CN216263738U - Adjustable, dust protected grooving machine - Google Patents

Abstract

The utility model discloses an adjustable and dustproof slot-cutting machine, which comprises: frame, position control device, counterpoint platform, servo rotary platform and grooving mechanism, position control device locates in the frame, position control device's top is located to the counterpoint platform, servo rotary platform locates the top of counterpoint platform, grooving mechanism locates in the frame, and it cooperatees with servo rotary platform. The adjustable and dustproof slot-cutting machine is simple in structure, reasonable in design and easy to produce, the position of the servo rotating platform can be adjusted through the position adjusting device, and the servo rotating platform and the slot-cutting mechanism are arranged so that the servo rotating platform can drive a product to rotate according to actual production requirements, so that slot-cutting processing can be performed on the product in different directions, the slot-cutting processing efficiency is improved, and the production requirements are better met.

Description

Adjustable, dust protected grooving machine

Technical Field

The utility model belongs to the technical field of grooving, and particularly relates to an adjustable and dustproof grooving machine.

Background

The grooving machine is used for cutting a required groove body at a specified position according to the processing requirement of a product, most of products are fixed on a grooving platform in the working process of the conventional grooving machine, then grooving is carried out on the products through the grooving machine, only a certain part of the products can be grooved in the processing process, if other positions of the products need to be processed, the products need to be manually rotated and then cut, so that not only is special personnel required to operate, but also certain potential safety hazards exist, and the processing efficiency is seriously influenced;

meanwhile, the problem of edge curling or edge shielding of the cutting knife can be caused in the machining process, so that the grooving quality of the cutting knife can be influenced, the cutting knife cannot meet the requirement of normal grooving, a great amount of dust can be generated in the grooving process, the peripheral production environment can be influenced, and the machining precision of the grooving can be influenced.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: in order to overcome the defects, the utility model aims to provide an adjustable and dustproof grooving machine which is simple in structure, reasonable in design and easy to produce, the position of a servo rotating platform of the grooving machine can be adjusted through a position adjusting device, and the servo rotating platform and a grooving mechanism are arranged to drive a product to rotate through the servo rotating platform according to the actual production requirement, so that grooving processing can be performed on the product in different directions, and the grooving processing efficiency is improved.

The technical scheme is as follows: in order to achieve the above object, the present invention provides an adjustable, dust-proof slot-cutting machine, comprising: frame, position control device, counterpoint platform, servo rotary platform and grooving mechanism, position control device locates in the frame, position control device's top is located to the counterpoint platform, servo rotary platform locates the top of counterpoint platform, grooving mechanism locates in the frame, and it cooperatees with servo rotary platform. The adjustable and dustproof slot-cutting machine is simple in structure, reasonable in design and easy to produce, the position of the servo rotating platform can be adjusted through the position adjusting device, and the servo rotating platform and the slot-cutting mechanism are arranged so that the servo rotating platform can drive a product to rotate according to actual production requirements, so that slot-cutting processing can be performed on the product in different directions, the slot-cutting processing efficiency is improved, and the production requirements are better met.

The rack comprises a base, a vertical mounting frame and a transverse mounting frame, wherein the vertical mounting frame is vertically arranged above the base, the transverse mounting frame is arranged above the vertical mounting frame, the position adjusting device is arranged on the base and is arranged on one side of the vertical mounting frame, and the grooving mechanism is arranged on the vertical mounting frame and is connected with the transverse mounting frame.

Furthermore, the servo rotary platform comprises a rotary platform and a rotary driving mechanism for driving the rotary platform to rotate, the rotary platform and the rotary driving mechanism are both arranged on the alignment platform, the rotary driving mechanism is arranged on one side of the rotary platform, and the rotary driving mechanism and the rotary platform are arranged on the alignment platform;

the rotary platform adopts a platform with a magnet. Servo actuating mechanism drive rotary platform realizes rotating, lets it realize the cutting process to the product multi-angle, and rotary platform adopts magnet place the platform simultaneously, great improvement the stability of product processing, effectively improve the accurate nature of cutting.

Further, position control device includes that X axle direction removes subassembly and Y axle direction and removes the subassembly, X axle direction removes the subassembly and locates on the base, Y axle direction removes the top of subassembly through locating X axle direction and removes the subassembly to remove the perpendicular setting of subassembly with X axle direction, counterpoint platform is located on the Y axle direction removes the subassembly. The X-axis direction moving assembly and the Y-axis direction moving assembly are arranged, so that the position of the rotary platform can be adjusted transversely and longitudinally according to the actual requirement of machining, and the requirement of grooving machining can be better met.

Furthermore, the X-axis direction moving assembly comprises an X-axis mounting seat, a guide rail plate and a sliding mounting seat, wherein the X-axis mounting seat is arranged on the base, the guide rail plate is arranged on the X-axis mounting seat, and the sliding mounting seat is arranged on the guide rail plate and is movably connected with the guide rail plate.

Preferably, the sliding installation seat comprises a sliding seat, a rotating disk and a Y-axis installation linear rail assembly, the sliding seat is arranged on the guide rail plate and movably connected with a guide rail on the guide rail plate, the rotating disk is arranged on the sliding seat, the Y-axis installation linear rail assembly is arranged on the rotating disk, and the Y-axis direction moving assembly is arranged on the Y-axis installation linear rail assembly.

Furthermore, the Y-axis direction moving assembly comprises a Y-axis mounting substrate, a Y-axis driving lead screw driving assembly is arranged on the Y-axis mounting substrate, Y-axis guide rails are arranged on two sides of the Y-axis driving lead screw driving assembly, and the alignment platform is connected with the Y-axis guide rails through a group of sliding seats.

In addition, still include school sword device, school sword device includes school sword mount pad, school sword position control mechanism and whets a knife mechanism, school sword mount pad is connected with Y axle guide rail through a set of sliding block, school sword position control mechanism locates on the school sword mount pad, whet a knife mechanism locates on school sword position control mechanism, both do the movable connection, just school sword device cooperatees with grooving mechanism. Due to the arrangement of the cutter correcting device, the cutter in the cutting mechanism can be polished, and the cutting quality of the cutting mechanism is effectively guaranteed.

Furthermore, the grooving mechanism comprises a cutting driving device, a cutting driving shaft and a cutting knife, the cutting driving shaft is connected with the output end of the cutting driving device, the cutting knife is arranged at one end of the cutting driving shaft and matched with the servo rotating platform, and the tail end of the cutting driving shaft is connected with an oblique guide block at the lower part of the transverse installation frame through an adjusting block.

Furthermore, a group of guide rails are arranged in front of and behind the vertical mounting rack, sliding plates are arranged on the guide rails, and the cutting driving shaft is connected with bearings on the sliding plates;

and a lifting adjusting mechanism for adjusting the height of the grooving mechanism is arranged in the vertical mounting frame, a driving rod is arranged in the lifting adjusting mechanism and connected with a bearing seat in the vertical mounting frame, a driving bevel gear is arranged at one end of the driving rod, a rocker is arranged at the other end of the driving rod, a driven bevel gear is arranged at the output end of the cutting driving device, and the driven bevel gear is meshed with the driving bevel gear. The setting of lifting adjusting mechanism lets it can adjust the height of cutting knife according to the processing needs of reality, can also carry out the coping to the cutting knife through mechanism of whetting a knife to the position of school sword device with reducing of cutting knife simultaneously, avoids causing the problem that cutting knife turn-up, deckle edge influence grooving because of processing to the processingquality of effectual assurance cutting knife.

In addition, the device also comprises a gas blowing device, wherein the gas blowing device comprises a gas blowing mounting frame, an electric rolling brush and a group of gas blowing pipes, the gas blowing mounting frame comprises a group of vertical mounting plates and a group of horizontal mounting plates, the vertical mounting plates are oppositely arranged on the Y-axis mounting base plate, and the horizontal mounting plates are arranged above the two vertical mounting plates;

and the top of horizontal mounting panel still is equipped with the trachea mount pad that is used for installing the gas blow pipe, electronic round brush is located between two vertical mounting panels to place in the below of horizontal mounting panel, gas blow pipe one end is connected with the trachea mount pad, just the one end that the trachea mount pad was kept away from to the gas blow pipe is equipped with the blowing nozzle, the blowing nozzle is the platykurtic. The blowing device is arranged to blow slag and scraps generated in the cutting process away from the rotary platform groove closing and cutting mechanism in time, so that the influence of dust and scraps generated in the machining process on normal groove cutting machining is avoided; the arrangement of the flat blowing nozzle can effectively control the blowing direction, gather the gas and improve the dust and chip removing effect.

The technical scheme shows that the utility model has the following beneficial effects:

1. the adjustable and dustproof slot-cutting machine is simple in structure, reasonable in design and easy to produce, the position of the servo rotating platform can be adjusted through the position adjusting device, and the servo rotating platform and the slot-cutting mechanism are arranged so that the servo rotating platform can drive a product to rotate according to actual production requirements, so that slot-cutting processing can be performed on the product in different directions, the slot-cutting processing efficiency is improved, and the production requirements are better met.

2. According to the utility model, the servo driving mechanism drives the rotary platform to rotate, so that the product can be cut and processed in multiple angles, and meanwhile, the rotary platform adopts the magnet placing platform, so that the stability of product processing is greatly improved, and the cutting accuracy is effectively improved.

3. The arrangement of the X-axis direction moving assembly and the Y-axis direction moving assembly enables the rotary platform to be adjusted transversely and longitudinally according to the actual machining requirements, so that the grooving machining requirements can be better met.

4. The cutter correcting device comprises a cutter correcting mounting seat, a cutter correcting position adjusting mechanism and a cutter grinding mechanism, and the cutter correcting device can grind the cutting knife in the cutting mechanism, so that the cutting quality of the cutting mechanism is effectively guaranteed.

5. The lifting adjusting mechanism is arranged, so that the height of the cutting knife can be adjusted according to actual processing requirements, the cutting knife can be lowered to the position of the knife correcting device, the cutting knife is ground through the knife grinding mechanism, the problem that the cutting groove is influenced by edge curling and burrs of the cutting knife due to processing is avoided, and the processing quality of the cutting knife is effectively guaranteed.

6. The blowing device is arranged, so that slag and scraps generated in the cutting process can be blown away from the rotary platform groove closing and cutting mechanism in time, and the influence of dust and scraps generated in the machining process on normal groove cutting machining is avoided; the arrangement of the flat blowing nozzle can effectively control the blowing direction, gather the gas and improve the dust and chip removing effect.

Drawings

FIG. 1 is a schematic structural view of an adjustable, dust-proof slot-cutting machine of the present invention;

FIG. 2 is a schematic view of the installation of the grooving mechanism and the servo rotary table in the present invention;

FIG. 3 is a schematic structural view of a Y-axis moving assembly according to the present invention;

FIG. 4 is a schematic view of the structure of the air blowing device of the present invention;

FIG. 5 is a schematic structural view of an alignment stage according to the present invention;

fig. 6 is a schematic structural view of the tool correcting device of the present invention.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the utility model and are not to be construed as limiting the utility model.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only 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, are not to be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, unless otherwise specified, "a plurality" means two or more unless explicitly defined otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

Example 1

An adjustable, dust-proof slot-cutting machine is shown in the figures, comprising: the automatic grooving machine comprises a rack 1, a position adjusting device 2, an alignment platform 3, a servo rotating platform 4 and a grooving mechanism 5, wherein the rack 1 comprises a base 11, a vertical mounting frame 12 and a transverse mounting frame 13, the vertical mounting frame 12 is vertically arranged above the base 11, the transverse mounting frame 13 is arranged above the vertical mounting frame 12, the position adjusting device 2 is arranged on the base 11 and arranged on one side of the vertical mounting frame 12, and the grooving mechanism 5 is arranged on the vertical mounting frame 12 and connected with the transverse mounting frame 13; the position adjusting device 2 is arranged on the frame 1, the aligning platform 3 is arranged above the position adjusting device 2, the servo rotating platform 4 is arranged above the aligning platform 3, and the grooving mechanism 5 is arranged on the frame 1 and matched with the servo rotating platform 4.

In this embodiment, the position adjusting device 2 includes an X-axis direction moving assembly 21 and a Y-axis direction moving assembly 22, the X-axis direction moving assembly 21 is disposed on the base 11, the Y-axis direction moving assembly 22 is disposed above the X-axis direction moving assembly 21 and perpendicular to the X-axis direction moving assembly 21, and the alignment platform 3 is disposed on the Y-axis direction moving assembly 22.

In this embodiment, the servo rotating platform 4 includes a rotating platform 41 and a rotating driving mechanism 42 for driving the rotating platform 41 to rotate, the rotating platform 41 and the rotating driving mechanism 42 are both disposed on the aligning platform 3, the rotating driving mechanism 42 is disposed on one side of the rotating platform 41, and the rotating driving mechanism 42 and the rotating platform 41;

the rotary platform 4 adopts a platform with a magnet.

In this embodiment, the X-axis direction moving assembly 21 includes an X-axis mounting base 211, a guide rail plate 212 and a sliding mounting base 213, the X-axis mounting base 211 is disposed on the base 11, the guide rail plate 212 is disposed on the X-axis mounting base 211, and the sliding mounting base 213 is disposed on the guide rail plate 212 and movably connected to the guide rail plate 212.

In this embodiment, the sliding mounting seat 213 includes a sliding seat 2131, a rotating disc 2132 and a Y-axis mounting line rail assembly 2134, the sliding seat 2131 is provided with a guide rail plate 212 and movably connected with a guide rail on the guide rail plate 212, the rotating disc 2132 is provided on the sliding seat 2131, the Y-axis mounting line rail assembly 2134 is provided on the rotating disc 2132, and the Y-axis direction moving assembly 22 is provided on the Y-axis mounting line rail assembly 2134.

In this embodiment, the Y-axis direction moving assembly 22 includes a Y-axis mounting substrate 221, a Y-axis driving lead screw driving assembly 222 is disposed on the Y-axis mounting substrate 221, Y-axis guide rails 223 are disposed on two sides of the Y-axis driving lead screw driving assembly 222, and the alignment platform 3 is connected with the Y-axis guide rails 223 through a set of sliding seats.

Still include school sword device 6 in this embodiment, school sword device 6 includes school sword mount pad 61, school sword position adjustment mechanism 62 and whets a knife mechanism 63, school sword mount pad 61 is connected with Y axle guide rail 223 through a set of sliding block, school sword position adjustment mechanism 62 is located on school sword mount pad 61, whet a knife mechanism 63 is located on school sword position adjustment mechanism 62, and both are the movable and connect, just school sword device 6 cooperatees with grooving mechanism 5.

In this embodiment, the grooving mechanism 5 includes a cutting driving device 51, a cutting driving shaft 52 and a cutting knife 53, the cutting driving shaft 52 is connected to an output end of the cutting driving device 51, the cutting knife 53 is disposed at one end of the cutting driving shaft 52, the cutting knife 53 is matched with the servo rotating platform 4, and a tail end of the cutting driving shaft 52 is connected to an oblique guide block 131 at a lower portion of the transverse mounting frame 13 through an adjusting block 54.

In this embodiment, a set of guide rails is arranged at the front and the back of the vertical mounting frame 12, a sliding plate 121 is arranged on the guide rails, and the cutting driving shaft 52 is connected with a bearing on the sliding plate 121;

and a lifting adjusting mechanism 55 for adjusting the height of the grooving mechanism 5 is arranged in the vertical mounting rack 12, a driving rod is arranged in the lifting adjusting mechanism 55, the driving rod is connected with a bearing seat in the vertical mounting rack, a driving bevel gear is arranged at one end of the driving rod, a rocker is arranged at the other end of the driving rod, a driven bevel gear is arranged at the output end of the cutting driving device 51, and the driven bevel gear is meshed with the driving bevel gear.

Example 2

An adjustable, dust-proof slot-cutting machine is shown in the figures, comprising: the automatic grooving machine comprises a rack 1, a position adjusting device 2, an alignment platform 3, a servo rotating platform 4 and a grooving mechanism 5, wherein the rack 1 comprises a base 11, a vertical mounting frame 12 and a transverse mounting frame 13, the vertical mounting frame 12 is vertically arranged above the base 11, the transverse mounting frame 13 is arranged above the vertical mounting frame 12, the position adjusting device 2 is arranged on the base 11 and arranged on one side of the vertical mounting frame 12, and the grooving mechanism 5 is arranged on the vertical mounting frame 12 and connected with the transverse mounting frame 13; the position adjusting device 2 is arranged on the frame 1, the aligning platform 3 is arranged above the position adjusting device 2, the servo rotating platform 4 is arranged above the aligning platform 3, and the grooving mechanism 5 is arranged on the frame 1 and matched with the servo rotating platform 4.

In this embodiment, the servo rotating platform 4 includes a rotating platform 41 and a rotating driving mechanism 42 for driving the rotating platform 41 to rotate, the rotating platform 41 and the rotating driving mechanism 42 are both disposed on the aligning platform 3, the rotating driving mechanism 42 is disposed on one side of the rotating platform 41, and the rotating driving mechanism 42 and the rotating platform 41;

the rotary platform 4 adopts a platform with a magnet.

In this embodiment, the position adjusting device 2 includes an X-axis direction moving assembly 21 and a Y-axis direction moving assembly 22, the X-axis direction moving assembly 21 is disposed on the base 11, the Y-axis direction moving assembly 22 is disposed above the X-axis direction moving assembly 21 and perpendicular to the X-axis direction moving assembly 21, and the alignment platform 3 is disposed on the Y-axis direction moving assembly 22.

In this embodiment, the X-axis direction moving assembly 21 includes an X-axis mounting base 211, a guide rail plate 212 and a sliding mounting base 213, the X-axis mounting base 211 is disposed on the base 11, the guide rail plate 212 is disposed on the X-axis mounting base 211, and the sliding mounting base 213 is disposed on the guide rail plate 212 and movably connected to the guide rail plate 212.

In this embodiment, the sliding mounting seat 213 includes a sliding seat 2131, a rotating disc 2132 and a Y-axis mounting line rail assembly 2134, the sliding seat 2131 is provided with a guide rail plate 212 and movably connected with a guide rail on the guide rail plate 212, the rotating disc 2132 is provided on the sliding seat 2131, the Y-axis mounting line rail assembly 2134 is provided on the rotating disc 2132, and the Y-axis direction moving assembly 22 is provided on the Y-axis mounting line rail assembly 2134.

In this embodiment, the Y-axis direction moving assembly 22 includes a Y-axis mounting substrate 221, a Y-axis driving lead screw driving assembly 222 is disposed on the Y-axis mounting substrate 221, Y-axis guide rails 223 are disposed on two sides of the Y-axis driving lead screw driving assembly 222, and the alignment platform 3 is connected with the Y-axis guide rails 223 through a set of sliding seats.

Still include school sword device 6 in this embodiment, school sword device 6 includes school sword mount pad 61, school sword position adjustment mechanism 62 and whets a knife mechanism 63, school sword mount pad 61 is connected with Y axle guide rail 223 through a set of sliding block, school sword position adjustment mechanism 62 is located on school sword mount pad 61, whet a knife mechanism 63 is located on school sword position adjustment mechanism 62, and both are the movable and connect, just school sword device 6 cooperatees with grooving mechanism 5.

In this embodiment, the grooving mechanism 5 includes a cutting driving device 51, a cutting driving shaft 52 and a cutting knife 53, the cutting driving shaft 52 is connected to an output end of the cutting driving device 51, the cutting knife 53 is disposed at one end of the cutting driving shaft 52, the cutting knife 53 is matched with the servo rotating platform 4, and a tail end of the cutting driving shaft 52 is connected to an oblique guide block 131 at a lower portion of the transverse mounting frame 13 through an adjusting block 54.

In this embodiment, a set of guide rails is arranged at the front and the back of the vertical mounting frame 12, a sliding plate 121 is arranged on the guide rails, and the cutting driving shaft 52 is connected with a bearing on the sliding plate 121;

and a lifting adjusting mechanism 55 for adjusting the height of the grooving mechanism 5 is arranged in the vertical mounting rack 12, a driving rod is arranged in the lifting adjusting mechanism 55, the driving rod is connected with a bearing seat in the vertical mounting rack, a driving bevel gear is arranged at one end of the driving rod, a rocker is arranged at the other end of the driving rod, a driven bevel gear is arranged at the output end of the cutting driving device 51, and the driven bevel gear is meshed with the driving bevel gear.

The device also comprises an air blowing device 7, wherein the air blowing device 7 comprises an air blowing mounting frame 71, an electric rolling brush 72 and a group of air blowing pipes 73, the air blowing mounting frame 71 comprises a group of vertical mounting plates and a group of horizontal mounting plates, the vertical mounting plates are oppositely arranged on a Y-axis mounting base plate 221, and the horizontal mounting plates are arranged above the two vertical mounting plates;

and the top of horizontal mounting panel still is equipped with the trachea mount pad that is used for installing gas blow pipe 73, electronic round brush 72 is located between two vertical mounting panels to the below of horizontal mounting panel is arranged in, gas blow pipe 73 one end is connected with the trachea mount pad, just the one end that gas blow pipe 73 kept away from the trachea mount pad is equipped with blowing nozzle 74, blowing nozzle 74 is the platykurtic.

Servo rotary platform 4 includes rotary platform 41 and rotary driving mechanism 42, wherein, rotary driving mechanism 42 includes rotary driving motor and first helical gear, rotary platform 41 is located on counterpoint platform 3, just the rotary platform lower part is equipped with the rotation axis, the outside of rotation axis is equipped with the helical gear dish, rotary driving motor locates one side of rotary platform 41, on driving motor's the output shaft was located to first helical gear, just first helical gear and helical gear dish meshing.

Example 2

An adjustable, dust-proof slot-cutting machine is shown in the figures, comprising: the automatic grooving machine comprises a rack 1, a position adjusting device 2, an alignment platform 3, a servo rotating platform 4 and a grooving mechanism 5, wherein the rack 1 comprises a base 11, a vertical mounting frame 12 and a transverse mounting frame 13, the vertical mounting frame 12 is vertically arranged above the base 11, the transverse mounting frame 13 is arranged above the vertical mounting frame 12, the position adjusting device 2 is arranged on the base 11 and arranged on one side of the vertical mounting frame 12, and the grooving mechanism 5 is arranged on the vertical mounting frame 12 and connected with the transverse mounting frame 13; the position adjusting device 2 is arranged on the frame 1, the aligning platform 3 is arranged above the position adjusting device 2, the servo rotating platform 4 is arranged above the aligning platform 3, and the grooving mechanism 5 is arranged on the frame 1 and matched with the servo rotating platform 4.

The servo rotary platform 4 comprises a rotary platform 41 and a rotary driving mechanism 42 for driving the rotary platform 41 to rotate, the rotary platform 41 and the rotary driving mechanism 42 are both arranged on the alignment platform 3, the rotary driving mechanism 42 is arranged on one side of the rotary platform 41, and the rotary driving mechanism 42 and the rotary platform 41 are arranged;

the rotary platform 4 adopts a platform with a magnet.

In this embodiment, the position adjusting device 2 includes an X-axis direction moving assembly 21 and a Y-axis direction moving assembly 22, the X-axis direction moving assembly 21 is disposed on the base 11, the Y-axis direction moving assembly 22 is disposed above the X-axis direction moving assembly 21 and perpendicular to the X-axis direction moving assembly 21, and the alignment platform 3 is disposed on the Y-axis direction moving assembly 22.

In this embodiment, the X-axis direction moving assembly 21 includes an X-axis mounting base 211, a guide rail plate 212 and a sliding mounting base 213, the X-axis mounting base 211 is disposed on the base 11, the guide rail plate 212 is disposed on the X-axis mounting base 211, and the sliding mounting base 213 is disposed on the guide rail plate 212 and movably connected to the guide rail plate 212.

In this embodiment, the sliding mounting seat 213 includes a sliding seat 2131, a rotating disc 2132 and a Y-axis mounting line rail assembly 2134, the sliding seat 2131 is provided with a guide rail plate 212 and movably connected with a guide rail on the guide rail plate 212, the rotating disc 2132 is provided on the sliding seat 2131, the Y-axis mounting line rail assembly 2134 is provided on the rotating disc 2132, and the Y-axis direction moving assembly 22 is provided on the Y-axis mounting line rail assembly 2134.

In this embodiment, the Y-axis direction moving assembly 22 includes a Y-axis mounting substrate 221, a Y-axis driving lead screw driving assembly 222 is disposed on the Y-axis mounting substrate 221, Y-axis guide rails 223 are disposed on two sides of the Y-axis driving lead screw driving assembly 222, and the alignment platform 3 is connected with the Y-axis guide rails 223 through a set of sliding seats.

Still include school sword device 6 in this embodiment, school sword device 6 includes school sword mount pad 61, school sword position adjustment mechanism 62 and whets a knife mechanism 63, school sword mount pad 61 is connected with Y axle guide rail 223 through a set of sliding block, school sword position adjustment mechanism 62 is located on school sword mount pad 61, whet a knife mechanism 63 is located on school sword position adjustment mechanism 62, and both are the movable and connect, just school sword device 6 cooperatees with grooving mechanism 5.

In this embodiment, the grooving mechanism 5 includes a cutting driving device 51, a cutting driving shaft 52 and a cutting knife 53, the cutting driving shaft 52 is connected to an output end of the cutting driving device 51, the cutting knife 53 is disposed at one end of the cutting driving shaft 52, the cutting knife 53 is matched with the servo rotating platform 4, and a tail end of the cutting driving shaft 52 is connected to an oblique guide block 131 at a lower portion of the transverse mounting frame 13 through an adjusting block 54.

In this embodiment, a set of guide rails is arranged at the front and the back of the vertical mounting frame 12, a sliding plate 121 is arranged on the guide rails, and the cutting driving shaft 52 is connected with a bearing on the sliding plate 121;

and a lifting adjusting mechanism 55 for adjusting the height of the grooving mechanism 5 is arranged in the vertical mounting rack 12, a driving rod is arranged in the lifting adjusting mechanism 55, the driving rod is connected with a bearing seat in the vertical mounting rack, a driving bevel gear is arranged at one end of the driving rod, a rocker is arranged at the other end of the driving rod, a driven bevel gear is arranged at the output end of the cutting driving device 51, and the driven bevel gear is meshed with the driving bevel gear.

The device also comprises an air blowing device 7, wherein the air blowing device 7 comprises an air blowing mounting frame 71, an electric rolling brush 72 and a group of air blowing pipes 73, the air blowing mounting frame 71 comprises a group of vertical mounting plates and a group of horizontal mounting plates, the vertical mounting plates are oppositely arranged on a Y-axis mounting base plate 221, and the horizontal mounting plates are arranged above the two vertical mounting plates;

and the top of horizontal mounting panel still is equipped with the trachea mount pad that is used for installing gas blow pipe 73, electronic round brush 72 is located between two vertical mounting panels to the below of horizontal mounting panel is arranged in, gas blow pipe 73 one end is connected with the trachea mount pad, just the one end that gas blow pipe 73 kept away from the trachea mount pad is equipped with blowing nozzle 74, blowing nozzle 74 is the platykurtic.

The rotary driving mechanism 42 comprises a rotary driving motor and a first helical gear, the rotary platform 41 is arranged on the alignment platform 3, the lower part of the rotary platform is provided with a rotary shaft, the outer side of the rotary shaft is provided with a helical gear disc, the rotary driving motor is arranged on one side of the rotary platform 41, the first helical gear is arranged on an output shaft of the driving motor, and the first helical gear is meshed with the helical gear disc.

The alignment platform 3 in this embodiment includes a bottom plate 31 and an alignment plate 32, the alignment plate 32 is disposed above the bottom plate 31, and a set of limiting strips 33 is disposed on the bottom plate 31 around the alignment plate 32.

In this embodiment, the Y-axis moving assembly 22 is provided with a dust cover 224, a protective cover 225 is provided on the dust cover 22 outside the alignment platform 3, three sides of the protective cover 225 are provided with door openings 226, and one side of the protective cover 225 is provided with a dust suction opening 227.

The specific working method of the first material grabbing hand assembly 1512 and the second material grabbing hand assembly 1522 described in this embodiment is as follows:

firstly, adjusting the sizes of the first material grabbing hand assembly 1512 and the second material grabbing hand assembly 1522 according to the model of a product, namely, driving a telescopic driving disc 15126 to rotate by a stepping motor 15125, and when the telescopic driving disc 15126 rotates, a sliding column 15128 on a sliding rail 15123 in the first material grabbing hand assembly 1512 and the second material grabbing hand assembly 1522 moves to a proper problem along an arc-shaped telescopic groove 15127, so that the position of a positioning block 15122 is adjusted;

after the position of the positioning block 15122 is adjusted, after a product on one side is grabbed and processed in the first material grabbing hand assembly 1512, the overturning cylinder 1513 drives the first material grabbing hand assembly 1512 to overturn, the first material grabbing hand assembly 1512 realizes overturning of the product, then the first material grabbing hand assembly 1512 moves towards the second material grabbing hand assembly 1522 along the transverse servo module 13, when the first material grabbing hand assembly is moved to the overturning placing platform 153, the product is placed on the overturning placing platform 153, and the first material grabbing hand assembly 1512 returns to the initial position;

meanwhile, the second material grabbing hand assembly 1522 grabs the product on the turned placement platform 153 onto the second grooving machine.

The specific working method of the position adjustment device 2 described in this embodiment is as follows:

the slide mount 213 moves along the rail plate 212 of the X-axis direction moving unit 21, and since the Y-axis direction moving unit 22 is provided on the slide mount 213, it moves together with the slide mount 213 to realize the position movement in the X-axis direction;

under the drive of the Y-axis driving screw driving assembly 222, the sliding seat below the alignment platform 3 and the sliding block below the tool calibrating device 6 will move to the designated position along the Y-axis guide rail 223;

meanwhile, the slide mounting base 213 is provided with a rotating disk 2132, and the alignment stage 3 can be finely adjusted by rotating the rotating disk 2132 by an angle of 5 °.

The milling manner of the grooving tool 53 by the tool correcting device 6 in this embodiment is as follows: the groove cutting knife 53 is moved along the Y-axis guide rail 223 by the knife correcting mounting seat 61, then the height of the groove cutting knife 53 is adjusted to the height matched with the knife sharpening mechanism 63 through the lifting adjusting mechanism 55, the knife sharpening mechanism 63 is adjusted to the lower side of the groove cutting knife 53 through the knife correcting position adjusting mechanism 62, and then the groove cutting knife 53 is sharpened through the knife sharpening mechanism 63.

The rocker is rocked, the rocker drives the driving rod to rotate, the driving bevel gear is driven by the driving rod to rotate together with the driving bevel gear, and the driven bevel gear is driven to rotate in the rotating process of the driving bevel gear, so that the driven bevel gear drives the cutting driving device 51 to move downwards.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that modifications can be made by those skilled in the art without departing from the principle of the present invention, and these modifications should also be construed as the protection scope of the present invention.

Claims (10)

1. The utility model provides an adjustable, dust protected grooving machine which characterized in that: the method comprises the following steps: frame (1), position control device (2), counterpoint platform (3), servo rotary platform (4) and grooving mechanism (5), position control device (2) are located on frame (1), the top of position control device (2) is located in counterpoint platform (3), the top of counterpointing platform (3) is located in servo rotary platform (4), grooving mechanism (5) are located on frame (1), and it cooperatees with servo rotary platform (4).

2. The adjustable, dust-proof slot-cutting machine of claim 1, wherein: frame (1) includes base (11), vertical mounting bracket (12) and horizontal mounting bracket (13), the top of base (11) is located perpendicularly in vertical mounting bracket (12), the top of vertical mounting bracket (12) is located in horizontal mounting bracket (13), position control device (2) are located on base (11) to locate one side of vertical mounting bracket (12), grooving mechanism (5) are located on vertical mounting bracket (12) to be connected with horizontal mounting bracket (13).

3. The adjustable, dust-proof slot-cutting machine of claim 1, wherein: the servo rotary platform (4) comprises a rotary platform (41) and a rotary driving mechanism (42) for driving the rotary platform (41) to rotate, the rotary platform (41) and the rotary driving mechanism (42) are both arranged on the aligning platform (3), the rotary driving mechanism (42) is arranged on one side of the rotary platform (41), and the rotary driving mechanism (42) and the rotary platform (41) are arranged;

the rotary platform (41) adopts a platform with a magnet.

4. The adjustable, dust-proof slot-cutting machine of claim 1, wherein: the position adjusting device (2) comprises an X-axis direction moving assembly (21) and a Y-axis direction moving assembly (22), the X-axis direction moving assembly (21) is arranged on the base (11), the Y-axis direction moving assembly (22) is arranged above the X-axis direction moving assembly (21) and is perpendicular to the X-axis direction moving assembly (21), and the alignment platform (3) is arranged on the Y-axis direction moving assembly (22); x axle direction removes subassembly (21) and includes X axle mount pad (211), guide rail board (212) and sliding installation seat (213), X axle mount pad (211) are located on base (11), guide rail board (212) are located on X axle mount pad (211), sliding installation seat (213) are located on guide rail board (212) to do the movable with guide rail board (212) and be connected.

5. The adjustable, dust-proof slot-cutting machine of claim 4, wherein: the sliding installation seat (213) comprises a sliding seat (2131), a rotating disk (2132) and a Y-axis installation line rail assembly (2134), the sliding seat (2131) is provided with a guide rail plate (212) and movably connected with a guide rail on the guide rail plate (212), the rotating disk (2132) is arranged on the sliding seat (2131), the Y-axis installation line rail assembly (2134) is arranged on the rotating disk (2132), and the Y-axis direction movement assembly (22) is arranged on the Y-axis installation line rail assembly (2134).

6. The adjustable, dust-proof slot-cutting machine of claim 4, wherein: y axle direction removes subassembly (22) and includes Y axle mounting substrate (221), be equipped with Y axle drive lead screw drive assembly (222) on Y axle mounting substrate (221), the both sides that are located Y axle drive lead screw drive assembly (222) are equipped with Y axle guide rail (223), counterpoint platform (3) are connected with Y axle guide rail (223) through a set of sliding seat.

7. The adjustable, dust-proof slot-cutting machine of claim 1, wherein: still include school sword device (6), school sword device (6) are including school sword mount pad (61), school sword position control mechanism (62) and whet a knife mechanism (63), school sword mount pad (61) are connected with Y axle guide rail (223) through a set of sliding block, school sword position control mechanism (62) are located on school sword mount pad (61), whet a knife mechanism (63) are located on school sword position control mechanism (62), and both are the movable and connect, just school sword device (6) cooperate with grooving mechanism (5).

8. The adjustable, dust-proof slot-cutting machine of claim 2, wherein: the grooving mechanism (5) comprises a cutting driving device (51), a cutting driving shaft (52) and a cutting knife (53), the cutting driving shaft (52) is connected with the output end of the cutting driving device (51), the cutting knife (53) is arranged at one end of the cutting driving shaft (52), the cutting knife (53) is matched with the servo rotating platform (4), and the tail end of the cutting driving shaft (52) is connected with an oblique guide block (131) at the lower part of the transverse mounting frame (13) through an adjusting block (54).

9. The adjustable, dust-proof slot-cutting machine of claim 8, wherein: a group of guide rails are arranged in front of and behind the vertical mounting frame (12), sliding plates (121) are arranged on the guide rails, and the cutting driving shaft (52) is connected with bearings on the sliding plates (121);

and a lifting adjusting mechanism (55) used for adjusting the height of the grooving mechanism (5) is arranged in the vertical mounting rack (12), a driving rod is arranged in the lifting adjusting mechanism (55), the driving rod is connected with a bearing seat in the vertical mounting rack, a driving bevel gear is arranged at one end of the driving rod, a rocker is arranged at the other end of the driving rod, a driven bevel gear is arranged at the output end of the cutting driving device (51), and the driven bevel gear is meshed with the driving bevel gear.

10. The adjustable, dust-proof slot-cutting machine of claim 1, wherein: the device is characterized by further comprising a blowing device (7), wherein the blowing device (7) comprises a blowing mounting frame (71), an electric rolling brush (72) and a group of blowing pipes (73), the blowing mounting frame (71) comprises a group of vertical mounting plates and a horizontal mounting plate, the vertical mounting plates are oppositely arranged on a Y-axis mounting base plate (221), and the horizontal mounting plate is arranged above the two vertical mounting plates;

and the top of horizontal mounting panel still is equipped with the trachea mount pad that is used for installing gas blow pipe (73), electric round brush (72) are located between two vertical mounting panels to the below of horizontal mounting panel is arranged in, gas blow pipe (73) one end is connected with the trachea mount pad, just the one end that gas blow pipe (73) kept away from the trachea mount pad is equipped with blowing nozzle (74), blowing nozzle (74) are the platykurtic.

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