CN209902376U - Tool for producing camshaft with positioning cutting function - Google Patents

Abstract

The utility model provides a tool for producing a camshaft for positioning cutting, which comprises a supporting seat, wherein a first groove is arranged above the supporting seat, a first cylinder is arranged in the first groove, the first cylinder can be detachably connected with a first moving plate, a first positioning structure is arranged on the supporting seat, and the first positioning structure is connected with the first moving plate in a positioning way; can dismantle on the first movable plate and connect the channel plate, correspond on the channel plate and be equipped with a plurality of cell type structures, its bilateral symmetry is equipped with first spout, is equipped with the lift apron in the first spout, and lift apron one side lock is a plurality of cell type structure, and supporting seat top one end is equipped with the lift cutting structure, and is equipped with the water tank on the supporting seat, and the water tank top is equipped with first connecting pipe, and first connecting pipe can be dismantled and connect the lift cutting structure, and lift cutting structure one side is equipped with first limit structure, and first limit structure below is equipped with a plurality of shower nozzles, and a plurality of shower nozzles correspond and connect first connecting. The shaft positioning is realized through the first moving plate and the first positioning structure, and the positioning cutting is realized.

Description

Tool for producing camshaft with positioning cutting function

Technical Field

The utility model relates to a camshaft production technical field mainly relates to the instrument of camshaft production usefulness of location cutting.

Background

A cam refers to a mechanical rotary or sliding member (such as a wheel or a projecting portion of a wheel) which transmits motion to a roller moving against its edge or to a needle bar moving freely on a grooved surface, or which is subjected to forces from such a roller and needle bar.

When the existing cam is machined, the cam is placed into the corresponding groove-shaped structure, and then the fixed cam is sent out to the position of the cutting structure through the moving structure to be cut.

However, if the size that the cell type structure indent set up is undersized, then the installation degree of difficulty increases, if be the oversize, then easily cause the inaccurate technical problem of size during the cutting.

SUMMERY OF THE UTILITY MODEL

The utility model provides an instrument of camshaft production usefulness of location cutting is used for solving the size undersize that the cell type structure inner groovy that proposes set up in the background art, then installs the degree of difficulty and increases, if the size is too big, easily causes the inaccurate technical problem of size during then cutting.

In order to achieve the above object, the utility model provides a following technical scheme: a tool for producing a camshaft for positioning cutting comprises a supporting seat, wherein a first groove is formed above the supporting seat, a first air cylinder is arranged in the first groove, the first air cylinder is detachably connected with a first moving plate, a first positioning structure is arranged on the supporting seat, and the first positioning structure is connected with the first moving plate in a positioning mode;

can dismantle on the first movable plate and connect the channel plate, it is equipped with a plurality of cell type structures to correspond on the channel plate, and is a plurality of cell type structure bilateral symmetry is equipped with first spout, be equipped with the lift apron in the first spout, lift apron one side corresponds the lock a plurality of cell type structure, just supporting seat top one end is equipped with lift cutting structure, just be equipped with the water tank on the supporting seat, the water tank top is equipped with first connecting pipe, first connecting pipe can be dismantled the connection lift cutting structure, lift cutting structure one side is equipped with first limit structure, first limit structure below is equipped with a plurality of shower nozzles, and is a plurality of the shower nozzle corresponds the connection first connecting pipe.

Preferably, first movable plate below symmetry is equipped with two spacing card strips, first recess bilateral symmetry is equipped with two second spouts, two spacing card strip sliding connection is two the second spout, just first movable plate below is "T" style of calligraphy setting of falling.

Preferably, the first sliding groove is arranged in a U-shaped shape, the lifting cover plate comprises a first mounting plate, the first mounting plate is detachably connected with the bottom of one end of the first sliding groove, two first telescopic rods are symmetrically arranged at two sides above the first mounting plate, a second air cylinder is arranged in the middle of the two first telescopic rods, the two first telescopic rods and the second air cylinder can be detachably connected with a first connecting plate, a first rotating shaft is arranged above the first connecting plate, one end of the first rotating shaft is provided with a first driving motor, one end of the first connecting plate is provided with a second connecting plate which is arranged in an L-like shape, the first driving motor is detachably connected with the second connecting plate, a cover plate is arranged above the first rotating shaft, the cover plate is correspondingly provided with a plurality of concave-convex structures, and the concave-convex structures are correspondingly buckled and connected with the groove-shaped structures.

Preferably, the inboard one end of cell type structure is equipped with compact structure, compact structure includes two circular stripper plates, two circular stripper plate one side symmetry is equipped with first connecting strip, the cell type structure includes two at least, and two between the cell type structure be equipped with the second spout on the cell type board, first connecting strip sliding connection the second spout, first connecting strip middle part is rotated and is connected first lead screw, first lead screw is equipped with second driving motor for one section, second driving motor is located the second spout is inboard, and two the cell type structure below all is equipped with the third spout, circular stripper plate below is equipped with first draw runner, first draw runner sliding connection the third spout.

Preferably, a first induction block is arranged on one side of the first moving plate, the first positioning structure comprises a first positioning plate, fourth chutes are formed in three sides of the first positioning plate, a first lead screw is arranged in each fourth chute and is connected with the first positioning block in a rotating mode, a first sliding block is arranged above the first positioning block, the first lead screw is connected with the first positioning plate in a bearing mode, a first rotating block is arranged at one end of the first lead screw, a second connecting block is detachably connected to one side of the first positioning block, an infrared inductor is arranged on the second connecting block and is connected with the first induction block in an induction mode, a triangular shape is formed in the upper portion of the first sliding block, a graduated scale is arranged on the first positioning plate, and the first sliding block is connected with the graduated scale in an indicating mode.

Preferably, first sliding block opposite side is equipped with the third connecting block, the third connecting block is "L" type setting, just third connecting block sliding connection opposite side the fourth spout.

Preferably, the lifting cutting structure comprises two first supporting columns, two third cylinders are respectively arranged above the first supporting columns, two first supporting columns are arranged above the third cylinders, two first supporting plates are arranged above the third cylinders, the first supporting columns are fixedly connected with a first inclined plate, two first rotating wheels are symmetrically arranged on one side of the first inclined plate, cutting racks are arranged on the two first rotating wheels, a first baffle column is arranged on the first inclined plate and is in sliding connection with the cutting racks, the first baffle column is in inclined arrangement, two first limiting structures are arranged in the middle of the first baffle column, each first limiting structure comprises a first limiting plate, the first limiting plate and the first inclined plate are in inclined arrangement, a fifth chute is arranged below the first limiting plate, two limiting strips are symmetrically arranged on the inner side of the fifth chute, and are connected with the cutting racks in an extrusion manner, and a plurality of spray heads are arranged at the inner opening of the fifth chute.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses a first cylinder realizes the removal of first movable plate, and is equipped with first location structure on the supporting seat, and the position of first movable plate is connected in first location to realize controlling the position of first movable plate, and then reach the purpose of the position of control camshaft cutting.

Simultaneously, through being provided with the lift apron on the template of groove to make things convenient for the installation and the dismantlement of camshaft, realize intelligent cutting through lift cutting structure when cutting at last, accelerate cutting speed simultaneously, and, owing to be provided with the water tank, can reduce the dust that produces in the cutting process through the water tank water spray, cut more totally.

Drawings

Fig. 1 is a schematic plan view of the present invention;

fig. 2 is a schematic diagram of a first moving plate structure of the present invention;

fig. 3 is a schematic view of the compressing structure of the present invention;

FIG. 4 is a schematic view of the lifting cover plate of the present invention;

fig. 5 is a schematic view of a first positioning structure of the present invention;

FIG. 6 is a schematic view of the lifting and cutting structure of the present invention;

fig. 7 is a schematic view of the first limiting structure of the present invention.

In the figure: 1-a support base, 11-a first groove, 12-a first cylinder, 13-a water tank, 14-a first connecting pipe, 15-a second chute, 2-a first moving plate, 3-a first positioning structure, 31-a first positioning plate, 311-a scale, 32-a fourth chute, 33-a first screw, 34-a first positioning block, 341-a second connecting block, 342-an infrared sensor, 35-a first sliding block, 36-a first rotating block, 37-a third connecting block, 4-a slotted plate, 41-a slotted structure, 42-a first chute, 43-a second chute, 44-a third chute, 5-a lifting cover plate, 51-a first mounting plate, 52-a first telescopic rod, 53-a second cylinder, 54-a first connecting plate, 55-a first rotating shaft, 56-a first driving motor, 57-a second connecting plate, 58-a cover plate, 59-a concave-convex structure, 6-a lifting cutting structure, 61-a first supporting column, 62-a third air cylinder, 63-a first supporting plate, 64-a first inclined plate, 65-a first rotating wheel, 66-a cutting rack, 67-a first baffle column, 7-a first limiting structure, 71-a spray head, 72-a first limiting plate, 721-a fifth chute, 722-a limiting strip, 8-a pressing structure, 81-a circular extrusion plate, 82-a first connecting strip, 83-a first screw rod, 84-a second driving motor and 85-a first sliding strip.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully with reference to the accompanying drawings, in which several embodiments of the present invention are shown, but the present invention can be implemented in different forms, and is not limited to the embodiments described in the text, but rather, these embodiments are provided to make the disclosure of the present invention more thorough and comprehensive.

In an embodiment, referring to fig. 1 to 7, a tool for producing a camshaft for positioning cutting includes a supporting seat 1, a first groove 11 is disposed above the supporting seat 1, a first cylinder 12 is disposed in the first groove 11, the first cylinder 12 is detachably connected to a first moving plate 2, a first positioning structure 3 is disposed on the supporting seat 1, and the first positioning structure 3 is connected to the first moving plate 2 in a positioning manner;

can dismantle spread groove template 4 on the first movable plate 2, it is equipped with a plurality of cell type structures 41 to correspond on the groove template 4, and is a plurality of cell type structure 41 bilateral symmetry is equipped with first spout 42, be equipped with lifting cover plate 5 in the first spout 42, 5 one sides of lifting cover plate correspond the lock it is a plurality of cell type structure 41, just 1 top one end of supporting seat is equipped with lift cutting structure 6, just be equipped with water tank 13 on the supporting seat 1, the water tank 13 top is equipped with first connecting pipe 14, first connecting pipe 14 can be dismantled the connection lift cutting structure 6, 6 one side of lift cutting structure is equipped with first limit structure 7, it is equipped with a plurality of shower nozzles 71 to be equipped with below first limit structure 7, and is a plurality of shower nozzle 71 corresponds the connection first connecting pipe 14.

In an embodiment, referring to fig. 1 to 7, two limiting clamping strips 21 are symmetrically disposed below the first moving plate 2, two second sliding grooves 15 are symmetrically disposed at two sides of the first groove 11, the two limiting clamping strips 21 are slidably connected to the two second sliding grooves 15, and the lower portion of the first moving plate 2 is disposed in an inverted "T" shape.

In an embodiment, referring to fig. 1 to 7, the first sliding chute 42 is disposed in a shape similar to a "U", and the lifting cover plate 5 includes a first mounting plate 51, the first mounting plate 51 is detachably connected to a bottom of one end of the first sliding chute 42, two first telescopic rods 52 are symmetrically disposed on two sides above the first mounting plate, a second air cylinder 53 is disposed in a middle portion of each of the two first telescopic rods 52, both the two first telescopic rods 52 and the second air cylinders 53 are detachably connected to a first connecting plate 54, a first rotating shaft 55 is disposed above the first connecting plate 54, a first driving motor 56 is disposed at one end of the first rotating shaft 55, a second connecting plate 57 is disposed at one end of the first connecting plate 54, the second connecting plate 57 is disposed in a shape similar to an "L", the first driving motor 56 is detachably connected to the second connecting plate 57, a cover plate 58 is disposed above the first rotating shaft 55, the cover plate 58 is correspondingly provided with a plurality of concave-convex structures 59, and the concave-convex structures 59 are correspondingly buckled with the groove-shaped structures 41.

In an embodiment, referring to fig. 1 to 7, a compressing structure 8 is disposed at one end of an inner side of the groove-shaped structure 41, the compressing structure 8 includes two circular squeezing plates 81, first connecting bars 82 are symmetrically disposed on one side of the two circular squeezing plates 81, the groove-shaped structure 41 includes at least two groove-shaped structures 41, a second sliding groove 43 is disposed between the two groove-shaped structures 41 and on the groove-shaped plate 4, the first connecting bars 82 are slidably connected to the second sliding groove 43, the middle portion of the first connecting bars 82 is rotatably connected to a first lead screw 83, a second driving motor 84 is disposed at one section of the first lead screw 83, the second driving motor 84 is located at an inner side of the second sliding groove 43, third sliding grooves 44 are disposed below the two groove-shaped structures 41, a first sliding bar 85 is disposed below the circular squeezing plates 81, and the first sliding bar 85 is slidably connected to the third sliding groove 44.

In an embodiment, referring to fig. 1 to 7, a first sensing block 22 is disposed on one side of the first moving plate 2, the first positioning structure 3 includes a first positioning plate 31, third sides of the first positioning plate 31 are respectively provided with a fourth sliding slot 32, a first lead screw 33 is disposed in the fourth sliding slot 32, the first lead screw 33 is rotatably connected to a first positioning block 34, a first sliding block 35 is disposed above the first positioning block 34, the first lead screw 33 is connected to the first positioning plate 31 through a bearing, a first rotating block 36 is disposed at one end of the first lead screw 33, a second connecting block 341 is detachably connected to one side of the first positioning block 34, an infrared sensor 342 is disposed on the second connecting block 341, the infrared sensor 342 is connected to the first sensing block 22 in a sensing manner, a triangular arrangement is disposed above the first sliding block 35, a scale 311 is disposed on the first positioning plate 31, the first slider 35 indicates the connection of the scale 311.

In an embodiment, referring to fig. 1 to 7, a third connecting block 37 is disposed on the other side of the first sliding block 35, the third connecting block 37 is L-shaped, and the third connecting block 37 is slidably connected to the fourth sliding groove 32 on the other side.

In an embodiment, referring to fig. 1 to 7, the lifting and cutting structure 6 includes two first support columns 61, two third cylinders 62 are respectively disposed above the two first support columns 61, two first support plates 63 are disposed above the two third cylinders 62, the first support columns 61 are fixedly connected to a first inclined plate 64, two first rotating wheels 65 are symmetrically disposed on one side of the first inclined plate 64, cutting racks 66 are disposed on the two first rotating wheels 65, a first stopper 67 is disposed on the first inclined plate 64, the first stopper 67 is slidably connected to the cutting racks 66, the first stopper 67 is disposed in an inclined manner, a first limiting structure 7 is disposed in the middle of the two first stoppers 67, the first limiting structure 7 includes a first limiting plate 72, the first limiting plate 72 and the first inclined plate 73 are disposed in an inclined manner, and a fifth chute 721 is disposed below the first limiting plate 72, two limiting strips 722 are symmetrically arranged on the inner side of the fifth sliding groove 721, the two limiting strips 722 are connected with the cutting rack 66 in an extrusion mode, and a plurality of spray heads 71 are arranged at the inner opening of the fifth sliding groove 721.

The operation principle is as follows: when the utility model is needed to be cut, the second cylinder is lifted up by pressing the controller on the operating platform, and then the first driving motor is rotated, so as to facilitate the installation of the camshaft, after the installation is completed, the second cylinder is descended, and meanwhile, the first driving motor is rotated, so that the cover plate is connected with the first chute in a sliding way, and the corresponding concave-convex structure is buckled with the groove structure;

when the cover plate is not completely buckled, the second driving motor drives the first screw rod to rotate, so that the first connecting strip slides, the circular extrusion plate extrudes the connecting shaft part, and the protruding part of the shaft is attached to the corresponding groove-shaped structure.

Then adjust first lead screw through rotatory first rotatory piece and rotate, and then make first sliding block be located, because first sliding block top is the triangle setting, the triangle that corresponds sets up in the scale and connects, and then makes things convenient for the cutting length of regulating spindle one end.

After reaching the assigned position, the third cylinder descends, and first rotation wheel rotates to drive the cutting rack countershaft and cut, export the water in the water tank through first connecting pipe simultaneously, spout through a plurality of shower nozzles, and then when reaching the cutting, also reach the effect of dust fall.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the appended claims and their equivalents, and thus the embodiments of the invention are intended only as illustrative examples of the invention and no limitation of the invention is intended whatsoever to be construed by the embodiments of the invention.

Claims (7)

1. The utility model provides a tool of camshaft production usefulness of location cutting, includes supporting seat (1), its characterized in that: a first groove (11) is formed above the supporting seat (1), a first air cylinder (12) is arranged in the first groove (11), the first air cylinder (12) is detachably connected with the first moving plate (2), a first positioning structure (3) is arranged on the supporting seat (1), and the first positioning structure (3) is connected with the first moving plate (2) in a positioning mode;

the movable plate is characterized in that a groove-shaped plate (4) is detachably connected to a first movable plate (2), a plurality of groove-shaped structures (41) are correspondingly arranged on the groove-shaped plate (4), first sliding grooves (42) are symmetrically arranged on two sides of the plurality of groove-shaped structures (41), a lifting cover plate (5) is arranged in each first sliding groove (42), one side of the lifting cover plate (5) is correspondingly buckled with the plurality of groove-shaped structures (41), a lifting cutting structure (6) is arranged at one end above a supporting seat (1), a water tank (13) is arranged on the supporting seat (1), a first connecting pipe (14) is arranged above the water tank (13), the first connecting pipe (14) is detachably connected with the lifting cutting structure (6), a first limiting structure (7) is arranged on one side of the lifting cutting structure (6), a plurality of spray heads (71) are arranged below the first limiting structure (7, the plurality of spray heads (71) are correspondingly connected with the first connecting pipes (14).

2. The tool for producing the camshaft with the positioned cutting function as claimed in claim 1, wherein: first movable plate (2) below symmetry is equipped with two spacing card strips (21), first recess (11) bilateral symmetry is equipped with two second spout (15), two spacing card strip (21) sliding connection is two second spout (15), just first movable plate (2) below is "T" style of calligraphy setting of falling.

3. The tool for producing the camshaft with the positioned cutting function as claimed in claim 1, wherein: the first sliding groove (42) is arranged in a U-shaped shape, the lifting cover plate (5) comprises a first mounting plate (51), the first mounting plate (51) is detachably connected with the bottom of one end of the first sliding groove (42), two first telescopic rods (52) are symmetrically arranged on two sides above the first mounting plate, a second air cylinder (53) is arranged in the middle of each first telescopic rod (52), the first telescopic rods (52) and the second air cylinders (53) can be detachably connected with a first connecting plate (54), a first rotating shaft (55) is arranged above the first connecting plate (54), a first driving motor (56) is arranged at one end of the first rotating shaft (55), a second connecting plate (57) is arranged at one end of the first connecting plate (54), the second connecting plate (57) is arranged in an L-shaped shape, and the first driving motor (56) is detachably connected with the second connecting plate (57), a cover plate (58) is arranged above the first rotating shaft (55), a plurality of concave-convex structures (59) are correspondingly arranged on the cover plate (58), and the concave-convex structures (59) are correspondingly buckled and connected with the groove-shaped structures (41).

4. The tool for producing the camshaft with the positioned cutting function as claimed in claim 1, wherein: the groove structure (41) is characterized in that a pressing structure (8) is arranged at one end of the inner side of the groove structure (41), the pressing structure (8) comprises two circular extrusion plates (81), two first connecting strips (82) are symmetrically arranged on one side of each circular extrusion plate (81), the groove structure (41) comprises at least two groove structures (41), a second sliding groove (43) is formed between the groove structures (41) and on the groove plate (4), the first connecting strips (82) are connected with the second sliding groove (43) in a sliding mode, the middle of each first connecting strip (82) is connected with a first lead screw (83) in a rotating mode, one section of each first lead screw (83) is provided with a second driving motor (84), the second driving motors (84) are located on the inner side of the second sliding groove (43), a third sliding groove (44) is formed below each groove structure (41), a first sliding strip (85) is arranged below each circular extrusion plate (81), the first sliding strip (85) is connected with the third sliding groove (44) in a sliding mode.

5. The tool for producing the camshaft with the positioned cutting function as claimed in claim 1, wherein: a first induction block (22) is arranged on one side of the first moving plate (2), the first positioning structure (3) comprises a first positioning plate (31), third sides of the first positioning plate (31) are respectively provided with a fourth sliding groove (32), a first lead screw (33) is arranged in the fourth sliding groove (32), the first lead screw (33) is rotatably connected with a first positioning block (34), a first sliding block (35) is arranged above the first positioning block (34), the first lead screw (33) is in bearing connection with the first positioning plate (31), one end of the first lead screw (33) is provided with a first rotating block (36), one side of the first positioning block (34) is detachably connected with a second connecting block (341), an infrared inductor (342) is arranged on the second connecting block (341), and the infrared inductor (342) is in induction connection with the first induction block (22), and first sliding block (35) top is the triangle setting, be equipped with scale (311) on first locating plate (31), first sliding block (35) instruct to connect scale (311).

6. The tool for producing the camshaft with the positioned cutting function as claimed in claim 5, wherein: first sliding block (35) opposite side is equipped with third connecting block (37), third connecting block (37) are "L" type setting, just third connecting block (37) sliding connection opposite side fourth spout (32).

7. The tool for producing the camshaft with the positioned cutting function as claimed in claim 1, wherein: the lifting cutting structure (6) comprises two first supporting columns (61), two first supporting columns (61) are respectively provided with two third air cylinders (62) above the first supporting columns (61), two third supporting plates (63) above the third air cylinders (62), the first supporting columns (61) are fixedly connected with first inclined plates (64), one side of each first inclined plate (64) is symmetrically provided with two first rotating wheels (65), two first rotating wheels (65) are provided with cutting racks (66), the first inclined plates (64) are provided with first stop columns (67), the first stop columns (67) are in sliding connection with the cutting racks (66), the first stop columns (67) are obliquely arranged, two first stop columns (67) are arranged in the middle of the first stop columns (67), the first stop structures (7) comprise first limiting plates (72), the first limiting plates (72) and the first inclined plates (73) are obliquely arranged, and a fifth sliding groove (721) is arranged below the first limiting plate (72), two limiting strips (722) are symmetrically arranged on the inner side of the fifth sliding groove (721), the two limiting strips (722) are connected with the cutting rack (66) in an extruding mode, and a plurality of spray heads (71) are arranged at the inner opening of the fifth sliding groove (721).

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