CN210475332U - Alignment, cutting and marking integrated equipment special for precision alloy - Google Patents

Abstract

The utility model discloses a special straightening, cutting and marking integrated device for precision alloy, which comprises a bearing device, a straightening mechanism, a cutting mechanism and a marking mechanism, wherein the bearing device is provided with a positioning hole; the bearing equipment comprises a machine body and an operating platform arranged on the upper surface of the machine body; the straightening mechanism comprises a straightening box and a straightening clamping wheel; the cutting mechanism comprises a cutting box and a cutting knife which are arranged on the upper surface of the operating platform; the marking mechanism comprises a fixing frame arranged on the upper surface of the operating platform and a laser marking machine arranged on the fixing frame. The utility model is suitable for an alloy steel wire processing, the device can straighten the alloy steel wire through straightening mechanism, shutdown mechanism and marking mechanism set gradually from left to right on bearing the weight of the equipment, can cut off the alloy steel wire through the shutdown mechanism, can beat the mark to the alloy steel wire through marking mechanism, and such structure setting makes the device possess the alignment simultaneously-cut off-beat the mark function, and the function is diversified, makes the processing of alloy steel wire high-efficient swift more.

Description

Alignment, cutting and marking integrated equipment special for precision alloy

Technical Field

The utility model belongs to the technical field of alloy steel wire processing, specifically be a special alignment of accurate alloy cuts off and beats mark integrative equipment.

Background

The alloy steel wire is produced by drawing an alloy steel wire rod serving as a raw material. The alloy steel wire has more excellent performance than the carbon steel wire or the performance which the carbon steel wire does not have, the types of the alloy steel wire comprise an alloy tool steel wire, a bearing steel wire, an alloy tool steel wire, an alloy spring steel wire (see a spring steel wire), a steel wire for alloy welding, a steel wire for alloy cold upsetting, a stainless steel wire and the like, and compared with the production of the carbon steel wire, the alloy steel wire has certain particularity on the requirements on raw materials and the production process;

in the process of producing and processing alloy steel wires, straightening, cutting and marking the alloy steel wires are an indispensable procedure, and in the existing processing equipment, straightening, cutting and marking are realized through a plurality of different devices, so that the operation is complex, the operation is inconvenient, and the phenomenon of unevenness easily appears in the notches of the cutting equipment.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve current processing equipment, its alignment, cut off and beat the mark and carry out the realization through a plurality of different equipment, complex operation, inconvenient, and the problem of the phenomenon of unevenness easily appears in the incision of cutting equipment provides a special alignment of accurate alloy and cuts off and beat a mark integrative equipment.

The utility model adopts the technical scheme as follows:

a special straightening, cutting and marking integrated device for precision alloy comprises a bearing device, a straightening mechanism, a cutting mechanism and a marking mechanism, wherein the straightening mechanism, the cutting mechanism and the marking mechanism are all arranged above the bearing device;

the bearing equipment comprises a machine body and an operating platform arranged on the upper surface of the machine body;

the straightening mechanism comprises a straightening box and a straightening clamping wheel, wherein the straightening box is arranged on the operating table, the straightening clamping wheel is arranged in the straightening box, and the straightening clamping wheel is rotatably arranged on the inner wall of the straightening box through a rotating shaft;

the cutting mechanism comprises a cutting box and a cutting knife which are arranged on the upper surface of the operating platform, a hydraulic cylinder is arranged at the top of the cutting box, a hydraulic rod of the hydraulic cylinder extends into the cutting box, the bottom of the hydraulic rod is connected with a lifting plate, the cutting knife is arranged at the bottom of the lifting plate, a support is further arranged at the central line of a bottom plate in the cutting box, and the support and the cutting knife are positioned on the same vertical line;

the marking mechanism comprises a fixing frame arranged on the upper surface of the operating platform and a laser marking machine arranged on the fixing frame.

The upper surface of the operating platform is provided with two outer carrying wheels which are respectively arranged on two sides of the straightening box, the operating platform is further provided with a conveying belt, and the conveying belt is arranged at the position of the fixing frame and penetrates through the fixing frame.

The two ends of the two groups of rotating shafts extend to the outer side of the straightening box respectively, the rotating shafts are horizontally arranged and connected through transmission belts, the outer side of the straightening box is further provided with two first motors, and output shafts of the two first motors are connected with one of the two groups of rotating shafts respectively.

Two vertical frames are symmetrically arranged above the inside of the cutting-off box, limiting sliding grooves are formed in the inner sides of the vertical frames, limiting sliding blocks are arranged at the two ends of the lifting plate, and the limiting sliding blocks are clamped in the limiting sliding grooves.

The fixing frame is of an L-shaped structure, the laser marking machine is arranged on the horizontal end of the fixing frame, a bottom plate is arranged below the vertical end of the fixing frame, a clamping piece is arranged below the bottom plate, a sliding groove is formed in the upper surface of the operating platform, the clamping piece is clamped in the sliding groove, a threaded shaft rod is arranged on the clamping piece in an alternating mode, a lead screw is sleeved on the threaded shaft rod and embedded in the clamping piece, a second motor is arranged at one end of the operating platform, and an output shaft of the second motor is connected with one end of the threaded shaft rod.

The two second motors are arranged, and are symmetrical to each other about the horizontal center line of the operating platform.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. the utility model discloses in, through setting gradually alignment mechanism, shutdown mechanism and marking mechanism from left to right on bearing the weight of the equipment, can straighten alloy-steel wire through alignment mechanism, can cut off alloy-steel wire through shutdown mechanism, can beat mark to alloy-steel wire through marking mechanism, such structure setting makes the device possess the alignment simultaneously-cut off-beat the mark function, and the function is diversified, makes alloy-steel wire's processing high-efficient swift more.

2. The utility model discloses in, because the inside top symmetry of cutting off the case is provided with two grudging posts, spacing spout has all been seted up to two grudging posts inboards, and the both ends of lifter plate all are provided with spacing slider, and spacing slider block is in spacing spout, and such structure setting makes the cutting off cutter more stable when going up and down to cut off the alloy steel wire, makes the steel wire incision more level and more smooth.

3. The utility model discloses in, when the second motor operation, because the screw shaft pole with screw shaft pole complex lead screw external member mating reaction, horizontal slip in the spout of mount on the operation panel to make the laser marking machine position that is located on the mount adjustable, conveniently beat the mark.

Drawings

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a schematic view of the internal structure of the straightening box of the present invention;

FIG. 3 is a schematic view of the internal structure of the middle cutting-off box of the present invention;

fig. 4 is a schematic view of the mounting structure of the middle fixing frame of the present invention.

The labels in the figure are: 1. a body; 2. an operation table; 3. an outer carrying wheel; 401. a straightening box; 402. a first motor; 403. a transmission belt; 404. a rotating shaft; 405. straightening a clamping wheel; 501. a cutting box; 502. erecting a frame; 503. a limiting slide block; 504. a limiting chute; 505. a support; 506. a hydraulic cylinder; 507. a lifting plate; 508. a cutting knife; 601. laser marking machine; 602. a fixed mount; 603. a second motor; 604. a base plate; 605. a fastener; 606. a threaded shaft; 7. and (5) conveying the belt.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Referring to fig. 1-4, a special aligning, cutting and marking integrated device for precision alloys comprises a bearing device, an aligning mechanism, a cutting mechanism and a marking mechanism, wherein the aligning mechanism, the cutting mechanism and the marking mechanism are all arranged above the bearing device;

the bearing equipment comprises a machine body 1 and an operating platform 2 arranged on the upper surface of the machine body 1;

the straightening mechanism comprises a straightening box 401 and a straightening clamping wheel 405, wherein the straightening box 401 is arranged on the operating table 2, the straightening clamping wheel 405 is arranged inside the straightening box 401, and the straightening clamping wheel 405 is rotatably arranged on the inner wall of the straightening box 401 through a rotating shaft 404;

the cutting mechanism comprises a cutting box 501 and a cutting knife 508 which are arranged on the upper surface of the operating platform 2, a hydraulic cylinder 506 is arranged at the top of the cutting box 501, a hydraulic rod of the hydraulic cylinder 506 extends into the cutting box 501, the bottom of the hydraulic rod is connected with a lifting plate 507, the cutting knife 508 is arranged at the bottom of the lifting plate 507, a support 505 is further arranged at the center line of the bottom plate in the cutting box 501, and the support 505 and the cutting knife 508 are positioned on the same vertical line;

the marking mechanism includes a fixing frame 602 disposed on the upper surface of the operation table 2 and a laser marking machine 601 disposed on the fixing frame 602.

By adopting the technical scheme:

the device has alignment-cutting-marking functions simultaneously, and the function is diversified, so that the processing of the alloy steel wire is more efficient and faster.

The upper surface of the operation table 2 is provided with two outer carrying wheels 3 which are respectively arranged at two sides of the straightening box 401, the operation table 2 is also provided with a conveying belt 7, the conveying belt 7 is arranged at the position of the fixed frame 602 and penetrates through the fixed frame 602, and the conveying belt 7 is driven by a motor.

The rotating shafts 404 are provided with two groups, two ends of the two groups of rotating shafts 404 extend to the outer side of the straightening box 401 respectively, each group of rotating shafts 404 are horizontally arranged, one end of each group of rotating shafts 404 is in transmission connection through a transmission belt 403, two first motors 402 are further arranged on the outer side of the straightening box 401, and output shafts of the two first motors 402 are connected with one of the two groups of rotating shafts 404 respectively.

Two vertical frames 502 are symmetrically arranged above the inside of the cutting box 501, the inner sides of the two vertical frames 502 are provided with limiting sliding grooves 504, the two ends of the lifting plate 507 are provided with limiting sliding blocks 503, and the limiting sliding blocks 503 are clamped in the limiting sliding grooves 504.

Mount 602 adopts L type structure, laser marking machine 601 sets up on mount 602 horizontal end, the vertical end below department of mount 602 is provided with bottom plate 604, bottom plate 604 below is provided with fastener 605, the spout has been seted up to 2 upper surfaces of operation panel, fastener 605 block is in the spout, the interlude is provided with threaded shaft rod 606 on the fastener 605, the lead screw has been cup jointed on the threaded shaft rod 606, this lead screw inlays to be established in fastener 605, the one end of operation panel 2 is provided with second motor 603, the output shaft of second motor 603 is connected with the one end of threaded shaft rod 606, second motor 603 is provided with two altogether, and two second motors 603 are symmetrical about 2 horizontal central lines of operation panel each other.

By adopting the technical scheme:

when the second motor 603 runs, due to the matching effect of the threaded shaft rod 606 and the lead screw kit matched with the threaded shaft rod 606, the fixing frame 602 horizontally slides in the chute on the operating platform, so that the position of the laser marking machine 601 on the fixing frame 602 is adjustable, and marking is convenient.

The working principle of the method, referring to fig. 1-4, when in use, one end of an alloy steel wire to be processed firstly passes through the straightening box 401 from one end of the straightening box 401 and passes through the two groups of straightening clamp wheels 405, then passes through the cutting box 501 and passes through the lower part of a cutting knife 508 in the cutting box 501, finally passes through the lower part of a laser marking machine 601 and is wound on an external winding device to be connected with a power supply, the alloy steel wire is clamped and straightened by the two groups of straightening clamp wheels 405, when the alloy steel wire reaches a proper position, the laser marking machine 601 marks the alloy steel wire, when the alloy steel wire reaches a proper length, a hydraulic cylinder 506 operates to drive the cutting knife 508 to move downwards to cut the alloy steel wire, and the straightening-marking-cutting process is completed.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. The utility model provides a special alignment of accurate alloy is cut off and is beaten integrative equipment of mark which characterized in that: the device comprises bearing equipment, a straightening mechanism, a cutting mechanism and a marking mechanism, wherein the straightening mechanism, the cutting mechanism and the marking mechanism are all arranged above the bearing equipment;

the bearing equipment comprises a machine body (1) and an operation table (2) arranged on the upper surface of the machine body (1);

the straightening mechanism comprises a straightening box (401) and a straightening clamping wheel (405), wherein the straightening box (401) is arranged on the operating table (2), the straightening clamping wheel (405) is arranged inside the straightening box (401), and the straightening clamping wheel (405) is rotatably arranged on the inner wall of the straightening box (401) through a rotating shaft (404);

the cutting mechanism comprises a cutting box (501) and a cutting knife (508) which are arranged on the upper surface of the operating platform (2), a hydraulic cylinder (506) is arranged at the top of the cutting box (501), a hydraulic rod of the hydraulic cylinder (506) extends into the cutting box (501), the bottom of the hydraulic rod is connected with a lifting plate (507), the cutting knife (508) is arranged at the bottom of the lifting plate (507), a support (505) is further arranged at the center line of a bottom plate in the cutting box (501), and the support (505) and the cutting knife (508) are positioned on the same vertical line;

the marking mechanism comprises a fixing frame (602) arranged on the upper surface of the operating platform (2) and a laser marking machine (601) arranged on the fixing frame (602).

2. The special alignment, cutting and marking integrated equipment for precision alloys as claimed in claim 1, wherein: operation panel (2) upper surface is provided with two outer wheel (3) of carrying on, set up respectively in the both sides of alignment case (401), still be provided with a conveyer belt (7) on operation panel (2), conveyer belt (7) set up in mount (602) position department and pass mount (602).

3. The special alignment, cutting and marking integrated equipment for precision alloys as claimed in claim 1, wherein: the improved straightening machine is characterized in that two groups of rotating shafts (404) are arranged, two ends of the two groups of rotating shafts (404) extend to the outer side of the straightening box (401) respectively, each group of rotating shafts (404) is horizontally arranged, one end of each rotating shaft (404) is in transmission connection through a transmission belt (403), two first motors (402) are further arranged on the outer side of the straightening box (401), and output shafts of the two first motors (402) are connected with one of the two groups of rotating shafts (404) respectively.

4. The special alignment, cutting and marking integrated equipment for precision alloys as claimed in claim 1, wherein: two vertical frames (502) are symmetrically arranged above the inner portion of the cutting box (501), limiting sliding grooves (504) are formed in the inner sides of the vertical frames (502), limiting sliding blocks (503) are arranged at the two ends of the lifting plate (507), and the limiting sliding blocks (503) are clamped in the limiting sliding grooves (504).

5. The special alignment, cutting and marking integrated equipment for precision alloys as claimed in claim 1, wherein: the fixing frame (602) is of an L-shaped structure, the laser marking machine (601) is arranged at the horizontal end of the fixing frame (602), a bottom plate (604) is arranged below the vertical end of the fixing frame (602), a clamping piece (605) is arranged below the bottom plate (604), a sliding groove is formed in the upper surface of the operating platform (2), the clamping piece (605) is clamped in the sliding groove, a threaded shaft rod (606) penetrates through the clamping piece (605), a lead screw is sleeved on the threaded shaft rod (606) and embedded in the clamping piece (605), a second motor (603) is arranged at one end of the operating platform (2), and an output shaft of the second motor (603) is connected with one end of the threaded shaft rod (606).

6. The special alignment, cutting and marking integrated equipment for precision alloys as claimed in claim 5, wherein: the number of the second motors (603) is two, and the two second motors (603) are symmetrical to each other about the horizontal center line of the operating table (2).

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