CN216541865U - Double-end chamfer ream is beaten mark multifunctional machine - Google Patents

Abstract

The utility model discloses a double-head chamfering counter sinking marking machine, which comprises: a chassis, comprising: the processing chamber is formed in the box body, the box door is arranged on the box body, and the box door is used for opening and closing the processing chamber; the clamp is used for clamping a workpiece to be machined; the horizontal driving mechanism is arranged in the processing cavity, the output end of the horizontal driving mechanism is connected to the clamp, and the horizontal driving mechanism is used for driving the clamp to move; the chamfering and spot facing mechanism is arranged beside the horizontal driving mechanism and is used for chamfering and spot facing a workpiece to be processed; and the marking mechanism is arranged beside the horizontal driving mechanism and is used for marking the workpiece to be processed. The multifunctional double-head chamfering and countersinking marking machine solves the problem of low machining efficiency in the prior art.

Description

Double-end chamfer ream is beaten mark multifunctional machine

Technical Field

The utility model relates to multifunctional processing equipment, in particular to a double-head chamfering and counterboring marking multifunctional machine.

Background

In the prior art, chamfering and spot facing are performed on one device, and marking is performed on another device. The workpiece needs to be clamped secondarily, so that the working efficiency is reduced and the processing is inconvenient.

The workpiece to be processed includes: the cylinder body and protruding, the trompil has been seted up at cylinder body both ends, and trompil department need form chamfer and counter sinking, and cylinder body one end protrusion is formed with the arch, need form chamfer and counter sinking in the port department of trompil, and is up to standard in cylinder body middle part.

SUMMERY OF THE UTILITY MODEL

The utility model provides a double-head chamfering and counterboring marking multifunctional machine, which solves the problem of low processing efficiency in the prior art.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model discloses a double-head chamfer spot-facing marking multifunctional machine, which comprises: a chassis, comprising: the box door is arranged on the box body and used for opening and closing the processing cavity; the clamp is used for clamping a workpiece to be processed; the horizontal driving mechanism is arranged in the processing cavity, the output end of the horizontal driving mechanism is connected to the clamp, and the horizontal driving mechanism is used for driving the clamp to move; the chamfering and spot facing mechanism is arranged beside the horizontal driving mechanism and is used for chamfering and spot facing a workpiece to be processed; and the marking mechanism is arranged beside the horizontal driving mechanism and is used for marking the workpiece to be processed.

Preferably, the horizontal driving mechanism includes: electronic jar, slide rail and sliding seat, electronic jar and slide rail are installed on the processing chamber diapire, and electronic jar output is connected to the sliding seat, and mounting fixture, the removal of slide rail direction sliding seat on the sliding seat.

Preferably, the horizontal driving mechanism further comprises: first flexible cover, first drive assembly, flexible cover of second and second drive assembly, first flexible cover and the flexible cover of second are used for covering respectively in the both sides slide rail section top of sliding seat, the flexible direction of first flexible cover and the flexible cover of second is parallel with the slide rail, first flexible cover and the flexible cover of second are installed respectively in the sliding seat both sides, install first drive assembly and second drive assembly in the sliding seat, first drive assembly's output is connected to first flexible cover, first drive assembly is used for driving first flexible cover flexible, second drive assembly's output is connected to the flexible cover of second, second drive assembly is used for driving the flexible cover of second flexible cover flexible.

Preferably, a pushing mechanism is installed between the chamfering counterboring mechanism and the marking mechanism, the pushing mechanism is located beside the horizontal driving mechanism, and the pushing mechanism is used for driving the workpiece to be machined to be attached to one side, deviating from the pushing mechanism, of the fixture.

Preferably, the jig includes: the automatic clamping device comprises a first supporting seat, a second supporting seat, a pressing block, a pressing arm, an articulated arm and a clamping cylinder, wherein the first supporting seat and the second supporting seat are arranged on a sliding seat and are spaced from each other, the top surfaces of the first supporting seat and the second supporting seat are recessed to form supporting grooves, the two supporting grooves respectively support two ends of a workpiece to be machined, the first supporting seat is located on one side, close to a pushing mechanism, of the second supporting seat, the first supporting seat is tightly attached to a convex part of the workpiece to be machined, the second supporting seat deviates from one side of the first supporting seat and is provided with the pressing block, the pressing block is tightly attached to the end face of the workpiece to be machined, one end of the pressing arm is used for tightly pressing the workpiece to be machined in the supporting grooves, the other end of the pressing arm is hinged to a piston rod of the clamping cylinder, the clamping cylinder is arranged at the output end of a horizontal driving mechanism, the middle of the pressing arm is hinged to one end of the articulated arm, and the other end of the articulated arm is hinged to the sliding seat.

Preferably, the pushing mechanism includes: the supporting frame is installed beside the horizontal driving mechanism, the pushing cylinder is installed on the supporting frame, the stretching direction of the pushing cylinder is perpendicular to the driving direction of the horizontal driving mechanism, a piston rod of the pushing cylinder is fixed to the pushing head, and the pushing head is used for compressing a workpiece to be processed on the compressing block.

Preferably, the chamfer spot facing mechanism includes: remove drive assembly, remove the seat, the rotation driving assembly, the rotating head, chamfer countersink sword and rotating vane, it installs by horizontal drive mechanism to remove drive assembly, the output that removes drive assembly is connected to and removes the seat, it is used for the drive to remove the seat and moves in the direction perpendicular with horizontal drive mechanism to remove drive assembly, install the rotation driving assembly on the removal seat, the output of rotation driving assembly is connected to the rotating head, the rotating head center is extended towards horizontal drive mechanism's center and is extended and has been submitted chamfer countersink sword, chamfer countersink sword is used for treating the trompil department of processing work piece and carries out chamfer and countersink, rotating vane after chamfer countersink sword outer ring, rotating vane is fixed with the rotating head.

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

1) by arranging the case, the whole working area is covered, the outflow of harmful gas generated by marking is avoided, iron chips and the like are prevented from being splashed randomly, and the cleanness of the working environment is ensured;

2) through setting up horizontal drive mechanism, realized that the anchor clamps that the driving band remains to process the work piece make a round trip to move back and forth between chamfer counterboring mechanism and marking mechanism to realized that an anchor clamps once only presss from both sides tightly after waiting to process the work piece, can realize chamfer, counterboring and beat three works of mark, avoid need switch over processing and lead to pressing from both sides tightly many times and wait to process the work piece, improve machining efficiency, improve market competition.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model.

Drawings

FIG. 1 is a schematic structural view of a double-head chamfering spot-facing marking multifunctional machine;

FIG. 2 is a schematic structural view of a double-head chamfering and spot-facing marking machine after a case is opened;

FIG. 3 is an enlarged view at the clamp;

FIG. 4 is an enlarged view at the pushing mechanism;

FIG. 5 is a schematic structural view of a chamfering and spot facing mechanism.

Reference numerals: the machine box 1, the box body 11, the box door 12, the clamp 2, the first supporting seat 21, the second supporting seat 22, the pressing block 23, the pressing arm 24, the hinge arm 25, the clamping cylinder 26, the blocking block 27, the supporting block 28, the horizontal driving mechanism 3, the electric cylinder 31, the sliding rail 32, the sliding seat 33, the first telescopic cover 34, the second telescopic cover 35, the chamfering counterboring mechanism 4, the moving driving component 41, the moving seat 42, the rotating driving component 43, the rotating head 44, the chamfering counterboring cutter 45, the rotating blade 46, the marking mechanism 5, the pushing mechanism 6, the supporting frame 61, the pushing cylinder 62, the pushing head 63 and the workpiece 7.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the functions of the utility model clearer and easier to understand, the utility model is further explained by combining the drawings and the detailed implementation mode:

as shown in fig. 1 to 5, the utility model discloses a double-head chamfer spot-facing marking multifunctional machine, which comprises: a chassis 1, comprising: the machining device comprises a box body 11 and a box door 12, wherein a machining cavity is formed in the box body 11, the box door 12 is installed on the box body 11, and the box door 12 is used for opening and closing the machining cavity; the clamp 2 is used for clamping a workpiece to be processed; the horizontal driving mechanism 3 is arranged in the processing cavity, the output end of the horizontal driving mechanism 3 is connected to the clamp 2, and the horizontal driving mechanism 3 is used for driving the clamp 2 to move; the chamfering and spot facing mechanism 4 is arranged beside the horizontal driving mechanism 3, and the chamfering and spot facing mechanism 4 is used for chamfering and spot facing a workpiece to be processed; and the marking mechanism 5 is arranged beside the horizontal driving mechanism 3 and is used for marking the workpiece to be processed.

The horizontal driving mechanism 3 includes: the electric cylinder 31, the sliding rail 32 and the sliding seat 33 are installed on the bottom wall of the processing cavity, the output end of the electric cylinder 31 is connected to the sliding seat 33, the clamp 2 is installed on the sliding seat 33, and the sliding rail 32 guides the sliding seat 33 to move. The electric cylinder 31 drives the sliding seat 33 to move on the sliding rail 32, so that the driving clamp 2 moves back and forth between the chamfering and spot facing mechanism 4 and the marking mechanism 5.

The horizontal drive mechanism 3 further includes: first flexible cover 34, first drive assembly (not shown), second flexible cover 35 and second drive assembly (not shown), first flexible cover 34 and second flexible cover 35 are used for covering respectively in the both sides slide rail 32 section top of sliding seat 33, the flexible direction of first flexible cover 34 and second flexible cover 35 is parallel with slide rail 32, first flexible cover 34 and second flexible cover 35 are installed respectively in sliding seat 33 both sides, install first drive assembly and second drive assembly in sliding seat 33, the output of first drive assembly is connected to first flexible cover 34, first drive assembly is used for driving first flexible cover 34 flexible, the output of second drive assembly is connected to second flexible cover 35, the second drive assembly is used for driving second flexible cover 35 flexible. In the working process of the chamfering and spot facing mechanism 4, the hole of the workpiece to be processed is cut, so that impurities are cut, and the impurities enter the guide rail and influence the sliding of the sliding seat 33. In order to avoid the influence of impurity, consequently designed first expansion cover 34 and second expansion cover 35, first expansion cover 34 and second expansion cover 35 are along with extending together or shortening to guarantee first expansion cover 34 and second expansion cover 35 when not hindering sliding seat 33 and slide, guarantee to cover the slide rail 32 of whole exposure, avoid impurity to enter into the guide rail, guarantee that sliding seat 33's slip is smooth and easy.

Install pushing mechanism 6 between chamfer counter sinking mechanism 4 and marking mechanism 5, pushing mechanism 6 is located horizontal drive mechanism 3 by, and pushing mechanism 6 is used for the drive to wait to process the work piece and deviates from pushing mechanism 6 one side with anchor clamps 2 and hugs closely. Because when the robot snatchs and treats processing work piece to anchor clamps 2 on, do not treat processing work piece and fix a position with guide rail vertically orientation, pushing mechanism 6 and anchor clamps 2 join in marriage and realized treating processing work piece and fix a position from the direction with the guide rail vertically to guarantee the accuracy nature of location, improve machining efficiency.

The jig 2 includes: a first supporting seat 21, a second supporting seat 22, a pressing block 23, a pressing arm 24, an articulated arm 25 and a clamping cylinder 26, wherein the sliding seat 33 is provided with the first supporting seat 21 and the second supporting seat 22 which are mutually spaced, the top surfaces of the first supporting seat 21 and the second supporting seat 22 are both sunken to form supporting grooves, the two supporting grooves respectively support two ends of a workpiece to be processed, the first supporting seat 21 is positioned at one side of the second supporting seat 22 close to the pushing mechanism 6, the first supporting seat 21 is clung to a convex part of the workpiece to be processed, the side of the second supporting seat 22, which is far away from the first supporting seat 21, is provided with the pressing block 23, the pressing block 23 is clung to the end surface of the workpiece to be processed, one end of the pressing arm 24 is used for pressing the workpiece to be processed in the supporting grooves, the other end of the pressing arm 24 is articulated to a piston rod of the clamping cylinder 26, the clamping cylinder 26 is arranged at the output end of the horizontal driving mechanism 3, the middle part of the pressing arm 24 is articulated to one end of the articulated arm 25, the other end of the hinge arm 25 is hinged to the sliding seat 33. Through setting up the first supporting seat 21 and the second supporting seat 22 of mutual interval, realized waiting to process the work piece and supported, and first supporting seat 21 and second supporting seat 22 can not influence the work such as beating of waiting to process the work piece, guarantee the orderly the going on of processing work. Through the arrangement of the pressing block 23 and the pushing mechanism 6, the workpiece to be processed is positioned in the direction perpendicular to the guide rail. The clamping cylinder 26 extends, the pressing arm 24 rotates, and the pressing arm 24 presses the workpiece to be processed in the supporting groove, so that the workpiece to be processed is positioned in the vertical direction.

The pushing mechanism 6 includes: support frame 61, push cylinder 62 and promote head 63, support frame 61 is installed by horizontal drive mechanism 3, installs push cylinder 62 on the support frame 61, and push cylinder 62's flexible direction is perpendicular with horizontal drive mechanism 3's drive direction, and push cylinder 62's piston rod is fixed to promoting head 63, and it is used for compressing tightly on compact heap 23 with treating the processing work piece to promote head 63. The supporting frame 61 supports the pushing cylinder 62, the pushing cylinder 62 drives the pushing head 63 to move, the pushing head 63 compresses a workpiece to be processed on the blocking block 27, and the blocking block 27 is installed on the first supporting seat 21 to realize positioning and clamping from the direction perpendicular to the guide rail.

In order to adjust the supporting heights of the first supporting seat 21 and the second supporting seat 22 conveniently, a supporting block 28 is inserted into each of the first supporting seat 21 and the second supporting seat 22, the supporting block 28 is horizontally placed and inserted into the first supporting seat 21 or the second supporting seat 22, slots for inserting the supporting block 28 are formed in each of the first supporting seat 21 and the second supporting seat 22, the top surface of the supporting block 28 is exposed out of the first supporting seat 21 or the second supporting seat 22, the position of the workpiece 7 can be adjusted by adjusting the top surface of the supporting block 28, and the axial lead of the workpiece 7 is located in the horizontal direction.

The chamfer countersink mechanism 4 includes: the movable driving assembly 41, the movable seat 42, the rotary driving assembly 43, the rotating head 44, the chamfering and spot-facing cutter 45 and the rotating blade 46, the movable driving assembly 41 is installed beside the horizontal driving mechanism 3, the output end of the movable driving assembly 41 is connected to the movable seat 42, the movable driving assembly 41 is used for driving the movable seat 42 to move in the direction perpendicular to the horizontal driving mechanism 3, the rotary driving assembly 43 is installed on the movable seat 42, the output end of the rotary driving assembly 43 is connected to the rotating head 44, the chamfering and spot-facing cutter 45 extends towards the center of the horizontal driving mechanism 3 from the center of the rotating head 44, the chamfering and spot-facing cutter 45 is used for chamfering and spot-facing the opening of the workpiece to be machined, the rear rotating blade 46 surrounds the chamfering and spot-facing cutter 45, and the rotating blade 46 is fixed with the rotating head 44. The chamfering counterboring tool 45 is used for chamfering and counterboring the opening of the workpiece to be machined, the moving driving assembly 41 pushes the chamfering counterboring tool 45 to move towards the workpiece to be machined, and the rotating driving assembly 43 drives the rotating head 44 to drive the chamfering counterboring tool 45 to rotate, so that the chamfering counterboring tool 45 in rotation is pushed forward, and chamfering and counterboring are achieved. The rotary blade 46 rotates together with the chamfering counterboring cutter 45, and the rotary blade 46 has a flow guiding effect on impurities formed by cutting, so that the impurities are rotationally thrown out to the chamfering counterboring cutter 45, the impurities are prevented from being adhered to the chamfering counterboring cutter 45, and normal cutting of the chamfering counterboring cutter 45 can be guaranteed.

Anchor clamps 2 can be with treating the processing work piece, carry three position, a position is beaten the mark position, a position is chamfer ream hole position, another position is 2 clamping position of anchor clamps, 2 clamping position of anchor clamps are located and beat between mark position and the angle ream hole position, realized marking position and chamfer ream hole position between the location clamp tightly, convenient follow-up transport is beaten mark position and chamfer ream hole position, avoid marking mechanism 5 and chamfer ream hole mechanism 4 to block the operation of pushing mechanism 6.

Finally, the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, and all of them should be covered in the claims of the present invention.

Claims (7)

1. The utility model provides a multi-functional machine of mark is beaten to double-end chamfer counterbore, its characterized in that includes:

a chassis, comprising: the box door is arranged on the box body and used for opening and closing the processing cavity;

the clamp is used for clamping a workpiece to be processed;

the horizontal driving mechanism is arranged in the processing cavity, the output end of the horizontal driving mechanism is connected to the clamp, and the horizontal driving mechanism is used for driving the clamp to move;

the chamfering and spot facing mechanism is arranged beside the horizontal driving mechanism and is used for chamfering and spot facing a workpiece to be processed; and

and the marking mechanism is arranged beside the horizontal driving mechanism and is used for marking the workpiece to be processed.

2. The multifunctional double-head chamfering and counterboring machine according to claim 1, wherein the horizontal driving mechanism comprises: electronic jar, slide rail and sliding seat, electronic jar and slide rail are installed on the processing chamber diapire, and electronic jar output is connected to the sliding seat, and mounting fixture, the removal of slide rail direction sliding seat on the sliding seat.

3. The multifunctional double-head chamfering and counterboring machine according to claim 2, wherein the horizontal driving mechanism further comprises: first flexible cover, first drive assembly, flexible cover of second and second drive assembly, first flexible cover and the flexible cover of second are used for covering respectively in the both sides slide rail section top of sliding seat, the flexible direction of first flexible cover and the flexible cover of second is parallel with the slide rail, first flexible cover and the flexible cover of second are installed respectively in the sliding seat both sides, install first drive assembly and second drive assembly in the sliding seat, first drive assembly's output is connected to first flexible cover, first drive assembly is used for driving first flexible cover flexible, second drive assembly's output is connected to the flexible cover of second, second drive assembly is used for driving the flexible cover of second flexible cover flexible.

4. The multifunctional double-head chamfering and counterboring machine according to any one of claims 1 to 3, wherein a pushing mechanism is installed between the chamfering and counterboring mechanism and the marking mechanism, the pushing mechanism is located beside the horizontal driving mechanism, and the pushing mechanism is used for driving a workpiece to be machined to be tightly attached to one side, away from the pushing mechanism, of the fixture.

5. The multifunctional double-head chamfering and counterboring machine according to claim 4, wherein the clamp comprises: the automatic clamping device comprises a first supporting seat, a second supporting seat, a pressing block, a pressing arm, an articulated arm and a clamping cylinder, wherein the first supporting seat and the second supporting seat are arranged on a sliding seat and are spaced from each other, the top surfaces of the first supporting seat and the second supporting seat are recessed to form supporting grooves, the two supporting grooves respectively support two ends of a workpiece to be machined, the first supporting seat is located on one side, close to a pushing mechanism, of the second supporting seat, the first supporting seat is tightly attached to a convex part of the workpiece to be machined, the second supporting seat deviates from one side of the first supporting seat and is provided with the pressing block, the pressing block is tightly attached to the end face of the workpiece to be machined, one end of the pressing arm is used for tightly pressing the workpiece to be machined in the supporting grooves, the other end of the pressing arm is hinged to a piston rod of the clamping cylinder, the clamping cylinder is arranged at the output end of a horizontal driving mechanism, the middle of the pressing arm is hinged to one end of the articulated arm, and the other end of the articulated arm is hinged to the sliding seat.

6. The multifunctional double-head chamfering and counterboring machine according to claim 5, wherein the pushing mechanism comprises: the supporting frame is installed beside the horizontal driving mechanism, the pushing cylinder is installed on the supporting frame, the stretching direction of the pushing cylinder is perpendicular to the driving direction of the horizontal driving mechanism, a piston rod of the pushing cylinder is fixed to the pushing head, and the pushing head is used for compressing a workpiece to be processed on the compressing block.

7. The multi-functional double-end chamfering and counterboring machine according to any one of claims 1 to 3, wherein the chamfering mechanism comprises: remove drive assembly, remove the seat, the rotation driving assembly, the rotating head, chamfer countersink sword and rotating vane, it installs by horizontal drive mechanism to remove drive assembly, the output that removes drive assembly is connected to and removes the seat, it is used for the drive to remove the seat and moves in the direction perpendicular with horizontal drive mechanism to remove drive assembly, install the rotation driving assembly on the removal seat, the output of rotation driving assembly is connected to the rotating head, the rotating head center is extended towards horizontal drive mechanism's center and is extended and has been submitted chamfer countersink sword, chamfer countersink sword is used for treating the trompil department of processing work piece and carries out chamfer and countersink, rotating vane after chamfer countersink sword outer ring, rotating vane is fixed with the rotating head.

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