CN216613021U - Machining device and machining system using same - Google Patents

Abstract

The machining device provided by the utility model comprises a traction part, a material clamping part, a displacement mechanism and a cutter seat platform, wherein the traction part and the cutter seat platform are arranged on the displacement mechanism, the material clamping part is connected with the output end of a rotating motor, the traction part is provided with a hooking and pulling piece, the hooking and pulling piece is perpendicular to the material clamping part, and a material clamping hole with adjustable width is arranged in the material clamping part. Compared with the prior art, the processing system has a simpler structure to pull out materials, and reduces the damage rate of the materials in the process of pulling out the materials.

Description

Machining device and machining system using same

Technical Field

The utility model relates to the technical field of material processing, in particular to a processing device and a processing system using the same.

Background

The existing processing device generally clamps the materials to pull out the materials, and the materials can be guaranteed to be clamped out only by applying large pressure on two sides of the materials, so that the materials are easy to damage.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a processing device for overcoming the defects of the prior art.

The processing device comprises a traction part, a material clamping part and a processing part, wherein the traction part and the processing part are connected with a displacement mechanism, and the traction end of the traction part is arranged corresponding to one side of the discharge end of the material clamping part; under the drive of the displacement mechanism, the traction part performs reciprocating traction action on the discharge end position of the clamping part by the traction end of the traction part, and the processing end of the processing part is linked to perform processing action corresponding to the discharge end of the clamping part.

By arranging the traction part, the material clamping part and the processing part and arranging the groove on the end part of the material in the pre-processing procedure, the processing device can realize continuous traction, clamping and processing of the material by a simpler structure, thereby greatly improving the production efficiency; because the material is pulled out in a traction mode, the pressure applied to the material in the material pulling-out process is small, and the damage rate of the material in the material pulling-out process is reduced.

Specifically, the material clamping part comprises at least two material clamping blocks and a clamping driving mechanism for driving the material clamping blocks to perform opposite clamping movement, and when the material clamping blocks are in a clamping state, material clamping holes are formed between the material clamping blocks in an enclosing manner. Through the arrangement, the material clamping part can clamp materials.

Specifically, the material clamping part is connected with a rotation driving mechanism for driving the material clamping part to rotate around the axis of the material clamping hole. Through setting up rotation actuating mechanism, the material in the double-layered material hole can be in the processing portion rotary processing.

Specifically, the discharge end side of pressing from both sides the material portion is provided with location detection device, location detection device with rotation actuating mechanism electric connection. Through the arrangement, the materials in the material clamping holes can be rotationally adjusted to the position convenient for the traction of the traction end of the traction part.

The clamping part comprises a clamping shell in a straight cylinder shape and a plurality of taper teeth, the clamping shell is sleeved outside the taper teeth, each taper tooth is arranged around the axis of the clamping shell, a clamping hole is formed between every two taper teeth, a taper surface is formed on the inner wall of the clamping shell corresponding to the taper teeth, and the clamping shell is connected with a hydraulic pull rod; the clamping shell moves along the axial direction of the hydraulic pull rod under the action of the hydraulic pull rod, so that the inner diameter of a taper surface surrounding the taper teeth is changed, the width of the material clamping hole is changed, and the effect of clamping or loosening materials is achieved. Through the arrangement, the material clamping part can clamp the material by a simpler structure.

The material clamping mechanism comprises a first guide part, a first sliding table and a first guide driving device, wherein the first guide part is arranged along the direction from the feeding end to the discharging end of the base table, and the first guide driving device is used for driving the first sliding table to do guide motion along the first guide part; based on the horizontal arrangement direction, a second guide part which is perpendicular to the direction from the feeding end to the discharging end of the base table is arranged on the first sliding table, and a second sliding table and a second guide driving device which drives the second sliding table to do guide motion along the second guide part are arranged on the second guide part; the traction part and the processing part are arranged on the second sliding table. Through the arrangement, the traction part performs front-back displacement action under the action of the second guide part and performs left-right displacement motion under the action of the first guide part, so that the material is dragged; the processing part moves back and forth under the action of the second guide part and moves left and right under the action of the first guide part, so that the position of the processing part is adjusted to process the material.

Specifically, draw portion and processing portion in follow on the second slip table the direction of direction parallel side by side setting of second guide part, follow the direction of second guide part, press from both sides the material portion in draw the portion and the processing portion between the position setting. Through the arrangement, the processing device is convenient for uniformly drawing and processing the materials after determining the positions of the materials, and the positions of the materials in the drawing stage and the processing stage do not need to be determined respectively.

Specifically, the traction portion draws piece, mount table including colluding, collude and draw piece one side and be equipped with the sliding seat, the mount table is equipped with the sliding tray that sets up along vertical direction, collude and draw the piece to pass through the sliding tray assemble in the sliding tray and the direction movably connect in on the mount table, collude and draw the piece to follow the direction orientation court of second guide portion press from both sides material portion one side extension and be provided with collude and draw the piece in order to conduct the traction end of traction portion. Through the arrangement of the sliding seat and the sliding groove, the hooking and pulling block can be adjusted to be installed on the installation table according to the position of the material, so that the position of the hooking and pulling piece is adjusted.

Specifically, collude and draw the piece opposite side and be equipped with the orientation the sliding seat runs through the fixed orifices that sets up, the fixed orifices inner wall is equipped with the screw thread. Through the arrangement, the fixing hole is penetrated and connected with a screw so as to fix the hooking block on the mounting table.

Specifically, the sliding seat is the shape of falling trapezoidal setting, the sliding tray set up to with sliding seat matched with falls trapezoidal groove. Through the arrangement, the sliding seat and the sliding groove can be matched more conveniently.

Specifically, the processing portion includes first processing cutter, first processing cutter includes cutter module, first tool rest, cutter module one side is equipped with the cooperation seat, first tool rest is equipped with along the cooperation groove of vertical direction setting, the cutter module pass through the cooperation seat assemble in cooperation groove and direction swing joint in on the first tool rest. By the arrangement, different tool modules are mounted on the first tool seat to adapt to different machining requirements.

Specifically, the processing portion further comprises a second processing cutter, and the first processing cutter and the second processing cutter are arranged on the second sliding table in parallel and side by side along the guide direction of the second guide portion. Through the arrangement, the processing device can adapt to various processing requirements simultaneously.

The utility model also provides a processing system applying the processing device.

The processing system comprises a feeding device, a pushing assembly and a processing machine table, wherein the processing machine table is internally provided with the processing device.

Through being equipped with and using as above-mentioned processingequipment, this system of processing can pull out the material by simpler and more convenient structure to the spoilage of material in the material pulling-out process has been reduced.

The utility model has the beneficial effects that:

1. by arranging the traction part, the material clamping part and the processing part and arranging the groove on the end part of the material in the pre-processing procedure, the processing device can realize continuous traction, clamping and processing of the material by a simpler structure, thereby greatly improving the production efficiency; because the material is pulled out in a traction mode, the pressure applied to the material in the material pulling-out process is small, and the damage rate of the material in the material pulling-out process is reduced.

2. Through being equipped with and using as above-mentioned processingequipment, this system of processing can carry out continuous drawing, centre gripping, processing by more simple and convenient structure to the material, provides the efficiency of production greatly, has reduced the spoilage of pulling out material in-process material.

Drawings

FIG. 1 is a schematic view of a first state of a processing apparatus according to the present invention;

FIG. 2 is a schematic view of a second state of the processing apparatus of the present invention;

FIG. 3 is an enlarged view of area A of FIG. 2;

FIG. 4 is a schematic view of a third state of the processing apparatus of the present invention;

FIG. 5 is a schematic view of a traction portion of the present invention;

FIG. 6 is a schematic view of a hooking block of the present invention;

fig. 7 is a schematic view of the mounting table of the present invention.

Description of reference numerals:

the drawing part 1, the hook block 11, the sliding seat 110, the hook member 111, the fixing hole 112, the thread 1121, the mounting table 12, the sliding groove 120, the clamping part 2, the clamping housing 20, the taper tooth 21, the clamping hole 210, the displacement mechanism 3, the second sliding table 31, the first sliding table 32, the machining part 4, the first cutter 41, the second cutter 42, the material rod 5, and the groove 51.

Detailed Description

In order to make the technical solution, the purpose and the advantages of the present invention more apparent, the present invention will be further explained with reference to the accompanying drawings and embodiments.

Example 1:

the processing device comprises a traction part 1, a material clamping part 2 and a processing part 4, wherein the traction part and the processing part are connected with a displacement mechanism, and the traction end of the traction part is arranged corresponding to one side of the discharge end of the material clamping part; under the drive of the displacement mechanism, the traction part performs reciprocating traction action on the position of the discharge end of the clamping part by the traction end of the traction part, and the processing end of the processing part is linked to perform processing action corresponding to the discharge end of the clamping part.

By arranging the traction part 1, the material clamping part 2 and the processing part 4 and arranging the groove 51 at the end part of the material rod 5 in the pre-processing procedure, the processing device can realize continuous traction, clamping and processing of the material rod 51 by a simpler structure, thereby greatly improving the production efficiency; because the material rod 5 is pulled out in a traction mode, the pressure applied to the material rod 5 in the pulling-out process is small, and the damage rate of the material in the process of pulling out the material rod 51 is reduced.

The material clamping part 2 comprises at least two material clamping blocks and a clamping driving mechanism for driving the material clamping blocks to perform opposite clamping movement, and when the material clamping blocks are in a clamping state, material clamping holes 210 are formed by enclosing the material clamping blocks. Through the arrangement, the material clamping part 2 can clamp the material rod 5.

The material clamping part 2 is connected with a rotation driving mechanism which drives the material clamping part to rotate around the axis of the material clamping hole 210. The rotation driving mechanism can be a rotation motor in the prior art. By providing the rotation driving mechanism, the material in the material clamping hole 210 can be rotatably processed on the processing portion.

A positioning detection device is arranged beside the discharge end of the clamping part 2 and is electrically connected with the rotation driving mechanism; the positioning detection device can adopt an infrared sensor in the prior art. Through the arrangement, when the positioning detection device does not detect the groove 51 at the end part of the material rod 5, the positioning detection device controls the rotation driving mechanism to rotate, so that the material rod 5 rotates, and when the positioning detection device detects that the groove 51 controls the rotation driving mechanism to rotate and stop working, the detection position of the positioning detection device and the traction end of the traction part 1 are arranged in parallel side by side, so that the groove 51 can be adjusted to the position, easy to pull, of the traction end of the traction part 1.

Preferably, the material clamping part 2 comprises a clamping shell 20 and a plurality of taper teeth 21, the clamping shell 20 is sleeved outside the taper teeth 21, each taper tooth 21 is arranged around the axis of the clamping shell 20, a material clamping hole 210 is formed between each taper tooth 21, a taper surface is formed on the inner wall of the clamping shell 20 corresponding to the taper teeth 21, and the material clamping shell 20 is connected with a hydraulic pull rod; the clamping shell 20 is displaced along the axial direction thereof under the action of the hydraulic pull rod, so that the inner diameter of the taper surface surrounding the taper teeth 21 is changed, the width of the material clamping hole 210 is changed, and the effect of clamping or loosening the material rod 5 is achieved. With the arrangement, the material clamping portion 2 can clamp the material rod 5 with a simpler structure.

The device comprises a base table, wherein the base table comprises a feeding end and a discharging end, a material clamping part 2 is arranged at the position of the feeding end of the base table, a traction part 1 and a processing part 4 are arranged at the position of the discharging end close to the base table, a displacement mechanism 3 comprises a first guide part arranged along the direction from the feeding end to the discharging end of the base table, and a first sliding table 32 and a first guide driving device for driving the first sliding table to do guide motion along the first guide part are arranged on the first guide part; based on the horizontal arrangement direction, the first sliding table 32 is provided with a second guide part arranged in a direction perpendicular to the direction from the feeding end to the discharging end of the base table, and the second guide part is provided with a second sliding table 31 and a second guide driving device for driving the second sliding table 31 to do guide motion along the second guide part; the drawing unit 1 and the processing unit 4 are provided on the second slide table 31. Through the arrangement, the traction part 1 can perform displacement motion in front, back, left and right directions, so as to draw the material rod 5; the processing portion 4 can perform displacement motion in the front-rear direction and the left-right direction, thereby processing the material rod 5.

The traction part 1 and the processing part 4 are arranged on the second sliding table 31 in parallel along the guiding direction of the second guiding part, and the material clamping part 2 is arranged between the traction part 1 and the processing part 4 along the guiding direction of the second guiding part. Through the arrangement, the processing device is convenient for uniformly drawing and processing the materials after determining the positions of the materials, and the positions of the materials in the drawing stage and the processing stage do not need to be determined respectively.

Traction portion 1 draws piece 11, mount table 12 including colluding, colludes and draws piece 11 one side to be equipped with sliding seat 110, and the mount table 12 is equipped with the sliding tray 120 that sets up along the vertical direction, colludes and draws piece 11 to assemble in sliding tray 120 and the direction is connected on mount table 12 movably through sliding tray 110, colludes and draws piece 11 to be provided with towards the extension of material clamping portion 2 one side along the direction of second guide part and colludes and draw piece 111 in order to regard as traction portion 1's traction end. Through the arrangement of the sliding seat 110 and the sliding groove 120, the position of the hooking block 11 mounted on the mounting table 12 can be adjusted according to the position of the material rod 5, so as to adjust the position of the hooking piece 111.

The other side of the hook block 11 is provided with a fixing hole 112 penetrating toward the sliding seat 110, and the inner wall of the fixing hole 112 is provided with a thread 1121. With the above arrangement, a screw is inserted into the fixing hole 112 to fix the hook block 11 to the mounting table 12.

The sliding seat 110 is disposed in an inverted trapezoid shape, and the sliding groove 120 is disposed in an inverted trapezoid shape that matches the sliding seat 110. By the above arrangement, the sliding seat 110 and the sliding groove 120 can be more easily engaged.

The processing part 4 comprises a first processing tool 41, the first processing tool 41 comprises a tool module and a first tool seat platform, a matching seat is arranged on one side of the tool module, a matching groove is formed in the first tool seat platform along the vertical direction in a guiding mode, and the tool module is assembled in the matching groove through the matching seat and movably connected to the first tool seat platform in a guiding mode. Through the arrangement, different tool modules are mounted on the first tool seat table to adapt to different machining requirements.

The processing portion 4 further includes a second processing tool 42, and the first processing tool 41 and the second processing tool 42 are arranged in parallel and side by side on the second sliding table 31 along the guiding direction of the second guiding portion. Through the arrangement, the processing device can adapt to various processing requirements simultaneously.

Based on the processing system, the specific working principle and the working flow are as follows:

before processing, the material rod 5 is clamped in the material clamping part 2, the traction part 1 is driven by the first guide part and the second guide part to move, so that the hooking part 111 is inserted into the groove 51, the traction part 1 is driven by the first guide part to move rightwards, the material rod 5 is pulled out to a proper processing position, and driven by the second guide part to move backwards, so that the hooking part 111 is separated from the groove 51; in the processing stage, the hydraulic pull rod draws the clamping shell 20 leftwards, so that the taper teeth 21 lock the material rod 5, the rotating motor is driven to drive the material rod 5 to rotate, and then the position of the processing part 4 is adjusted through the first guide part and the second guide part, so that the material rod 5 is processed.

Example 2:

the processing system comprises a feeding device, a pushing assembly and a processing machine table, wherein the processing machine table is internally provided with the processing device.

Through being equipped with and using as above-mentioned processingequipment, this system of processing can carry out continuous drawing, centre gripping, processing to material stick 5 by more simple and convenient structure, provides the efficiency of production greatly, has reduced the spoilage of pulling out 5 in-process material sticks 5.

The above description is only a preferred embodiment of the present invention, and those skilled in the art may still modify the described embodiment without departing from the implementation principle of the present invention, and the corresponding modifications should also be regarded as the protection scope of the present invention.

Claims (10)

1. The processing device is characterized by comprising a traction part, a material clamping part and a processing part, wherein the traction part and the processing part are connected with a displacement mechanism, and the traction end of the traction part is arranged corresponding to one side of the discharge end of the material clamping part; under the drive of the displacement mechanism, the traction part performs reciprocating traction action on the discharge end position of the material clamping part by the traction end of the traction part, and the processing end of the processing part is linked to perform processing action corresponding to the discharge end of the material clamping part.

2. The processing apparatus as claimed in claim 1, wherein the material clamping portion comprises at least two material clamping blocks and a clamping driving mechanism for driving the material clamping blocks to perform a clamping movement in opposite directions, and when the material clamping blocks are in a clamping state, material clamping holes are defined between the material clamping blocks.

3. The processing device as claimed in claim 2, wherein the material clamping portion is connected with a rotation driving mechanism for driving the material clamping portion to rotate around the axis of the material clamping hole.

4. The processing device according to claim 3, wherein a positioning detection device is disposed beside the discharge end of the material clamping portion, and the positioning detection device is electrically connected to the rotation driving mechanism.

5. The processing device according to any one of claims 1 to 4, comprising a base platform, wherein the base platform comprises a feeding end and a discharging end, the material clamping portion is disposed at the feeding end of the base platform, the drawing portion and the processing portion are disposed near the discharging end of the base platform, the displacement mechanism comprises a first guide portion disposed along the direction from the feeding end to the discharging end of the base platform, and a first sliding table and a first guide driving device for driving the first sliding table to move along the first guide portion are disposed on the first guide portion; based on the horizontal arrangement direction, a second guide part which is perpendicular to the direction from the feeding end to the discharging end of the base table is arranged on the first sliding table, and a second sliding table and a second guide driving device which drives the second sliding table to do guide motion along the second guide part are arranged on the second guide part; the traction part and the processing part are arranged on the second sliding table.

6. The processing device according to claim 5, wherein the drawing portion and the processing portion are arranged side by side on the second slide table in parallel along the guide direction of the second guide portion, and the material clamping portion is arranged between the drawing portion and the processing portion along the guide direction of the second guide portion.

7. The processing device as claimed in claim 6, wherein the drawing part comprises a drawing block and a mounting table, a sliding seat is arranged on one side of the drawing block, a sliding groove is arranged in the mounting table in a guiding manner along a vertical direction, the drawing block is movably connected to the mounting table in a guiding manner through the sliding seat and assembled in the sliding groove, and a drawing piece is arranged in the drawing block in a manner of extending towards one side of the material clamping part along the guiding direction of the second guiding part and serves as a drawing end of the drawing part.

8. The machining device according to claim 6, wherein the machining portion comprises a first machining tool, the first machining tool comprises a tool module and a first tool holder, one side of the tool module is provided with a matching seat, the first tool holder is provided with a matching groove which is arranged in a guiding mode along the vertical direction, and the tool module is movably connected to the first tool holder in a guiding mode through the matching seat assembled in the matching groove.

9. The processing apparatus according to claim 8, wherein the processing portion further includes a second processing tool, and the first processing tool and the second processing tool are arranged side by side on the second slide table in parallel along a guide direction of the second guide portion.

10. The processing system is characterized by comprising a feeding device, a material pushing assembly and the processing device applied to any one of claims 1 to 9.

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