CN210081308U - Automatic pushing-type garbage collection device based on gear machining is used - Google Patents

Abstract

The utility model provides an automatic pushing type waste collecting device for gear machining, which comprises a chuck, a first C-shaped limiting block and a second C-shaped limiting block; four mounting holes are formed in the edge of the bottom end face of the chuck in an annular array shape, and the chuck is mounted on the machine tool through the four mounting holes; the material collecting box is placed on the ground in front of the chuck and is positioned below the sliding hopper. The scraper group is installed on the outer peripheral face of the upper portion of the gear support column, and the scraper group is driven to rotate inside the first semicircular collecting groove and the second semicircular collecting groove through the rotation of the gear support column, so that gear waste collected inside the first semicircular collecting groove and the second semicircular collecting groove is pushed away by the two scrapers through the rectangular openings, the work efficiency of cleaning gear waste on a machine tool is improved, and the labor force of cleaning the gear waste on the machine tool is reduced.

Description

Automatic pushing-type garbage collection device based on gear machining is used

Technical Field

The utility model belongs to the technical field of gear machining, more specifically say, in particular to automatic pushing-type garbage collection device based on gear machining uses.

Background

Gear machining is a process of obtaining a specific structure and precision of a gear by using a mechanical method. Gear refers to a mechanical element on a rim with gears continuously engaged to transmit motion and power. The use of gears in transmissions has long emerged. At the end of the 19 th century, the principle of generating the cutting method and the successive appearance of special machine tools and cutters for cutting teeth by using the principle pay attention to the running stability of gears along with the development of production.

As in application No.: the invention discloses a curve gear machining cutter capable of adjusting the machining diameter of a curve gear, which comprises a main body of the device, wherein a fixed base is arranged at the bottom end inside the main body of the device, a first rotating motor is arranged inside the fixed base, one end of the first rotating motor is arranged on a reduction gearbox in a matching mode, a first rotating shaft is connected to the upper end of the reduction gearbox, a rotary table is welded to the upper end of the first rotating shaft, a groove is formed in the upper end of the rotary table, and a plurality of gear main bodies are placed on the. The limiting fixing function of the gear bodies is achieved through the pressing plate, the rotating function of the gear bodies is achieved through the rotary table, the distance between the machining cutter head and the gear bodies is adjusted through the second electric push rod and the third electric push rod, corresponding adjustment is achieved according to the diameter length of the gear bodies, and machining work of the machining cutter head is achieved through the arranged second rotating motor. The invention has simple structure, reasonable design and more humanization, and is suitable for popularization and use.

Based on the above patent search, and the discovery of the prior art apparatus, for the pinion, the machining process usually includes sleeving several pinions on the supporting columns of the chucks, and then fixing the pinions to be machined by bolts. The existing pinion can also produce a large amount of waste materials in the machining process, and the waste materials produced in a large amount can fall onto a processing machine tool, so that the waste materials are not only time-consuming and labor-consuming when the waste materials of the gear on the processing machine tool are cleaned, but also can not be automatically collected.

In view of the above, it is an object of the present invention to provide an automatic push type garbage collecting apparatus for gear machining, which is improved in view of the conventional structure and drawbacks, and is more practical.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides an automatic pushing-type garbage collection device based on gear machining usefulness to solve current pinion still can produce a large amount of waste materials in the course of working, the wastes material of a large amount of productions can drop on the processing machine tool, so that not only waste time and energy when clearing up the lathe and going up gear waste material, and can not carry out the problem of collecting automatically.

The utility model is achieved by the following concrete technical means:

an automatic pushing type waste collecting device for gear machining comprises a chuck, a gear supporting column, a gear, a first semicircular collecting groove, a second semicircular collecting groove, a scraping plate group, a first clamp, a second clamp, a scraping plate, a rectangular opening, a sliding hopper, a support, a waste collecting box, a square connecting block, a first C-shaped limiting block and a second C-shaped limiting block; four mounting holes are formed in the edge of the bottom end face of the chuck in an annular array shape, and the chuck is mounted on the machine tool through the four mounting holes; the upper end face of the chuck is clamped with a gear support column through a clamping jaw, and the outer peripheral face of the upper end of the gear support column is connected with a gear through a bolt; the left side and the right side of the peripheral surfaces of the first semicircular collecting groove and the second semicircular collecting groove are respectively provided with one square connecting block, and the left side and the right side of the end surfaces of the first semicircular collecting groove and the second semicircular collecting groove are respectively provided with one square connecting block; the middle part of one side surface of each square connecting block is provided with a circular through hole, and the diameters of the circular through holes are equal; the bottom end surfaces of the first semicircular collecting groove and the second semicircular collecting groove are welded with two brackets in a bilateral symmetry manner, and each bracket is provided with two mounting holes; the four square connecting blocks on the first semicircular collecting groove are connected with the square connecting blocks on the second semicircular collecting groove through bolts, and the back surfaces of the first semicircular collecting groove and the second semicircular collecting groove are tightly attached; the bracket on the first semicircular collecting groove and the bracket on the second semicircular collecting groove are both arranged on a machine tool, and semicircular openings are formed in the circle centers of the upper end surfaces of the first semicircular collecting groove and the second semicircular collecting groove; a first C-shaped limiting block is arranged at the circle center of the upper end surface of the first semicircular collecting tank; a second C-shaped limiting block is arranged at the circle center of the upper end face of the second semicircular collecting groove, and the first C-shaped limiting block and the second C-shaped limiting block are both sleeved outside the gear supporting column; the outer peripheral surface of the upper part of the gear support column is provided with a scraper group, and the scraper group consists of a first clamp, a second clamp and a scraper; the opposite surfaces of the first clamp and the second clamp are connected to the outer peripheral surface of the upper part of the support column through bolts, and the opposite surfaces of the first clamp and the second clamp are fixedly connected with one scraper; the outer circumferential surface of the front side of the first semicircular collecting tank is provided with one rectangular opening, and a sliding hopper is welded at the rectangular opening of the front side of the first semicircular collecting tank; the material collecting box is placed on the ground in front of the chuck and is positioned below the sliding hopper.

Further, when the first semicircular collecting groove and the second semicircular collecting groove are connected with each other through the square connecting block, the first semicircular collecting groove and the second semicircular collecting groove jointly form a circular groove.

Furthermore, the heights of the two scraping plates are equal, and the lengths of the two scraping plates are equal to the diameter of the inner peripheral surface of a circular groove formed by the first semicircular collecting groove and the second semicircular collecting groove.

Furthermore, the width of the inner side of the sliding bucket is equal to the width of the rectangular opening, and the height of the rectangular opening is equal to the depth of the inner side of the sliding bucket.

Furthermore, the width of the outer side of the sliding hopper accounts for one third of the width of the inner side of the waste collecting box, and the left side and the right side of the waste collecting box are both provided with a handle.

Furthermore, the sliding buckets are distributed in a downward inclined mode on the front side of the first semicircular collecting groove, and the inclined angle of the sliding buckets ranges from one hundred forty degrees to one hundred fifty degrees.

Furthermore, the diameter of the inner peripheral surface of the first C-shaped limiting block is equal to that of the inner peripheral surface of the second C-shaped limiting block, and the diameter of the inner peripheral surface of the first C-shaped limiting block and the diameter of the inner peripheral surface of the second C-shaped limiting block are both five millimeters to eight millimeters larger than the diameter of the outer peripheral surface of the middle part of the gear supporting column.

Compared with the prior art, the utility model discloses following beneficial effect has:

first semicircular collecting vat and the semicircular collecting vat of second are installed outside the gear support column, through the installation of first semicircular collecting vat and the semicircular collecting vat of second, make first semicircular collecting vat and the semicircular collecting vat of second constitute circular recess jointly to produced waste material obtains collecting when making the processing gear, has improved the sanitary environment on the lathe when processing the gear.

The scraper group is installed on the outer peripheral face of the upper portion of the gear support column, and the scraper group is driven to rotate inside the first semicircular collecting groove and the second semicircular collecting groove through the rotation of the gear support column, so that gear waste collected inside the first semicircular collecting groove and the second semicircular collecting groove is pushed away by the two scrapers through the rectangular openings, the work efficiency of cleaning gear waste on a machine tool is improved, and the labor force of cleaning the gear waste on the machine tool is reduced.

Drawings

Fig. 1 is a schematic axial view of the present invention.

Fig. 2 is a schematic diagram of a partially enlarged structure at a in fig. 1 according to the present invention.

Fig. 3 is a schematic axial view of the first semicircular collecting groove of the present invention.

Fig. 4 is an axial view structural diagram of the second semicircular collecting groove of the present invention.

Fig. 5 is an axial view structure diagram of the scraper blade assembly of the present invention.

Fig. 6 is an axial view of the chuck and gear support column of the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a chuck; 2. a gear support post; 3. a gear; 4. a first semi-circular collection tank; 5. a second semicircular collecting tank; 6. a scraping plate group; 601. a first clamp; 602. a second clamp; 603. a squeegee; 7. a rectangular opening; 8. a sliding hopper; 9. a support; 10. a waste collection box; 11. a square connecting block; 12. a first C-shaped limiting block; 13. and a second C-shaped limiting block.

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 6:

the utility model provides an automatic pushing-type waste collection device based on gear machining uses, including chuck 1, gear support column 2, gear 3, first semicircular collecting vat 4, second semicircular collecting vat 5, scraper blade group 6, first clamp 601, second clamp 602, scraper blade 603, rectangle opening 7, sliding hopper 8, support 9, waste collection box 10, square connecting block 11, first C type stopper 12 and second C type stopper 13; four mounting holes are formed in the edge part of the bottom end face of the chuck 1 in an annular array shape, and the chuck 1 is mounted on a machine tool through the four mounting holes; the upper end face of the chuck 1 is clamped with a gear support column 2 through a clamping jaw, and the outer peripheral face of the upper end of the gear support column 2 is connected with a gear 3 through a bolt, as shown in figure 6; the left side and the right side of the peripheral surfaces of the first semicircular collecting groove 4 and the second semicircular collecting groove 5 are respectively provided with one square connecting block 11, and the left side and the right side of the end surfaces of the first semicircular collecting groove 4 and the second semicircular collecting groove 5 are respectively provided with one square connecting block 11, as shown in the attached drawings 3-4; a circular through hole is formed in the middle of one side face of each square connecting block 11, and the diameter of each circular through hole is equal; the bottom end surfaces of the first semicircular collecting groove 4 and the second semicircular collecting groove 5 are welded with two brackets 9 in a bilateral symmetry manner, as shown in the attached drawing 1, and each bracket 9 is provided with two mounting holes; the four square connecting blocks 11 on the first semicircular collecting groove 4 are connected with the square connecting blocks 11 on the second semicircular collecting groove 5 through bolts, and the first semicircular collecting groove 4 and the second semicircular collecting groove 5 are tightly attached to each other in opposite directions, as shown in fig. 1; the bracket 9 on the first semicircular collecting groove 4 and the bracket 9 on the second semicircular collecting groove 5 are both arranged on a machine tool, and semicircular openings are formed in the circle centers of the upper end surfaces of the first semicircular collecting groove 4 and the second semicircular collecting groove 5; a first C-shaped limiting block 12 is arranged at the circle center of the upper end surface of the first semicircular collecting groove 4, as shown in the attached drawing 3; a second C-shaped limiting block 13 is arranged at the circle center of the upper end surface of the second semicircular collecting groove 5, as shown in figure 4, and the first C-shaped limiting block 12 and the second C-shaped limiting block 13 are both sleeved outside the gear supporting column 2; the scraping plate group 6 is installed on the outer peripheral surface of the upper part of the gear supporting column 2, and the scraping plate group 6 consists of a first clamp 601, a second clamp 602 and a scraping plate 603, as shown in fig. 5; the opposite surfaces of the first clamp 601 and the second clamp 602 are connected to the outer peripheral surface of the upper part of the support column 2 through bolts, and the opposite surfaces of the first clamp 601 and the second clamp 602 are fixedly connected with one scraper 603, as shown in fig. 5; the rectangular opening 7 is formed in the outer peripheral surface of the front side of the first semicircular collecting tank 4, and a sliding bucket 8 is welded at the rectangular opening 7 in the front side of the first semicircular collecting tank 4, as shown in the attached drawing 1; the material collecting box 10 is placed on the ground in front of the chuck 1, and the material collecting box 10 is positioned below the sliding hopper 8.

When the first semicircular collecting groove 4 and the second semicircular collecting groove 5 are connected with each other through the square connecting block 11, the first semicircular collecting groove 4 and the second semicircular collecting groove 5 jointly form a circular groove, as shown in the attached drawing 1, waste materials generated when the gear 3 is machined are collected, and the sanitary environment on a machine tool when the gear 3 is machined is improved.

The heights of the two scraping plates 603 are equal, the lengths of the two scraping plates 603 are equal to the diameter of the inner peripheral surface of a circular groove formed by the first semicircular collecting groove 4 and the second semicircular collecting groove 5, the scraping plate groups 6 are driven to rotate inside the first semicircular collecting groove 4 and the second semicircular collecting groove 5 through the rotation of the gear supporting columns 2, so that gear waste materials collected inside the first semicircular collecting groove 4 and the second semicircular collecting groove 5 are pushed out by the two scraping plates 603 through the rectangular openings 7, the working efficiency of cleaning gear waste materials on a machine tool is improved, and the labor force of cleaning the gear waste materials on the machine tool is reduced.

The width of the inner side of the sliding hopper 8 is equal to the width of the rectangular opening 7, and the height of the rectangular opening 7 is equal to the depth of the inner side of the sliding hopper 8, as shown in fig. 1, gear waste materials pushed out by the two scraping plates 603 in the first semicircular collecting groove 4 and the second semicircular collecting groove 5 slide into the waste material collecting box 10 along the inner cavity of the sliding hopper 8 through the sliding hopper 8, so that the working efficiency in gear waste material cleaning is improved.

Wherein, the outside width of sliding hopper 8 accounts for the inboard one-third of width of garbage collection box 10, and the garbage collection box 10 left and right sides all is provided with a handle, as shown in figure 1, makes gear waste more convenient to carry, the labour when having reduced the clearance gear waste on the lathe.

Wherein, the sliding hopper 8 is distributed for the downward slope form in first semicircular collecting vat 4 front side, and the inclination of sliding hopper 8 is one hundred forty degrees to one hundred fifty degrees, has certain inclination through setting up sliding hopper 8 to make the gear waste material of collecting in first semicircular collecting vat 4 and the semicircular collecting vat 5 more quick slide to inside garbage collection box 10, improved the collection efficiency of gear waste material.

Wherein, the diameter of the inner peripheral surface of the first C-shaped limiting block 12 is equal to the diameter of the inner peripheral surface of the second C-shaped limiting block 13, as shown in the attached drawings 3-4, and the diameter of the inner peripheral surface of the first C-shaped limiting block 12 and the diameter of the inner peripheral surface of the second C-shaped limiting block 13 are both greater than the diameter of the outer peripheral surface of the middle part of the gear supporting column 2 by five millimeters to eight millimeters, so that the gear supporting column 2 can only drive the scraper group 6 to rotate when rotating, and therefore the stability of the first semicircular collecting groove 4 and the second semicircular collecting groove 5 when collecting.

The specific use mode and function of the embodiment are as follows:

in the utility model, when gear waste is collected, waste generated in gear production is collected through the first semicircular collecting groove 4 and the second semicircular collecting groove 5, and meanwhile, the gear support column 2 is driven to rotate through the rotation of the machine tool, so that the scraper blade group 6 arranged at the periphery of the upper part of the gear support column 2 rotates along with the rotation; when two scrapers 603 in the scraper group 6 push gear waste materials collected in the first semicircular collecting groove 4 and the second semicircular collecting groove 5 to the rectangular opening 7, the waste materials can pass through the rectangular opening 7 and slide to the interior of the waste material collecting box 10 along the inner cavity of the sliding hopper 8, so that waste materials generated during gear 3 processing are collected, and the sanitary environment on a machine tool during gear 3 processing is improved; after the gear garbage collection in the garbage collection box 10 is full, the handles on the left and right sides of the garbage collection box 10 drive the garbage collection box 10 to convey the gear garbage in the garbage collection box 10 to a proper position, and after the gear garbage collection box 10 is conveyed, the gear garbage is put back to the lower part of the sliding hopper 8.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (7)

1. The utility model provides an automatic pushing-type garbage collection device based on gear machining uses which characterized in that: the automatic pushing type waste collecting device based on gear machining comprises a chuck (1), a gear supporting column (2), a gear (3), a first semicircular collecting groove (4), a second semicircular collecting groove (5), a scraper group (6), a first clamp (601), a second clamp (602), a scraper (603), a rectangular opening (7), a sliding hopper (8), a support (9), a waste collecting box (10), a square connecting block (11), a first C-shaped limiting block (12) and a second C-shaped limiting block (13); four mounting holes are formed in the edge part of the bottom end face of the chuck (1) in an annular array shape, and the chuck (1) is mounted on a machine tool through the four mounting holes; the upper end face of the chuck (1) is clamped with a gear supporting column (2) through a clamping jaw, and the outer peripheral face of the upper end of the gear supporting column (2) is connected with a gear (3) through a bolt; the left side and the right side of the outer peripheral surfaces of the first semicircular collecting groove (4) and the second semicircular collecting groove (5) are respectively provided with one square connecting block (11), and the left side and the right side of the end surfaces of the first semicircular collecting groove (4) and the second semicircular collecting groove (5) are respectively provided with one square connecting block (11); the middle part of one side surface of each square connecting block (11) is provided with a circular through hole, and the diameter of each circular through hole is equal; the bottom end surfaces of the first semicircular collecting groove (4) and the second semicircular collecting groove (5) are welded with two brackets (9) in a bilateral symmetry manner, and two mounting holes are formed in the bottom end surface of each bracket (9); the four square connecting blocks (11) on the first semicircular collecting groove (4) are connected with the square connecting blocks (11) on the second semicircular collecting groove (5) through bolts, and the first semicircular collecting groove (4) and the second semicircular collecting groove (5) are tightly attached to each other in a back-to-back manner; the bracket (9) on the first semicircular collecting groove (4) and the bracket (9) on the second semicircular collecting groove (5) are both arranged on the machine tool, and semicircular openings are respectively formed in the circle centers of the upper end surfaces of the first semicircular collecting groove (4) and the second semicircular collecting groove (5); a first C-shaped limiting block (12) is arranged at the circle center of the upper end surface of the first semicircular collecting tank (4); a second C-shaped limiting block (13) is arranged at the circle center of the upper end face of the second semicircular collecting groove (5), and the first C-shaped limiting block (12) and the second C-shaped limiting block (13) are both sleeved outside the gear supporting column (2); the scraping plate group (6) is mounted on the outer peripheral surface of the upper portion of the gear supporting column (2), and the scraping plate group (6) is composed of a first clamp (601), a second clamp (602) and a scraping plate (603); the opposite surfaces of the first clamp (601) and the second clamp (602) are connected to the outer peripheral surface of the upper part of the support column (2) through bolts, and the opposite surfaces of the first clamp (601) and the second clamp (602) are fixedly connected with one scraper (603); the rectangular opening (7) is formed in the outer peripheral surface of the front side of the first semicircular collecting groove (4), and a sliding bucket (8) is welded at the rectangular opening (7) of the front side of the first semicircular collecting groove (4); the material collecting box (10) is placed on the ground in front of the chuck (1), and the material collecting box (10) is located below the sliding hopper (8).

2. An automatic push type garbage collection device for gear machining according to claim 1, wherein: when the first semicircular collecting groove (4) and the second semicircular collecting groove (5) are connected with each other through the square connecting block (11), the first semicircular collecting groove (4) and the second semicircular collecting groove (5) jointly form a circular groove.

3. An automatic push type garbage collection device for gear machining according to claim 1, wherein: the heights of the two scraping plates (603) are equal, and the lengths of the two scraping plates (603) are equal to the diameter of the inner peripheral surface of a circular groove formed by the first semicircular collecting groove (4) and the second semicircular collecting groove (5).

4. An automatic push type garbage collection device for gear machining according to claim 1, wherein: the width of the inner side of the sliding bucket (8) is equal to the width of the rectangular opening (7), and the height of the rectangular opening (7) is equal to the depth of the inner side of the sliding bucket (8).

5. An automatic push type garbage collection device for gear machining according to claim 1, wherein: the width of the outer side of the sliding hopper (8) accounts for one third of the width of the inner side of the waste collecting box (10), and the left side and the right side of the waste collecting box (10) are respectively provided with a handle.

6. An automatic push type garbage collection device for gear machining according to claim 1, wherein: the sliding buckets (8) are distributed in a downward inclined manner on the front side of the first semicircular collecting groove (4), and the inclined angle of the sliding buckets (8) is one hundred forty degrees to one hundred fifty degrees.

7. An automatic push type garbage collection device for gear machining according to claim 1, wherein: the diameter of the inner peripheral surface of the first C-shaped limiting block (12) is equal to that of the inner peripheral surface of the second C-shaped limiting block (13), and the diameter of the inner peripheral surface of the first C-shaped limiting block (12) and the diameter of the inner peripheral surface of the second C-shaped limiting block (13) are both five millimeters to eight millimeters larger than the diameter of the outer peripheral surface of the middle part of the gear supporting column (2).

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