CN218362498U - Chamfering machine for two ends of cylindrical workpiece - Google Patents

Abstract

The application discloses cylindrical workpiece both ends beveler, including controller and board, be equipped with feed mechanism and the fixture that links to each other with the controller respectively on the board, feed mechanism is used for transporting cylindrical workpiece the fixture is last, fixture is used for grasping cylindrical workpiece's lateral wall, fixture's left and right sides symmetry is equipped with first chamfer mechanism and second chamfer mechanism, first chamfer mechanism and second chamfer mechanism link to each other with the controller respectively, first chamfer mechanism and second chamfer mechanism can be right respectively chamfer processing is carried out at the both ends of cylindrical workpiece on the fixture. Can carry out the chamfer simultaneously through first chamfer mechanism and second chamfer mechanism in this application to the both ends of cylindrical work piece and process, promote machining efficiency, also avoided work piece one end to chamfer repeatedly, and the condition emergence that the other end did not chamfer has improved the yields.

Description

Chamfering machine for two ends of cylindrical workpiece

Technical Field

The application belongs to the technical field of automation equipment, more specifically relates to a cylindrical workpiece both ends beveler.

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 metal objects.

FIG. 1 shows a cylindrical metal workpiece having a cylindrical hollow configuration, the inner circles of both ends of the workpiece requiring chamfering; however, the existing chamfering machine can only chamfer one end of the workpiece at a time, so that when the workpiece is produced, after one end of the workpiece is machined on the chamfering machine, the workpiece needs to be clamped on the chamfering machine again to chamfer the inner circle of the other end of the workpiece. Therefore, when the existing chamfering machine is used for processing a workpiece of which two ends are required to be chamfered, the workpiece needs to be clamped twice, and the production efficiency is low; and because the both ends of work piece are almost the same, the work piece carries out the easy dress of the in-process of secondary clamping and reverses, causes one end to relapse the chamfer, and the condition that the other end did not chamfer leads to the production of defective products.

In view of this, the existing chamfering machine needs to be improved, and a chamfering machine for two ends of a cylindrical workpiece is provided.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that exists among the above-mentioned prior art, this application provides a cylindrical workpiece both ends beveler, including controller and board, be equipped with feed mechanism and the fixture that links to each other with the controller respectively on the board, feed mechanism is used for transporting cylindrical workpiece the fixture is last, fixture is used for grasping the lateral wall of cylindrical workpiece, fixture's the left and right sides symmetry is equipped with first chamfer mechanism and second chamfer mechanism, first chamfer mechanism and second chamfer mechanism link to each other with the controller respectively, first chamfer mechanism and second chamfer mechanism can be respectively right the chamfer processing is carried out at the both ends of cylindrical workpiece on the fixture.

As the further improvement of this application, first chamfer mechanism is the same with the structure of second chamfer mechanism, first chamfer mechanism includes driving motor and lead screw module, driving motor links to each other with the controller, driving motor's output is connected with the lead screw module, it is equipped with first slider to slide on the lead screw module, driving motor can drive first slider slides on the lead screw module, be equipped with adjustment mechanism on the first slider, the last electric main shaft that is equipped with of adjustment mechanism, adjustment mechanism is used for adjusting the electric main shaft is in position on the first slider, the output of electric main shaft is equipped with the chamfer cutter.

As a further improvement of this application, adjustment mechanism includes X axle slider and Z axle slider, electricity main shaft with the Z axle slider is connected, be equipped with X axle guide rail on the first slider, X axle slider with X axle guide rail slidable spacing connection, be equipped with Z axle guide rail on the X axle slider, Z axle slider with Z axle guide rail slidable spacing connection.

As a further improvement of the application, the clamping mechanism comprises a first clamping component and a second clamping component, the first clamping component and the second clamping component are identical in structure, and the first clamping component and the second clamping component are arranged on the machine platform in a mirror image mode.

As a further improvement of this application, first clamping subassembly includes clamping fixing base and centre gripping cylinder, the centre gripping cylinder with the controller links to each other, the centre gripping cylinder with the clamping fixing base is connected, the clamping fixing base with the board is connected, be equipped with the second slider on the output of centre gripping cylinder, be equipped with the clamp piece on the second slider, the clamp piece is kept away from the one end tip of second slider is equipped with semi-circular card silo, semi-circular card silo and cylindrical workpiece's lateral wall adaptation.

As a further improvement of this application, be equipped with spacing guided way on the clamping fixing base, the second slider with spacing guided way slip joint.

As a further improvement of this application, one side of board is equipped with feed mechanism, feed mechanism with the controller links to each other, feed mechanism's output with feed mechanism links to each other for will treat that the work piece of processing is carried in order on the feed mechanism.

As a further improvement of this application, feeding mechanism includes vibration dish and pay-off track, the vibration dish with the controller links to each other, the orbital one end of pay-off with the vibration dish is connected, the orbital other end of pay-off with feed mechanism links to each other.

As a further improvement of the application, the feeding mechanism comprises a support frame, a feeding cylinder and a feeding guide rail are arranged on the support frame, the feeding cylinder is connected with the controller, a feeding slide block is arranged on the feeding guide rail in a sliding manner, the output end of the feeding cylinder is connected with the feeding slide block, the feeding cylinder can drive the feeding slide block to move up and down, a feeding clamping block is arranged on the feeding slide block, and a workpiece accommodating groove is formed in one end, away from the feeding cylinder, of the feeding clamping block; the feeding device is characterized in that a clamping cylinder is arranged on the feeding sliding block and connected with the controller, a clamping plate is arranged at the output end of the clamping cylinder and can drive the clamping plate to move towards the direction close to or away from the feeding clamping block, and one end of the clamping cylinder can drive the clamping plate to stretch into the workpiece placing groove.

As a further improvement of the application, a feed opening is formed in the machine table and arranged under the feeding clamping block, a receiving guide plate is arranged on the feed opening and connected with the machine table.

Compared with the prior art, the beneficial effects of this application are:

according to the chamfering device, the first chamfering mechanism and the second chamfering mechanism are arranged on the left side and the right side of the clamping mechanism respectively, and can chamfer two ends of a cylindrical workpiece respectively, so that chamfering of the two ends of the cylindrical workpiece can be finished by one-time clamping, the machining efficiency is improved, the situation that one end of the workpiece is chamfered repeatedly, and the other end of the workpiece is not chamfered is avoided, and the yield is improved; specifically, the feeding mechanism is controlled to work through the controller, and the cylindrical workpiece to be machined is conveyed to the clamping mechanism; then controlling the clamping mechanism to work, clamping the outer side wall of the cylindrical workpiece, and limiting and fixing the cylindrical workpiece on the clamping mechanism; and then the first chamfering mechanism and the second chamfering mechanism are controlled to work, and the two chamfering mechanisms are used for chamfering the two ends of the cylindrical workpiece respectively, so that the purpose of chamfering the two ends of the cylindrical workpiece simultaneously is realized.

Drawings

In order to illustrate the present application or prior art more clearly, a brief description of the drawings needed for the description of the embodiments or prior art will be given below, it being clear that the drawings in the following description are some embodiments of the present application and that other drawings can be derived from them by a person skilled in the art without inventive effort.

FIG. 1 is a schematic view of a cylindrical workpiece machined by an embodiment of the present application;

FIG. 2 is a schematic diagram of the overall structure of the embodiment of the present application;

FIG. 3 is a schematic structural diagram of a feeding mechanism in the embodiment of the present application;

FIG. 4 is a schematic structural view of a first clamping assembly in an embodiment of the present application;

FIG. 5 is a schematic structural diagram of a first chamfering mechanism in an embodiment of the present application;

fig. 6 is a schematic view of another perspective structure of the first chamfering mechanism in the embodiment of the present application.

Detailed Description

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs; the terminology used herein in the description is for the purpose of describing particular embodiments only and is not intended to be limiting of the application; the terms "including" and "having," and any variations thereof, in the description and claims of this application and the description of the above figures are intended to cover non-exclusive inclusions. The terms "first," "second," and the like in the description and claims of this application or in the above-described drawings are used for distinguishing between different objects and not for describing a particular order.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings.

As shown in fig. 2-6, a cylindrical workpiece both ends chamfering machine comprises a controller and a machine table 1, wherein a feeding mechanism 2 and a clamping mechanism 3 which are electrically connected with the controller respectively are arranged on the machine table 1, the feeding mechanism 2 is used for conveying cylindrical workpieces to the clamping mechanism 3, the clamping mechanism 3 is used for clamping the outer side wall of each cylindrical workpiece, a first chamfering mechanism 4 and a second chamfering mechanism 5 are symmetrically arranged on the left side and the right side of the clamping mechanism 3, the first chamfering mechanism 4 and the second chamfering mechanism 5 are connected with the controller respectively, and the first chamfering mechanism 4 and the second chamfering mechanism 5 can chamfer both ends of the cylindrical workpieces on the clamping mechanism 3 respectively.

When the chamfering machine at the two ends of the cylindrical workpiece works, the feeding mechanism 2 is controlled to work through the controller, and the cylindrical workpiece to be machined is conveyed to the clamping mechanism 3; then, controlling the clamping mechanism 3 to work, clamping the outer side wall of the cylindrical workpiece, and limiting and fixing the cylindrical workpiece on the clamping mechanism 3; and then the first chamfering mechanism 4 and the second chamfering mechanism 5 are controlled to work, and the two chamfering mechanisms are used for chamfering the two ends of the cylindrical workpiece respectively, so that the purpose of chamfering the two ends of the cylindrical workpiece simultaneously is realized. This cylindrical workpiece both ends beveler can realize that a clamping can accomplish the both ends chamfer to cylindrical workpiece, has promoted machining efficiency, has also avoided work piece one end to relapse the chamfer, and the condition emergence that the other end did not chamfer has improved the yields.

Feeding mechanism 6 is installed to one side of board 1, and feeding mechanism 6 links to each other with the controller, and feeding mechanism 6's output links to each other with feed mechanism 2, and feed mechanism 6 is used for carrying the work piece of treating processing on feed mechanism 2 in an orderly manner. During operation, the operator pours the workpiece to be machined to the feeding mechanism 6, the controller controls the feeding mechanism 6 to work, the workpiece to be machined is sequenced and conveyed to the feeding mechanism 2, the clamping mechanism 3 is conveyed through the feeding mechanism 2, then chamfering machining is carried out on the two ends of the workpiece through the first chamfering mechanism 4 and the second chamfering mechanism 5 respectively, and the clamping mechanism 3 releases the machined workpiece after the chamfering machining is finished.

The feeding mechanism 6 comprises a vibration disc 61 and a feeding track 62, the vibration disc 61 is connected with the controller, the vibration disc 61 is placed on one side of the machine table 1 through a rack 63, a discharging hole 64 is formed in the vibration disc 61, one end of the feeding track 62 is fixedly connected with the discharging hole 64, and the other end of the feeding track 62 is connected with the feeding mechanism 2. During operation, in the work, operating personnel will wait that the work piece of processing pours into vibration dish 61, the work of controller control vibration dish 61, and discharge gate 64 is carried in order with the work piece to vibration dish 61, later flows into pay-off track 62 through discharge gate 64 in, and feed mechanism 2 is carried on to rethread pay-off track 62, the completion is to feed mechanism 2 in order.

As shown in fig. 2 and 3, the feeding mechanism 2 includes a support frame 21, a feeding cylinder 22 and a feeding guide rail 23 are fixedly mounted on the support frame 21, the length direction of the feeding guide rail 23 is parallel to the movement direction of the feeding cylinder 22, the feeding cylinder 22 is connected with a controller, a feeding slider 24 is slidably disposed on the feeding guide rail 23, the output end of the feeding cylinder 22 is connected with the feeding slider 24, the feeding cylinder 22 can drive the feeding slider 24 to move up and down, a feeding clamp 25 is disposed on the feeding slider 24, a workpiece accommodating slot 26 is disposed at one end of the feeding clamp 25 away from the feeding cylinder 22, and one end of the feeding rail 62 away from the vibrating disk 61 is connected with the workpiece accommodating slot 26; the feeding slider 24 is provided with a clamping cylinder 27, the clamping cylinder 27 is connected with the controller, the output end of the clamping cylinder 27 is provided with a clamping plate 28, the clamping cylinder 27 can drive the clamping plate 28 to move towards the direction close to or away from the feeding clamping block 25, and the clamping cylinder 27 can drive one end of the clamping plate 28 to extend into the workpiece placing groove 26. During work, the vibration disc 61 conveys a workpiece to be processed into the workpiece arranging groove 26 through the feeding track 62, then the controller controls the material clamping cylinder 27 to work, and the material clamping cylinder 27 drives the material clamping plate 28 to move towards the direction close to the feeding clamping block 25 until the material clamping plate 28 clamps the workpiece in the workpiece arranging groove 26; at this time, the workpiece is retained in the workpiece accommodating groove 26, and both ends thereof are respectively abutted against the material clamping plate 28 and the feeding block clamp 25. Then, the controller controls the feeding cylinder 22 to work, the feeding cylinder 22 drives the feeding slide block 24 to move downwards on the feeding guide rail 23, the feeding slide block 24 drives the feeding clamping block 25, the clamping cylinder 27 and the clamping plate 28 to synchronously move downwards, and a workpiece to be processed synchronously descends along with the feeding clamping block 25 and the clamping plate 28 in the workpiece accommodating groove 26 until the workpiece descends to a position corresponding to the clamping mechanism 3; then, controlling the clamping mechanism 3 to work, and clamping the outer side wall of the workpiece by the clamping mechanism 3; then, the material clamping cylinder 27 drives the material clamping plate 28 to move in the direction away from the material loading clamping block 25, so that the material clamping plate 28 releases the clamping of the workpiece; and then the feeding cylinder 22 moves in a resetting way to drive the feeding slide block 24 to move upwards on the feeding guide rail 23, and the feeding slide block 24 drives the clamping cylinder 27, the clamping plate 28 and the feeding clamping block 25 to move upwards synchronously until the workpiece accommodating groove 26 is connected with one end of the feeding rail 62 far away from the vibrating disc 61, so that the workpiece feeding process of one round is completed.

As shown in fig. 2 and 4, the clamping mechanism 3 includes a first clamping assembly 7 and a second clamping assembly 8, the first clamping assembly 7 includes a clamping fixing seat 71 and a clamping cylinder 72, the clamping cylinder 72 is connected to the controller, the clamping cylinder 72 is connected to the clamping fixing seat 71, the clamping fixing seat 71 is fixedly connected to the machine platform 1, an output end of the clamping cylinder 72 is provided with a second slider 73, the clamping fixing seat 71 is provided with a limit guide rail 74, the second slider 73 is slidably clamped to the limit guide rail 74, the second slider 73 is provided with a clamping block 75, an end portion of the clamping block 75 far away from the second slider 73 is provided with a semicircular clamping groove 76, and the semicircular clamping groove 76 is matched with an outer side wall of the cylindrical workpiece. The second clamping component 8 is the same as the first clamping component 7 in structure, and the first clamping component 7 and the second clamping component 8 are arranged on the machine table 1 in a mirror image mode. When the workpiece clamping device works, after the feeding mechanism 2 conveys workpieces to corresponding positions of the clamping mechanism 3, the controller controls the two clamping cylinders 72 to synchronously move, the two clamping cylinders 72 respectively drive the corresponding second sliding blocks 73 to slide on the limiting guide rails 74, the second sliding blocks 73 drive the two clamping blocks 75 to move oppositely until the semicircular clamping grooves 76 on the two clamping blocks 75 are respectively clamped with the workpieces to be machined in the workpiece accommodating grooves 26, and the two semicircular clamping grooves 76 form a complete circle to clamp the workpieces; then controlling the first chamfering mechanism 4 and the second chamfering mechanism 5 to chamfer two ends of the workpiece; after chamfering is finished, the controller controls the two clamping cylinders 72 to reset synchronously, the two clamping cylinders 72 drive the corresponding second sliding blocks 73 to slide on the limiting guide rails 74 respectively, the second sliding blocks 73 drive the two clamping blocks 75 to move in the directions away from each other, so that the semicircular clamping troughs 76 on the clamping blocks 75 release machined workpieces, and the machined workpieces fall off from the clamping blocks 75.

The machine table 1 is provided with a feed opening 11, the feed opening 11 is arranged under the feeding clamping block 25, a material receiving guide plate 12 is arranged on the feed opening 11, and the material receiving guide plate 12 is connected with the machine table 1. During operation, place the receipts workbin in the below of receiving the baffle 12, after the work piece that has processed drops from clamp splice 75, can drop to the receipts of feed opening 11 on the baffle 12, later drop and collect in the receipts workbin. Through setting up feed opening 11 and receipts material baffle 12, can guide the work piece trend of processing, be convenient for collect the work piece of processing.

As shown in fig. 2, 5, and 6, the first chamfering mechanism 4 includes a driving motor 41 and a lead screw module 42, the driving motor 41 is electrically connected to the controller, the lead screw module 42 is fixedly mounted on the machine platform 1 of the mounting base, and a moving direction of the lead screw module 42 is perpendicular to a moving direction of the clamping cylinder 72, the driving motor 41 is fixedly mounted on the lead screw module 42, an output end of the driving motor 41 is connected to the lead screw module 42, a first slider 43 is slidably disposed on the lead screw module 42, the driving motor 41 can drive the first slider 43 to slide on the lead screw module 42, an adjusting mechanism 9 is disposed on the first slider 43, an electric spindle 44 is disposed on the adjusting mechanism 9, the electric spindle 44 is connected to the controller, the adjusting mechanism 9 is used for adjusting a position of the electric spindle 44 on the first slider 43, including adjusting a mounting height and a horizontal position of the electric spindle 44, and a chamfering tool 45 is mounted on an output end of the electric spindle 44; the chamfering tool 45 is detachably connected with the electric spindle 44, and a user can replace different chamfering tools 45 according to different processed workpieces, wherein the chamfering tools include a tool for chamfering the inner circle of the workpiece and a tool for chamfering the outer edge of the workpiece.

Before working, the position of the electric spindle 44 is adjusted through the adjusting mechanism 9 to ensure that the chamfering tool 45 can be aligned with a workpiece to be processed on the clamping mechanism 3; during operation, when the workpiece is placed on the clamping mechanism 3 by the feeding mechanism 2, and the outer side wall of the cylindrical workpiece is clamped by the clamping mechanism 3, the controller controls the electric spindle 44 and the driving motor 41 to work, the electric spindle 44 works to drive the chamfering tool 45 to rotate, the driving motor 41 works to drive the first slider 43 to drive the adjusting mechanism 9 and the electric spindle 44 to slide on the screw rod module 42 in a direction close to the clamping mechanism 3, so that the chamfering tool 45 is in contact with the workpiece on the clamping mechanism 3, and chamfering processing is performed on the workpiece. After chamfering is finished, the driving motor 41 drives the first sliding block 43 to drive the adjusting mechanism 9 and the electric spindle 44 to slide on the screw rod module 42 in the direction away from the clamping mechanism 3, so that the chamfering tool 45 leaves a workpiece, the clamping mechanism 3 releases the machined workpiece, and one-time chamfering machining is finished.

In this embodiment, the second chamfering mechanism 5 has the same structure as the first chamfering mechanism 4; during operation, the controller controls the first chamfering mechanism 4 and the second chamfering mechanism 5 to operate simultaneously, but the moving directions of the two first sliding blocks 43 are opposite; specifically, when chamfering processing is performed, the two first sliding blocks 43 move oppositely, so that the two chamfering tools 45 are in contact with two ends of a workpiece on the clamping mechanism 3, chamfering processing is performed on two ends of the workpiece simultaneously, and the processing efficiency is improved; in other embodiments, the second chamfering mechanism 5 and the first chamfering mechanism 4 may have different structures, and only two chamfering mechanisms are required to chamfer two ends of the workpiece synchronously.

As shown in fig. 5 and 6, the adjusting mechanism 9 includes an X-axis slider 91 and a Z-axis slider 92, the motorized spindle 44 is fixedly connected to the Z-axis slider 92, the first slider 43 is provided with an X-axis guide rail 93, the X-axis slider 91 is sleeved on the X-axis guide rail 93 and slidably connected to the X-axis guide rail 93 in a limiting manner, and the horizontal position of the motorized spindle 44 can be adjusted by matching the X-axis guide rail 93 and the X-axis slider 91, so as to adapt to different processing scenes; the X-axis slide block 91 is provided with a Z-axis guide rail 94, the Z-axis slide block 92 is sleeved on the Z-axis guide rail 94 and is in slidable limit connection with the Z-axis guide rail 94, and the horizontal height of the electric main shaft 44 can be adjusted through the matching of the Z-axis guide rail 94 and the Z-axis slide block 92, so that different processing scenes can be met. Specifically, a first limit screw 95 is arranged on the X-axis sliding block 91, the end of the first limit screw 95 can be abutted to the X-axis guide rail 93, after the first limit screw 95 is loosened, the X-axis sliding block 91 can slide on the X-axis guide rail 93 so as to drive the motorized spindle 44 to move horizontally, and after the motorized spindle 44 is adjusted to a proper position, the first limit screw 95 is screwed down so that the end of the first limit screw 95 is abutted to the X-axis guide rail 93, and the X-axis sliding block 91 is connected and fixed with the X-axis guide rail 93 in a limiting manner; be equipped with second stop screw 96 on the Z axle slider 92, the tip of second stop screw 96 can with Z axle guide rail 94 butt, loosen second stop screw 96 back, Z axle slider 92 can slide on Z axle guide rail 94, thereby drive electricity main shaft 44 elevating movement, adjust to suitable position when electricity main shaft 44 after, screw up second stop screw 96, make the tip and the Z axle guide rail 94 butt of second stop screw 96, make Z axle slider 92 and Z axle guide rail 94 spacing connection fixed.

In other embodiments, the adjustment mechanism 9 may be replaced by other structures or devices capable of adjusting the lifting motion and the horizontal movement in the prior art.

The working principle is as follows:

firstly, a user pours a workpiece to be processed onto the vibration disc 61, controls the vibration disc 61 to work so as to convey the workpiece to the discharge port 64 in order, then the workpiece flows into the feeding rail 62 through the discharge port 64, and then the workpiece is conveyed into the workpiece accommodating groove 26 of the feeding clamping block 25 through the feeding rail 62; when a workpiece is in the workpiece accommodating groove 26, the material clamping cylinder 27 is controlled to drive the material clamping plate 28 to move towards the direction close to the feeding clamping block 25 until the material clamping plate 28 clamps the workpiece in the workpiece accommodating groove 26; then the feeding cylinder 22 is controlled to work, the feeding cylinder 22 drives the feeding sliding block 24 to move downwards on the feeding guide rail 23, the feeding sliding block 24 drives the feeding clamping block 25, the clamping cylinder 27 and the clamping plate 28 to synchronously move downwards, and a workpiece to be processed synchronously descends along with the feeding clamping block 25 and the clamping plate 28 in the workpiece accommodating groove 26 until the workpiece descends to a position corresponding to the clamping mechanism 3; controlling the two clamping cylinders 72 to move synchronously, driving the corresponding second sliding blocks 73 to slide on the limiting guide rails 74 respectively by the two clamping cylinders 72, driving the two clamping blocks 75 to move oppositely by the second sliding blocks 73 until the semicircular clamping grooves 76 on the two clamping blocks 75 are clamped with the workpiece to be machined in the workpiece arranging groove 26 respectively, forming a complete circle by the two semicircular clamping grooves 76, clamping the workpiece, and finishing clamping the workpiece; then, the two electric spindles 44 and the two driving motors 41 are controlled to work simultaneously, the electric spindles 44 work to drive the chamfering tool 45 to rotate, the driving motors 41 work to drive the first sliding blocks 43 to drive the adjusting mechanisms 9 and the electric spindles 44 to slide on the screw rod modules 42 in the direction close to the clamping mechanism 3, so that the chamfering tool 45 is in contact with the workpiece on the clamping blocks 75, and chamfering processing on two ends of the workpiece is completed simultaneously.

It is to be understood that the above-described embodiments are merely illustrative of some, but not restrictive, of the broad invention, and that the appended drawings illustrate preferred embodiments of the invention and do not limit the scope of the invention. This application is capable of embodiments in many different forms and is provided for the purpose of providing a more thorough understanding of the present disclosure. Although the present application has been described in detail with reference to the foregoing embodiments, it will be apparent to one skilled in the art that the present application may be practiced without modification or with equivalents of some of the features described in the foregoing embodiments. All equivalent structures made by using the contents of the specification and the drawings of the present application are directly or indirectly applied to other related technical fields and are within the protection scope of the present application.

Claims (10)

1. The utility model provides a cylindrical work piece both ends beveler which characterized in that: including controller and board, be equipped with feed mechanism and fixture that link to each other with the controller respectively on the board, feed mechanism is used for transporting cylindrical workpiece on the fixture, fixture is used for the lateral wall of centre gripping cylindrical workpiece, fixture's the left and right sides symmetry is equipped with first chamfer mechanism and second chamfer mechanism, first chamfer mechanism and second chamfer mechanism link to each other with the controller respectively, first chamfer mechanism and second chamfer mechanism can be right respectively the chamfer processing is carried out at the both ends of cylindrical workpiece on the fixture.

2. The cylindrical workpiece both-end chamfering machine according to claim 1, wherein: the structure of first chamfering mechanism and second chamfering mechanism is the same, first chamfering mechanism includes driving motor and lead screw module, driving motor links to each other with the controller, driving motor's output and lead screw module are connected, it is equipped with first slider to slide on the lead screw module, driving motor can drive first slider slides on the lead screw module, be equipped with adjustment mechanism on the first slider, the last electric main shaft that is equipped with of adjustment mechanism, adjustment mechanism is used for adjusting the electric main shaft is in position on the first slider, the output of electric main shaft is equipped with the chamfer cutter.

3. The cylindrical workpiece both-end chamfering machine according to claim 2, wherein: the adjusting mechanism comprises an X-axis sliding block and a Z-axis sliding block, the electric spindle is connected with the Z-axis sliding block, an X-axis guide rail is arranged on the first sliding block, the X-axis sliding block is connected with the X-axis guide rail in a sliding limiting mode, a Z-axis guide rail is arranged on the X-axis sliding block, and the Z-axis sliding block is connected with the Z-axis guide rail in a sliding limiting mode.

4. The cylindrical workpiece both-end chamfering machine according to claim 1, wherein: the clamping mechanism comprises a first clamping component and a second clamping component, the first clamping component and the second clamping component are identical in structure, and the first clamping component and the second clamping component are arranged on the machine table in a mirror image mode.

5. The cylindrical workpiece both-end chamfering machine according to claim 4, wherein: the first clamping assembly comprises a clamping fixing seat and a clamping cylinder, the clamping cylinder is connected with the controller, the clamping cylinder is connected with the clamping fixing seat, the clamping fixing seat is connected with the machine table, a second sliding block is arranged on the output end of the clamping cylinder, a clamping block is arranged on the second sliding block, one end of the clamping block, far away from the second sliding block, is provided with a semicircular clamping groove, and the semicircular clamping groove is matched with the outer side wall of the cylindrical workpiece.

6. The cylindrical workpiece both-end chamfering machine according to claim 5, wherein: and the clamping fixing seat is provided with a limiting guide rail, and the second sliding block is in sliding clamping connection with the limiting guide rail.

7. The cylindrical workpiece both-end chamfering machine according to any one of claims 1 to 6, wherein: one side of the machine platform is provided with a feeding mechanism, the feeding mechanism is connected with the controller, and the output end of the feeding mechanism is connected with the feeding mechanism and used for conveying workpieces to be processed to the feeding mechanism in order.

8. The cylindrical workpiece both-end chamfering machine according to claim 7, wherein: the feeding mechanism comprises a vibration disc and a feeding track, the vibration disc is connected with the controller, one end of the feeding track is connected with the vibration disc, and the other end of the feeding track is connected with the feeding mechanism.

9. The cylindrical workpiece both-end chamfering machine according to claim 7, wherein: the feeding mechanism comprises a support frame, a feeding cylinder and a feeding guide rail are arranged on the support frame, the feeding cylinder is connected with the controller, a feeding sliding block is arranged on the feeding guide rail in a sliding mode, the output end of the feeding cylinder is connected with the feeding sliding block, the feeding cylinder can drive the feeding sliding block to move up and down, a feeding clamping block is arranged on the feeding sliding block, and a workpiece placing groove is formed in one end, far away from the feeding cylinder, of the feeding clamping block;

the feeding device is characterized in that a clamping cylinder is arranged on the feeding sliding block and connected with the controller, a clamping plate is arranged at the output end of the clamping cylinder and can drive the clamping plate to move towards the direction close to or away from the feeding clamping block, and one end of the clamping cylinder can drive the clamping plate to stretch into the workpiece placing groove.

10. The cylindrical workpiece both-end chamfering machine according to claim 9, wherein: the feeding device is characterized in that a blanking port is formed in the machine table and is arranged right below the feeding clamping block, a material receiving guide plate is arranged on the blanking port and is connected with the machine table.

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