cutter 2. The row of cutting flutes 7 extend up and down the tool 2 and through the tool 2 to facilitate removal of the cuts in the row of cutting flutes 7.

As shown in fig. 2, the left side of the knife 2 is still spaced from the left wall of the slide i 17 for the knife 2 to retreat to the left. As shown in fig. 5 and 6, the lower end portion of the slide groove i 17 is a guide groove 8, and the guide groove 8 extends from the front to the rear (from the right to the left in fig. 2). The tool 2 is fitted in the guide groove 8, and the guide groove 8 guides the tool 2 so that the tool 2 can move only in the front-rear direction (left-right direction in fig. 2). I.e. the guide groove 8 guides the movement of the tool 2 in the direction facing away from the cutting surface 3.

As shown in fig. 5 and 6, the guide groove 8 is expanded outward at a set position facing away from the cutting surface 3, and the cutter 2 is correspondingly expanded outward and abuts against the expanded portion of the guide groove 8, thereby restricting the forward movement (rightward movement in fig. 2) of the cutter 2. As shown in fig. 6, the cutting surface 3 does not protrude from the C-surface of the holder 1, the C-surface can be zero-matched with the workpiece 19, the burr on the nozzle 20 is very thin and much smaller than the horizontal width of the single blade 4, the blade 4 cannot contact the workpiece 19 (i.e. the product) due to the blocking of the C-surface, and the blade 4 only contacts the nozzle 20, so that the surface of the workpiece 19 can be protected from being scratched when the burr on the nozzle 20 is cut off.

As shown in fig. 1 and 2, the tool apron 1 is further provided with a sliding groove ii 18. Chute II 18 extends vertically downward. A brake lever 13 is slidably disposed in the sliding groove ii 18. A spring II 14 is arranged at the upper end of the brake rod 13, and when the brake rod 13 slides upwards, the spring II 14 is compressed; spring II 14 expands and contracts to enable brake lever 13 to slide downwards and reset. The lower end of the brake rod 13 extends out of the sliding groove II 18 and is used for abutting against a workpiece 19.

In this example, second chute 18 is in communication with first chute 17, and in other embodiments, second chute 18 may not be in communication with first chute 17.

The side of brake lever 13 is opened with spacing groove 15, and spacing groove 15 extends in the brake lever 13 slip direction. A limit pin 16 is fixed in the tool holder 1, and the front end of the limit pin 16 extends into the limit groove 15. The limit pin 16 is matched with the limit groove 15, so that the brake rod 13 is arranged in the sliding groove II 18 in a sliding mode, and the stroke of the brake rod 13 is limited.

The working principle is as follows:

as shown in fig. 2, the work piece 19 is placed below the brake lever 13, and the brake lever 13 comes into contact with the work piece 19 and stops during the downward movement of the tool rest 1 in the B direction. As shown in fig. 3, the tool holder 1 moves downward, and the brake lever 13 abuts against the workpiece 19 to restrict the movement of the workpiece 19. At this time, the cutter 2 contacts the water gap 20 on the workpiece 19, and the plurality of blades 4 arranged up and down sequentially cut the water gap 20 to cut off burrs on the water gap 20, and the burrs can be effectively removed by cutting the water gap 20 by the blades 4 for a plurality of times because the burr connection is small and has no hardness. Meanwhile, the cutter 2 slightly retreats leftwards due to the fact that the water gap 20 slightly extrudes the cutter 2 leftwards, namely the cutter 2 has a movement amount away from the cutting face 3, and due to the effect of the elastic mechanism 5, the cutter 2 is tightly abutted against the water gap 20 to cut, so that burrs can be cut more thoroughly.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and to implement the present invention, so as not to limit the protection scope of the present invention, and all equivalent changes or modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (10)

1. A nozzle cutting tool assembly for cutting a nozzle in a workpiece, comprising:

a tool apron (1);

the cutter (2) is arranged on the cutter holder (1), a plurality of blades (4) are arranged on a cutting surface (3) of the cutter (2), the blades (4) are sequentially arranged on the cutting surface (3), and the arrangement direction is consistent with the moving direction of the cutter (2) relative to the water gap;

the elastic mechanism (5) is arranged between the tool holder (1) and the tool (2), and under the action of the elastic mechanism (5), the tool (2) has a movement amount which is back to the cutting surface (3) relative to the tool holder (1) after being contacted with the water gap.

2. The nozzle cutting tool assembly of claim 1, wherein: gaps (6) are arranged between the cutting edges (4), and the gaps (6) are communicated at positions back to the cutting surface (3) to form cutting grooves (7).

3. The nozzle cutting tool assembly of claim 2, wherein: the row of cutting grooves (7) is arranged in the tool (2).

4. The nozzle cutting tool assembly of claim 1, wherein: a guide groove (8) is formed in the tool apron (1), and the tool (2) is embedded in the guide groove (8) so as to guide the tool (2) to move in the direction opposite to the cutting surface (3).

5. The nozzle cutting tool assembly of claim 4, wherein: the guide groove (8) is expanded outwards at a set position back to the cutting surface (3), and the cutter (2) is correspondingly expanded outwards and is abutted against the expanded part of the guide groove (8).

6. The nozzle cutting tool assembly of claim 1, wherein: the elastic mechanism (5) is arranged on the back surface (9) of the cutter (2) back to the cutting surface (3), the elastic mechanism (5) comprises a spring I (10), and the spring I (10) is elastically deformed in the moving process of the cutter (2) back to the cutting surface (3).

7. The nozzle cutting tool assembly of claim 1, wherein: the cutter (2) is provided with a positioning groove (11), the cutter holder (1) is provided with a positioning pin (12), and the front end of the positioning pin (12) extends into the positioning groove (11).

8. The nozzle cutting tool assembly of claim 1, further comprising:

the brake rod (13), the brake rod (13) sets up in the blade holder (1) that slides, is used for supporting tightly the work piece.

9. The nozzle cutting tool assembly of claim 8, further comprising:

the spring II (14) is arranged between the tool apron (1) and the brake rod (13), and the spring II (14) is elastically deformed in the sliding process of the brake rod (13).

10. The nozzle cutting tool assembly of claim 8, wherein: the tool rest is characterized in that a limiting groove (15) is formed in the brake rod (13), the limiting groove (15) extends along the moving direction of the tool (2) relative to the workpiece, a limiting pin (16) is arranged on the tool rest (1), and the front end of the limiting pin (16) extends into the limiting groove (15).

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