CN219786801U - Four-way synchronous chamfering machine - Google Patents

Abstract

The utility model discloses a four-way synchronous chamfering machine which comprises a frame and a motor A, wherein chamfering brackets are movably connected to two side edges above the frame through erecting linear guide rail pairs; the inner sides of the same outer side face of the chamfering bracket are connected with chamfering head assemblies through synchronous transmission shafts, the other ends of the synchronous transmission shafts are connected with synchronous wheels, a motor A is arranged at the center of one side edge of the bottom surface of the frame, the motor A is connected with an eccentric wheel B, the eccentric wheel B is connected with the bottom adjacent side face of the chamfering frame through a connecting rod, the motor B is arranged on the outer side face of a certain chamfer of the chamfering frame, and the motor B is connected with the synchronous wheels arranged on the chamfering frame through the synchronous transmission shafts; the chamfering machine is novel in shape, the motor A and the motor B are controlled to rotate through the control system, the cutting distance of chamfering materials is adjusted, the chamfering tool is adjusted, and chamfering of the chamfering materials with different lengths is achieved.

Description

Four-way synchronous chamfering machine

Technical Field

The utility model relates to the technical field of chamfering machines, in particular to a four-way synchronous chamfering machine.

Background

The chamfering machine is a common mechanical device in the existing machining, in order to solve the precision problem in chamfering, various chamfering positioning and limiting devices are provided, the chamfering precision is further improved, but in the process of solving the problems of numerous chamfering, the multidirectional problem of chamfering is not solved yet, the chamfering efficiency is low, and the chamfering length and the material cutting distance are inconvenient to adjust.

Disclosure of Invention

The utility model aims to provide a four-way synchronous chamfering machine, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model is realized by the following technical means:

a four-way synchronous chamfering machine comprising a frame, wherein:

the machine frame is of an I-shaped structure, and chamfer brackets are movably connected to two side edges above the machine frame through erection of linear guide rail pairs;

the inner sides of the same outer side face of each chamfer are connected with a chamfer head assembly through synchronous transmission shafts, the other ends of the synchronous transmission shafts are connected with synchronous wheels, tension wheels are sleeved outside the synchronous wheels, and synchronous belts are sleeved outside the tension wheels;

the chamfering head assembly comprises an eccentric wheel A, wherein the eccentric wheel A is connected with a connecting rod A fixing seat through a connecting rod A, two ends of the lower surface of the connecting rod A fixing seat are respectively connected with guide rails, two guide rails penetrate through a guide rail orientation seat to be connected with a push plate, and the push plate is connected with a chamfering tool;

the motor A is arranged at the center of one side edge of the bottom surface of the frame, and is connected with an eccentric wheel B, and the eccentric wheel B is connected with the bottom adjacent side surface of the chamfering frame through a connecting rod;

and the motor B is arranged on the outer side face of a certain chamfer of the chamfering machine frame and is connected with a synchronous wheel arranged on the chamfering machine frame through a synchronous transmission shaft.

Further, the upper surface both ends of frame are equipped with preceding support frame, back support frame respectively, preceding support frame is in the coplanar with the upper surface of back support frame, the upper surface of preceding support frame, back support frame is in the coplanar with the hollow bottom surface of chamfer support, the vertical central line of preceding support frame, back support frame is in the coplanar with the central line of chamfer support.

Further, the chamfering tool comprises an adjusting bolt, the adjusting bolt penetrates through the pushing plate and is fixed on the pushing plate through a nut, and a plurality of groups of chamfering tool groups are connected to the adjusting bolt through the nut, so that the quantity of chamfering tools can be adjusted conveniently.

Further, the chamfering tool set comprises a cutter plate and chamfering tools, wherein the cutter plate is connected with the chamfering tools through bolts, so that the chamfering tools are convenient to adjust and replace, and chamfering adjustment in multiple modes is realized.

Further, the end face of the chamfering tool is in a blade shape.

Further, the guide rail orientation seat is fixed on the chamfering bracket through bolts.

Further, the cross section of chamfer support is for seting up hollow polygon structure, the chamfer support including four chamfer structures, four the inboard of the same lateral surface of chamfer all is connected with the chamfer head assembly through synchronous transmission shaft, and the other end of each synchronous transmission shaft all is connected with the synchronizing wheel, and each synchronizing wheel is located the another side of chamfer support, the outer cover of synchronizing wheel all is equipped with the tight pulley that rises, and each tight pulley overcoat that rises is equipped with the hold-in range.

Further, the cross-section structure of push pedal is protruding structure, set up the through-hole of connecting adjusting bolt on the protruding piece of push pedal.

A chamfering method comprising the steps of:

(1) Conveying the material to be chamfered to a front supporting frame through a conveying device, and enabling the material to be chamfered to pass through the hollow part of the chamfering bracket through the front supporting frame;

(2) The motor A and the motor B are controlled by the control system to do periodic motion, the motor A drives the chamfering bracket to move on the linear guide rail pair, the motor B drives the synchronous transmission shaft to drive the corresponding synchronous wheel, the synchronous wheel drives the synchronous belt connected with the tension wheel through the tension wheel to drive the eccentric wheel A on other chamfering head assemblies to rotate, the connecting rod A drives the push plate to move up and down, the push plate drives the chamfering tool to chamfer chamfering materials, and the control system controls the motor A and the motor B to rotate to adjust the cutting distance of the chamfering materials and the chamfering tool to realize chamfering of different lengths of the chamfering materials;

(3) And after chamfering, the chamfering materials are sent out by a rear supporting frame.

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

the chamfering device is novel in shape, the motor A and the motor B can be controlled to do periodic motion through the control system arranged outside the device, the motor A drives the chamfering support to move on the linear guide rail pair, the motor B drives the transmission shaft to transmit the corresponding synchronous wheel, the synchronous wheel drives the synchronous belt connected with the tension wheel through the tension wheel to drive the eccentric wheel A on other chamfering head assemblies to rotate, the connecting rod A drives the pushing plate to move up and down, the pushing plate drives the chamfering tool to chamfer chamfering materials, the control system controls the motor A and the motor B to rotate, the chamfering material cutting distance is adjusted, the chamfering tool is adjusted, chamfering of different lengths of chamfering materials is achieved, the technical effect of multidirectional chamfering is achieved, and chamfering efficiency is greatly improved.

Description of the drawings:

FIG. 1 is a schematic diagram of the structure of the product of the present utility model;

FIG. 2 is a schematic view of a part of the structure of the present utility model;

FIG. 3 is a schematic view of a part of the structure of the product of the utility model;

FIG. 4 is a schematic diagram of a part of the structure of the product of the present utility model.

The specific embodiment is as follows:

in order to enable those skilled in the art to better understand the technical solutions of the present utility model, the present utility model is further described below with reference to examples:

embodiment 1 referring to the drawings, a four-way synchronous chamfering machine comprises a frame 1, wherein:

the machine frame 1 is of an I-shaped structure, and chamfer brackets 3 are movably connected to two side edges above the machine frame 1 through erection of linear guide rail pairs 2;

the chamfering device comprises chamfering brackets 3, wherein each corner of each chamfering bracket 3 is of a chamfering structure, the inner side of the same outer side face of each chamfering is connected with a chamfering head assembly 5 through a synchronous transmission shaft 4, the other end of each synchronous transmission shaft 4 is connected with a synchronous wheel 12, each synchronous wheel 12 is sleeved with a tensioning wheel 6, and each tensioning wheel 6 is sleeved with a synchronous belt 7;

the chamfering head assembly 5 comprises an eccentric wheel A51, wherein the eccentric wheel A51 is connected with a connecting rod A fixing seat 53 through a connecting rod A52, two ends of the lower surface of the connecting rod A fixing seat 53 are respectively connected with guide rails 54, two guide rails 54 penetrate through a guide rail orientation seat 55 to be connected with a push plate 56, and the push plate 56 is connected with a chamfering tool 57;

the motor A8 is arranged at the center of one side edge of the bottom surface of the frame 1, the motor A8 is connected with an eccentric wheel B9, and the eccentric wheel B9 is connected with the bottom adjacent side surface of the chamfering frame 3 through a connecting rod 10;

and the motor B11 is arranged on the outer side face of a certain chamfer of the chamfering machine frame 3, and the motor B11 is connected with a synchronous wheel 12 arranged on the chamfering machine frame 3 through a synchronous transmission shaft 4.

Further, the two ends of the upper surface of the frame 1 are respectively provided with a front supporting frame 13 and a rear supporting frame 14, the upper surfaces of the front supporting frame 13 and the rear supporting frame 14 are in the same plane with the hollow bottom surface of the chamfering bracket 3, and the vertical central lines of the front supporting frame 13 and the rear supporting frame 14 are in the same plane with the central line of the chamfering bracket 3.

Further, the chamfering tool 57 includes an adjusting bolt 58, the adjusting bolt 58 passes through the push plate 56 and is fixed on the push plate 56 by a nut, and the adjusting bolt 58 is connected with a plurality of groups of chamfering tool groups 59 by a nut, so as to be convenient for adjusting the quantity of chamfering tools.

Further, the chamfering tool set 59 comprises a tool plate 591 and a chamfering tool 592, wherein the tool plate 591 is connected with the chamfering tool 592 through a bolt, so that the chamfering tool 592 can be conveniently adjusted and replaced, and chamfering adjustment in multiple modes is realized.

Further, the end face of the chamfering blade 592 is blade-shaped.

Further, the guide rail orientation seat 55 is fixed to the chamfer bracket 3 by a bolt.

Further, the cross section of chamfer support 3 is for seting up hollow polygon structure, chamfer support 3 is including four chamfer structures, four the inboard of the same lateral surface of chamfer all is connected with chamfer head assembly 5 through synchronous drive shaft 4, and the other end of each synchronous drive shaft 4 all is connected with synchronizing wheel 12, and each synchronizing wheel 12 is located the another side of chamfer support 3, all the cover is equipped with tight pulley 6 that rises outward of synchronizing wheel 12, and each tight pulley 6 overcoat that rises is equipped with hold-in range 7.

Further, the cross-section structure of the push plate 56 is a convex structure, and the convex block of the push plate 56 is provided with a through hole for connecting the adjusting bolt.

A chamfering method comprising the steps of:

(1) The material to be chamfered is conveyed to the front supporting frame 13 through the conveying device, and the material to be chamfered passes through the hollow part of the chamfering bracket 3 through the front supporting frame 13;

(2) The motor A8 and the motor B11 are controlled by the control system to do periodic motion, the motor A8 drives the chamfering bracket 3 to move on the linear guide rail pair 2, the motor B11 drives the synchronous transmission shaft 12 to drive the corresponding synchronous wheel 12, the synchronous wheel 12 drives the synchronous belt 7 connected with the tension wheel 6 through the tension wheel 6, drives the eccentric wheel A51 on other chamfering head assemblies 5 to rotate, the connecting rod A52 drives the push plate 56 to move up and down, the push plate 56 drives the chamfering tool 57 to chamfer chamfering materials, the control system controls the motor A8 and the motor B11 to rotate, the chamfering material cutting distance is adjusted, the chamfering tool 57 is adjusted, and chamfering of different lengths of the chamfering materials is realized;

(3) The chamfering material is sent out through the rear supporting frame 14 after chamfering.

The present utility model does not disclose the relevant components in the specification and drawings, but does not prevent a person skilled in the art from fully understanding the present utility model, and does not disclose other conventional components of the present utility model, nor does it prevent a person skilled in the art from fully understanding the present disclosure.

While certain exemplary embodiments of the present utility model have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the scope of the utility model. Accordingly, the foregoing description is illustrative in nature and is not to be construed as limiting the scope of the utility model as claimed.

Unless defined otherwise, all academic and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs.

In the case of abutment, the definition in this specification controls.

All percentages, parts, ratios, etc. are by weight unless otherwise specified.

When values or ranges of values, preferred ranges or a list of lower and upper preferred values are provided, it is to be understood that any range formed from any smaller range limit or preferred value and any pair of values for any larger range limit or preferred value, whether or not the ranges are separately disclosed. Where the specification describes a numerical range, unless the specification states otherwise, the range is intended to include both the end of the range and all integers and fractions within the range.

When the terms "about" or "about" are used to describe the end of a numerical value or range, the disclosure should be interpreted to include the particular numerical value or end of the range concerned.

The use of "a" and "an" are used to describe elements and components of the utility model for convenience and to give a general description of the utility model. Unless explicitly stated otherwise, the description should be understood as including one or at least one.

Claims (5)

1. The utility model provides a four-way synchronous chamfering machine, includes frame, its characterized in that: wherein:

the machine frame is of an I-shaped structure, two sides above the machine frame are movably connected with chamfering supports through a linear guide rail pair, a front support frame and a rear support frame are respectively arranged at two ends of the upper surface of the machine frame, the front support frame and the upper surface of the rear support frame are in the same plane, the upper surfaces of the front support frame and the rear support frame are in the same plane with the hollow bottom surface of the chamfering support, and the vertical central lines of the front support frame and the rear support frame are in the same plane with the central line of the chamfering support;

the inner sides of the same outer side face of each chamfer are connected with a chamfer head assembly through synchronous transmission shafts, the other ends of the synchronous transmission shafts are connected with synchronous wheels, tension wheels are sleeved outside the synchronous wheels, and synchronous belts are sleeved outside the tension wheels;

the chamfering head assembly comprises an eccentric wheel A, wherein the eccentric wheel A is connected with a connecting rod A fixing seat through a connecting rod A, two ends of the lower surface of the connecting rod A fixing seat are respectively connected with guide rails, two guide rails penetrate through guide rail orientation seats to be connected with a push plate, the push plate is connected with a chamfering tool, the chamfering tool comprises an adjusting bolt, the adjusting bolt penetrates through the push plate and is fixed on the push plate through a nut, and a plurality of groups of chamfering tool groups are connected on the adjusting bolt through the nut;

the motor A is arranged at the center of one side edge of the bottom surface of the frame, and is connected with an eccentric wheel B, and the eccentric wheel B is connected with the bottom adjacent side surface of the chamfering frame through a connecting rod;

and the motor B is arranged on the outer side face of a certain chamfer of the chamfering machine frame and is connected with a synchronous wheel arranged on the chamfering machine frame through a synchronous transmission shaft.

2. A four-way synchronous chamfering machine as recited in claim 1, further characterized by: the chamfering tool set comprises a tool plate and chamfering tools, wherein the tool plate is connected with the chamfering tools through bolts, and the end faces of the chamfering tools are in a blade shape.

3. A four-way synchronous chamfering machine as recited in claim 1, further characterized by: the guide rail orientation seat is fixed on the chamfering bracket through bolts.

4. A four-way synchronous chamfering machine as recited in claim 1, further characterized by: the cross section of chamfer support is for seting up hollow polygon structure, the chamfer support including four chamfer structures, four the inboard of the same lateral surface of chamfer all is connected with the chamfer head assembly through synchronous drive shaft, and the other end of each synchronous drive shaft all is connected with the synchronizing wheel, and each synchronizing wheel is located the another side of chamfer support, all the cover is equipped with the tight pulley that rises outward of synchronizing wheel, and each tight pulley overcoat that rises is equipped with the hold-in range.

5. A four-way synchronous chamfering machine as recited in claim 1, further characterized by: the cross-section structure of push pedal is protruding structure, set up the through-hole of connecting adjusting bolt on the protruding piece of push pedal.