CN217859909U - Tile-shaped chamfering machine - Google Patents

Abstract

The utility model discloses a tile type beveler belongs to the machining field. The tile-shaped chamfering machine comprises a frame, an upper combining mechanism and a material pushing mechanism, wherein the upper combining mechanism comprises a driving mechanism and a chamfering mechanism, the material pushing mechanism is connected with the frame, the material pushing mechanism is provided with a material pushing motor, the material pushing mechanism is connected with the chamfering mechanism, the chamfering mechanism is arranged on the frame, the chamfering mechanism is connected with the driving mechanism, the driving mechanism is provided with a driving motor, and the driving mechanism is connected with the frame through the chamfering mechanism. The upper combination mechanism and the material pushing mechanism are arranged outside the rack. The utility model discloses well actuating mechanism and pushing equipment all adopt linear guide and servo motor, have not only simplified the structure of mechanism, can also improve the precision of chamfer, in addition, because the utility model discloses an go up combined mechanism and pushing equipment and all set up in the frame outside, consequently operating personnel can carry out the manual inspection in the frame outside, makes things convenient for the operating personnel maintenance.

Description

Tile-shaped chamfering machine

Technical Field

The utility model belongs to the machining field, more specifically the utility model relates to a tile type beveler that says so.

Background

The chamfering machine is a small-sized precision machine tool which is specially used for manufacturing dies, hardware machinery, machine tool, hydraulic parts, valves and the like, chamfering of textile machinery, milling, planing and the like. The trend in the mechanical industry is to use rapid machine chamfering. Overcomes the processing defects of the existing mechanical and electric tools, has the advantages of convenience, rapidness and accuracy, and is the best choice for chamfering and cutting the metal objects at present. The chamfering method comprises the steps of straight chamfering and curved chamfering according to the requirements of chamfering.

The beveling machine (chamfering machine) is a special tool for chamfering the end face of a pipeline or a flat plate before welding, solves the defects of irregular angle, rough slope surface, high working noise and the like of operation processes such as flame cutting, grinding by a polishing machine and the like, has the advantages of simple and convenient operation, standard angle, smooth surface and the like, and has the advantages of light weight, high beveling probability, durability, convenient operation and the like. The method is very suitable for the welding manufacturing fields of steel structures, boilers, pressure vessels, equipment manufacturing industry, shipbuilding, electric power, dies, chemical engineering, petroleum engineering, metallurgy, end sockets, iron towers, aerospace and the like.

The existing chamfering machine is basically provided with a frame, a chamfering mechanism, a material pushing mechanism and even a material feeding mechanism. Generally, the chamfering mechanism and the pushing mechanism are both arranged inside a frame, for example, a tile-shaped magnet inner and outer arc bidirectional automatic chamfering machine disclosed in patent No. CN 104741987A. This automatic beveler all sets up inside the frame with magnetic shoe feeding mechanism, magnetic shoe pushing equipment and magnetic shoe chamfer mechanism, and when certain mechanism or whole mechanism need be maintained wherein, operating personnel need unpack the frame apart and maintain again, and is very inconvenient. Secondly, a tile-shaped magnet inner and outer arc bidirectional automatic chamfering machine disclosed in patent No. CN104741987A utilizes a cam for transmission, and adopts a bearing type transmission guide rail to design transmission components in a magnetic tile pushing mechanism, a magnetic tile feeding mechanism and a magnetic tile chamfering mechanism, although the processing efficiency is improved to some extent, the precision of the bearing type transmission guide rail is not as good as that of a linear guide rail. Moreover, in the tile-shaped magnet inner and outer arc bidirectional automatic chamfering machine disclosed in patent No. CN104741987A, the structure is complex, if the pushing cam, the lifting cam and the feeding cam need to be installed in an angle matching manner, the complex structure makes the chamfering machine inconvenient to maintain, and the irregular shapes of the pushing cam, the lifting cam and the feeding cam make the product difficult to unify the scale of the chamfers (such as the size of the chamfers, the angles of the chamfers, etc.) during chamfering, difficult to control, and low in chamfering precision.

SUMMERY OF THE UTILITY MODEL

To the problem that the chamfer precision is not high, the maintenance is inconvenient, the structure is complicated, the utility model aims at providing a tile type beveler, this tile type beveler include the frame, go up combined mechanism and pushing equipment, it includes actuating mechanism and chamfer mechanism to go up combined mechanism. The utility model discloses well actuating mechanism and pushing equipment all adopt linear guide and servo motor, have not only simplified the structure of mechanism, can also improve the precision of chamfer, and make the chamfer size of product, angle comparatively unified, in addition, because the utility model discloses an go up combined mechanism and pushing equipment and all set up in the frame outside, consequently operating personnel need not unpack the frame apart when maintaining, can carry out the manual work in the frame outside, make things convenient for operating personnel to maintain.

One of the concepts of the present invention is to provide a tile-shaped chamfering machine, which comprises a frame and an upper assembly mechanism, wherein the upper assembly mechanism comprises a driving mechanism and a chamfering mechanism.

The driving mechanism is arranged on the frame.

In some embodiments, the upper combining mechanism is disposed outside the chassis.

The driving mechanism is provided with a driving motor.

In some embodiments, the drive motor is a servo motor.

The driving mechanism is provided with a fixing block.

In some embodiments, the fixation block is hollow.

In some embodiments, the fixed blocks include a slider fixing plate, a servo motor mount fixing plate, and a side fixing plate.

In some embodiments, a servo motor base is attached to the servo motor base fixing plate.

In some embodiments, the drive motor is disposed on the servo mount.

The driving mechanism is provided with a second linear guide rail and a third linear guide rail. The linear guide rail has higher precision and is convenient to control.

In some embodiments, the second and third linear guides are lift guides.

In some embodiments, the second and third linear guides are disposed on a fixed block.

In some embodiments, the second linear guide and the third linear guide are disposed on the slider fixing plate.

In some embodiments, the second linear guide and the third linear guide are arranged in parallel.

In some embodiments, the second and third linear guides are symmetrically disposed about the drive motor.

And a second sliding block is arranged between the second linear guide rail and the third linear guide rail.

In some embodiments, the second linear guide is provided with two second guide sliders and the third linear guide is also provided with two third guide sliders, the second sliders being provided on the second guide sliders and the third guide sliders.

The driving mechanism is connected with the chamfering mechanism.

The chamfering mechanism includes a clamp plate.

In some embodiments, the drive mechanism is coupled to the chamfering mechanism by a clamp plate.

The clamp plate is connected with the second slider.

The clamp plate is arranged opposite to the driving motor.

In some embodiments, one end of the second sliding block is connected with the servo seat, and the other end of the second sliding block is connected with the clamp plate.

The clamp plate is provided with a clamp plate positioning piece.

In some embodiments, one end of the clamp plate is connected to the second slider, and the other end of the clamp plate is connected to the clamp plate positioning element.

The chamfering mechanism is further provided with a first power fixing structure, a second power fixing structure and a bedplate.

The chamfering mechanism is arranged on the frame.

In some embodiments, the chamfering mechanism is disposed outside the housing.

In some embodiments, the chamfering mechanism is mounted on the frame by a lower fixing plate.

The chamfering mechanism is connected with the driving mechanism.

In some embodiments, the chamfering mechanism is connected with the driving mechanism through an upper fixing plate.

In some embodiments, the fixing block is disposed on the upper fixing plate.

In some embodiments, two connecting plates are disposed between the upper and lower fixing plates.

The chamfering mechanism is provided with four grinding heads.

In some embodiments, the first power mounting structure is provided with two grinding heads and the second power mounting structure is provided with two grinding heads.

In some embodiments, the first power mounting structure is provided with upper and lower grinding heads and the second power mounting structure is provided with upper and lower grinding heads.

The four grinding heads are uniformly distributed on the bedplate.

In some embodiments, the bedplate is uniformly provided with four through holes, and the four grinding heads and the four through holes correspond to each other one by one.

The first power fixing structure is provided with a first bottom plate.

The first bottom plate is provided with a product cartridge clip.

The product cartridge clip is connected with a product guide rail.

In some embodiments, the product cartridge is fixedly attached to the product guide.

In some embodiments, the product clips are disposed perpendicular to the product rails.

In some embodiments, the upper assembly mechanism is provided with a waterproof cover, and part of the drive mechanism and the chamfering mechanism are positioned inside the waterproof cover. Set up the buckler and can protect the bistrique, can also prevent into water when the product carries out the chamfer, it is right to reduce the utility model discloses a damage, the extension the utility model discloses a life.

Another idea of the present invention is to provide a tile-shaped chamfering machine, which comprises a pushing mechanism.

The pushing mechanism is arranged on the rack.

In some embodiments, the pusher mechanism is disposed outside of the frame.

The pushing mechanism is connected with the rack through a chamfering mechanism.

In some embodiments, the pushing mechanism is provided with a first fixing plate, and the first fixing plate is connected with the rack through a lower fixing plate.

The material pushing mechanism is provided with a material pushing motor.

In some embodiments, the pusher motors are all servo motors.

The pushing mechanism is provided with a first linear guide rail.

In some embodiments, the first linear guide is a horizontal guide.

The first linear guide rail is connected with a material pushing motor.

In some embodiments, the pushing motor is disposed at an end of the first linear guide rail that is further from the product guide rail.

And a first guide rail sliding block is arranged on the first linear guide rail.

The pushing mechanism is provided with a pushing rod.

In some embodiments, the pusher bar is disposed opposite the first linear guide.

In some embodiments, the material pushing rod is arranged opposite to the first linear guide rail up and down

In some embodiments, a dust cover is disposed on the pushing mechanism. The dust cover is arranged, so that dust can be prevented from entering the material pushing mechanism when the product is pushed, the material pushing mechanism is protected, and the service life of the material pushing mechanism is prolonged.

The utility model discloses a technological effect and advantage:

1. the utility model discloses well actuating mechanism and pushing equipment all adopt linear guide and servo motor, have not only simplified the structure of mechanism, can also improve the precision of chamfer, and make the chamfer size of product, angle comparatively unified.

2. Because the utility model discloses an go up combined mechanism and pushing equipment and all set up in the frame outside, consequently operating personnel need not unpack apart the frame when maintaining, can carry out the manual work in the frame outside, makes things convenient for operating personnel to maintain.

Drawings

FIG. 1 is a front view of the tile-type chamfering machine of the present application;

FIG. 2 is a schematic view of a partial structure of the tile-type chamfering machine according to the present application;

FIG. 3 is a schematic view of a partial structure of the tile-type chamfering machine according to the present application;

FIG. 4 is a schematic view of a partial structure of the tile-type chamfering machine according to the present application;

fig. 5 is a schematic view of another angle of the tile-type chamfering machine according to the present application.

In the figure:

1. a frame;

2. a material pushing mechanism; 2.1, a material pushing motor; 2.2, a first fixing plate; 2.3, positioning a plate; 2.4, a first guide pillar; 2.5, a second guide post; 2.6, a second fixing plate; 2.7, a third fixing plate; 2.8, fixing a first servo motor base plate; 2.9, a first servo motor seat; 2.10, a first screw rod nut; 2.11, a first ball screw; 2.12, a first slide block fixing plate; 2.13, a first linear guide rail; 2.14, a first guide rail slide block; 2.15, a first slide block; 2.16, a first sliding block fixing frame; 2.17, a material pushing rod;

3. a drive mechanism; 3.1, driving a motor; 3.2, a second slide block; 3.3, side fixing plates; 3.4, a second slide block fixing plate; 3.5, fixing a second servo motor base plate; 3.6, a second linear guide rail; 3.7, a third linear guide rail; 3.8, a second servo motor seat; 3.9, a second ball screw;

4. a chamfering mechanism; 4.1, a first bottom plate; 4.2, a bedplate; 4.3, a second bottom plate; 4.4, grinding the head; 4.5, a lower fixing plate; 4.6, an upper fixing plate; 4.7, a clamp plate;

5. a product cartridge clip;

6. a product guide rail;

7. a dust cover;

8. and (4) a waterproof cover.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. 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.

Referring to fig. 1 to 5 (the orientation or positional relationship indicated in this embodiment is based on the orientation or positional relationship shown in fig. 1), the tile-shaped chamfering machine provided in this embodiment includes a frame 1, an upper combining mechanism and a pushing mechanism 2, the upper combining mechanism includes a driving mechanism 3 and a chamfering mechanism 4, the frame 1 is rectangular, a lower fixing plate 4.5 is disposed above the frame 1, the lower fixing plate 4.5 is rectangular, the lower fixing plate 4.5 is disposed along the length direction of the frame 1 (i.e. the length of the lower fixing plate 4.5 is parallel to the length of the frame 1), a first fixing plate 2.2 is connected above the lower fixing plate 4.5, the first fixing plate 2.2 is located in front of the lower fixing plate 4.5, the first fixing plate 2.2 is disposed parallel to the lower fixing plate 4.5, the first fixing plate 2.2 is rectangular, the width of the first fixing plate 2.2 is half of the width of the lower fixing plate 4.5, the left end of the lower fixing plate 4.5 is connected to the right end of the first fixing plate 2.2, the width of the first fixing plate 2.2 is half of the width of the lower fixing plate 4.5, the left end of the first fixing plate 2.2 is connected with a positioning plate 2.3, the positioning plate 2.3 is a cuboid, the upper and lower surfaces of the positioning plate 2.3 are two surfaces with larger areas, the positioning plate 2.3 is vertically connected with the first fixing plate 2.2 (namely, the length of the positioning plate 2.3 is vertical to the length of the first fixing plate 2.2, the width of the positioning plate 2.3 is vertical to the width of the first fixing plate 2.2, the height of the positioning plate 2.3 is parallel to the height of the first fixing plate 2.2), the front end of the positioning plate 2.3 is connected with a first guide pillar 2.4, the rear end of the positioning plate 2.3 is connected with a second guide pillar 2.5, the first guide pillar 2.4 and the second guide pillar 2.5 are symmetrical with respect to the first fixing plate 2.2, the lower ends of the first guide pillar 2.4 and the second guide pillar 2.5 are connected with the second fixing plate 2.6, the second fixing plate 2.6 is a cuboid, the second fixing plate 2.6 is parallel to the first fixing plate 2.2, a third fixing plate 2.7 is connected above the second fixing plate 2.6, the third fixing plate 2.7 is a cuboid, the left side of the third fixing plate 2.7 is connected with a first servo motor base fixing plate 2.8, the middle of the right side of the first servo motor base fixing plate 2.8 is connected with a first screw nut 2.10 and a first ball screw 2.11, the left side of the first servo motor base fixing plate 2.8 is connected with a first servo motor base 2.9, the right side of the first servo motor base 2.9 is connected with the left side of the first servo motor base fixing plate 2.8, the left side of the first servo motor base 2.9 is connected with a material pushing motor 2.1, the material pushing motor 2.1 is a servo motor, the upper side of the third fixing plate 2.7 is connected with a first slide block fixing plate 2.12, the first slide block fixing plate 2.12 is a cuboid, the first slide block fixing plate 2.12 is positioned behind the first ball screw 2.11, the first slider fixing plate 2.12 is parallel to the first ball screw 2.11, the first linear guide rail 2.13 is arranged above the first slider fixing plate 2.12, the first linear guide rail 2.13 is parallel to the first slider fixing plate 2.12, the first linear guide rail 2.13 is externally sleeved with the first guide rail slider 2.14, the first guide rail slider 2.14 is positioned at the left end of the first linear guide rail 2.13 (the first guide rail slider 2.14 is positioned at the left end of the first linear guide rail 2.13, which means the utility model is in a state of not starting to work), the first slider 2.15 is arranged above the first guide rail slider 2.14, the first slider fixing frame 2.16 is connected above the first slider 2.15, the first slider fixing frame 2.16 is connected with the material pushing rod 2.17, the material pushing rod 2.17 is positioned at the right end of the first slider fixing frame 2.16, the dust cover 7 is arranged above the third fixing plate 2.7, the material pushing motor 2.1 and the first linear guide rail 2.13 are positioned inside the dust cover 7, and part of the material pushing rod 2.17 is also positioned inside the dust cover, a pushing rod hole is formed in the right end of the dust cover 7, and the shape of the pushing rod hole is the same as the cross section of the pushing rod 2.17 (the pushing rod hole is used for the pushing rod 2.17 to move back and forth); the lower fixing plate 4.5 is provided with a chamfering mechanism 4, the chamfering mechanism 4 is positioned behind the first fixing plate 2.2, the chamfering mechanism 4 comprises a clamp plate 4.7, a first fixed power structure, a bedplate 4.2 and a second fixed power structure, the first fixed power structure comprises a first bottom plate 4.1, the second fixed power structure comprises a second bottom plate 4.3, the first bottom plate 4.1, the bedplate 4.2 and the second bottom plate 4.3 are cuboids, the first bottom plate 4.1, the bedplate 4.2 and the second bottom plate 4.3 are all vertically connected with the lower fixing plate 4.5, the front and the back of the three components of the first bottom plate 4.1, the bedplate 4.2 and the second bottom plate 4.3 are both two surfaces with larger areas from left to right, and the first bottom plate 4.1, the bedplate 4.2 and the second bottom plate 4.3 are sequentially connected from left to right; a product cartridge clip 5 is arranged on a first bottom plate 4.1, the product cartridge clip 5 is vertically arranged in front of the first bottom plate 4.1, the product cartridge clip 5 is arranged on the right side of the first bottom plate 4.1, the product cartridge clip 5 is a C-shaped groove, a notch of the product cartridge clip 5 is arranged on the left side (namely the notch of the product cartridge clip 5 faces a material pushing rod), a product guide rail 6 is connected under the product cartridge clip 5, the product guide rail 6 is vertical to the product cartridge clip 5, the product guide rail 6 is a C-shaped groove, a notch of the product guide rail 6 is arranged on the upper side, the notch of the left end of the product guide rail 6 is communicated with a lower port of the product cartridge clip 5, the notch of the product guide rail 6 and the material pushing rod are on the same horizontal position, the length of the product guide rail 6 is shorter than the length of the material pushing rod 2.17, a limiting part is arranged on the product guide rail 6 which is not connected with the product cartridge clip 5, the limiting parts are arranged on the front side and the rear side of the product guide rail 6, and the limiting parts are arranged above the product guide rail 6 (the limiting parts are used for limiting the product which needs chamfering, so that the product which needs chamfering is kept stable when the chamfering; four through holes are uniformly formed in the bedplate 4.2, the through holes are oval, the four through holes are distributed in a rectangular shape, the first fixed power structure and the second fixed power structure are respectively provided with two grinding heads 4.4, the two grinding heads 4.4 are distributed up and down, the first fixed power structure and the second fixed power structure are positioned behind the bedplate 4.2, the first fixed power structure is positioned at the left side of the bedplate 4.2, the upper grinding head 4.4 and the lower grinding head 4.4 of the first fixed power structure are respectively in one-to-one correspondence and combined with the upper through hole and the lower through hole at the left side of the bedplate 4.2, the second fixed power structure is positioned at the right side of the bedplate 4.2, and the upper grinding head 4.4 and the lower grinding head 4.4 of the first fixed power structure are respectively in one-to-one correspondence and combined with the upper through hole and the lower through hole at the right side of the bedplate 4.2; an upper fixing plate 4.6 is connected above the first bottom plate 4.1, the bedplate 4.2 and the second bottom plate 4.3, two connecting plates are arranged behind the upper fixing plate 4.6 and are respectively positioned at the left side and the right side of the upper fixing plate 4.6, the upper ends of the two connecting plates are connected with the upper fixing plate 4.6, the lower ends of the two connecting plates are connected with the lower fixing plate 4.5, and a product spring clamp 5 arranged on the first bottom plate 4.1 is higher than the upper fixing plate 4.6 (products to be processed can be conveniently added); the driving mechanism 3 comprises a fixed block, a driving motor 3.1 and a second sliding block 3.2, the fixed block comprises a second sliding block fixing plate 3.4, a second servo motor base fixing plate 3.5 and a side fixing plate 3.3, the second sliding block fixing plate 3.4 is arranged above an upper fixing plate 4.6, the second sliding block fixing plate 3.4 is a cuboid, the second sliding block fixing plate 3.4 is perpendicular to the upper fixing plate 4.6, the front surface and the rear surface of the second sliding block fixing plate 3.4 are two surfaces with larger areas, the left side and the right side of the second sliding block fixing plate 3.4 are respectively connected with one side fixing plate 3.3, the two side fixing plates 3.3 are positioned at the rear surface of the second sliding block fixing plate 3.4, the two side fixing plates 3.3 are parallel to each other, and the two side fixing plates 3.3 are perpendicular to the second sliding block fixing plate 3.4; a second linear guide rail 3.6 is arranged on the left side of the second slider fixing plate 3.4, the second linear guide rail 3.6 is positioned in front of the second slider fixing plate 3.4, the second linear guide rail 3.6 is a lifting guide rail, a second guide rail slider is sleeved on the upper end of the second linear guide rail 3.6, a second guide rail slider is sleeved on the lower end of the second linear guide rail 3.6, a third linear guide rail 3.7 is arranged on the right side of the second slider fixing plate 3.4, the third linear guide rail 3.7 is positioned in front of the second slider fixing plate 3.4, the third linear guide rail 3.7 is a lifting guide rail, a third guide rail slider is sleeved on the upper end of the third linear guide rail 3.7, a third guide rail slider is sleeved on the lower end of the third linear guide rail 3.7, the two second guide rail sliders and the two third guide rail sliders are connected with the second slider 3.2, the second slider 3.2 is located in front of the two second guide rail sliders and the two third guide rail sliders, the front of the second slider 3.2 is connected with the clamp plate 4.7, the upper end of the clamp plate 4.7 is connected with the second slider 3.2, the length of the joint of the clamp plate 4.7 and the second slider 3.2 is two thirds of the length of the second slider 3.2 (the clamp plate 4.7 is stable and convenient for chamfering), the lower end of the clamp plate 4.7 is located in the middle of the bedplate 4.2, and the lower end of the clamp plate 4.7 is connected with a clamp plate positioning piece (the clamp plate positioning piece is used for positioning a product which is chamfered); the second servo motor base fixing plate 3.5 is positioned above the second slider fixing plate 3.4 and the two side fixing plates 3.3, the front end of the second servo motor base fixing plate 3.5 is connected with a second servo motor base 3.8, the second servo motor base 3.8 is positioned above the second servo motor base fixing plate 3.5, the upper end of the second servo motor base 3.8 is connected with the driving motor 3.1, the driving motor 3.1 is a servo motor, the lower end of the second servo motor base 3.8 is connected with a second ball screw 3.9, the upper end of the second ball screw 3.9 is connected with the second servo motor base 3.8, and the lower end of the second ball screw 3.9 is connected with the second slider 3.2; platen 4.2 the place ahead is provided with buckler 8 (set up the buckler and can protect the bistrique, can also prevent into water when the product carries out the chamfer, and it is right to reduce the utility model discloses a damage, the extension the utility model discloses a life), four bistriques are located inside 8 of bucklers, 8 upper ends of buckler are provided with the anchor clamps diaphragm orifice, and anchor clamps diaphragm 4.7 lower extremes goes up and down in 8 inside of buckler through the anchor clamps diaphragm orifice, and 8 left sides of buckler are provided with a guide rail hole, and the product guide rail passes guide rail hole and part product guide rail and is located inside 8 of buckler, and 8 right sides of buckler are provided with a product hole (the output that is used for accomplishing the product of chamfer), and the product hole is symmetrical about the anchor clamps diaphragm orifice with the guide rail hole.

The utility model discloses a theory of operation is: an operator puts a product to be machined from an upper port of a product cartridge clip 5, the product to be machined moves downwards along the product cartridge clip 5 and enters the left end of a product guide rail 6, a material pushing motor 2.1 is opened, a first guide rail slide block 2.14 and a first ball screw 2.11 drive a first slide block 2.15 to move rightwards on a first linear guide rail 2.13, a material pushing rod 2.17 also moves rightwards at the same time, the product to be machined is pushed to the right end of the product guide rail 6 by the material pushing rod 2.17 and is clamped by a clamp plate positioning piece of a clamp plate 4.7, at the moment, a driving motor 3.1 is opened, a second guide rail slide block and a third guide rail slide block drive a second slide block 3.2 to move upwards and downwards on a second linear guide rail 3.6 and a third linear guide rail 3.7, the product to be machined is driven by the clamp plate 4.7 to move upwards and chamfer the product to be machined, when the product to be machined is moved upwards until two through holes are formed in the upper surface of a platen 4.2, a power structure above the first fixed power structure and a grinding head 4.4.4 for chamfering the product, and a grinding head for chamfering the product to be machined is moved downwards, and when the grinding head of the product to be machined is moved downwards.

In the description of the present invention, it should be understood that the indicated orientation or positional relationship is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the indicated device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

It is to be understood that the disclosed embodiments are merely exemplary of the invention, and are not intended to limit the invention to the precise embodiments disclosed. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art and related fields without creative efforts shall fall within the protection scope of the present invention. The structures, devices, and methods of operation of the present invention, not specifically described and illustrated, are generally practiced by those of ordinary skill in the art without specific recitation or limitation.

Claims (10)

1. A tile-shaped chamfering machine, comprising: frame (1), go up combined mechanism and pushing equipment (2), it includes actuating mechanism (3) and chamfering mechanism (4) to go up combined mechanism, pushing equipment (2) are connected with frame (1), pushing equipment (2) are provided with pushing equipment motor (2.1), pushing equipment (2) are connected with chamfering mechanism (4), chamfering mechanism (4) set up in frame (1), chamfering mechanism (4) are connected with actuating mechanism (3), actuating mechanism (3) are provided with driving motor (3.1), actuating mechanism (3) are connected with frame (1) through chamfering mechanism (4).

2. The tile-type chamfering machine according to claim 1, wherein the upper combining mechanism is arranged outside the machine frame (1), and the material pushing mechanism (2) is arranged outside the machine frame (1).

3. The tile-type chamfering machine according to claim 1, wherein the driving motor (3.1) and the pushing motor (2.1) are servo motors.

4. The tile-type chamfering machine according to claim 1, wherein the pushing mechanism (2) is further provided with a first linear guide rail (2.13) and a pushing rod (2.17), the first linear guide rail (2.13) is a horizontal guide rail, the pushing rod (2.17) is arranged opposite to the first linear guide rail (2.13), a first guide rail sliding block (2.14) is arranged on the first linear guide rail (2.13), and the first linear guide rail (2.13) is connected with a pushing motor (2.1).

5. The tile-type chamfering machine according to claim 1, wherein the upper combining mechanism is further provided with a first bottom plate (4.1), a product cartridge clip (5) and a product guide rail (6), the first bottom plate (4.1) is arranged on the rack (1), the first bottom plate (4.1) is connected with the product cartridge clip (5), and the product cartridge clip (5) is perpendicularly connected with the product guide rail (6).

6. The tile-type chamfering machine according to claim 1, wherein the driving mechanism (3) further comprises a fixed block, a second linear guide rail (3.6) and a third linear guide rail (3.7), the second linear guide rail (3.6) and the third linear guide rail (3.7) are lifting guide rails, the second linear guide rail (3.6) and the third linear guide rail (3.7) are arranged on the fixed block, the second linear guide rail (3.6) and the third linear guide rail (3.7) are arranged in parallel, and a second sliding block (3.2) is arranged between the second linear guide rail (3.6) and the third linear guide rail (3.7).

7. The tile-type chamfering machine according to claim 1, wherein the chamfering mechanism (4) is provided with a jig plate (4.7), a platen (4.2) and four grinding heads (4.4), one end of the jig plate (4.7) is connected with the second slider (3.2), the other end of the jig plate (4.7) is located between the four grinding heads (4.4), and the four grinding heads (4.4) are evenly distributed on the platen (4.2).

8. The tile-type chamfering machine according to claim 7, wherein the driving motor (3.1) is disposed on a fixing block, and the driving motor (3.1) is disposed opposite to the jig plate (4.7).

9. The tile-type chamfering machine according to claim 1, wherein a dust cover (7) is arranged on the pushing mechanism (2).

10. The tile-type chamfering machine according to claim 1, wherein the upper combining mechanism is provided with a waterproof cover (8), and a part of the driving mechanism (3) and the chamfering mechanism (4) are located inside the waterproof cover (8).

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