CN210499217U

CN210499217U - Full-automatic production line for art designing blade

Info

Publication number: CN210499217U
Application number: CN201921351386.5U
Authority: CN
Inventors: 李磊
Original assignee: Zhejiang Shenxing Tool Co Ltd
Current assignee: Zhejiang Shenxing Tool Co Ltd
Priority date: 2019-08-20
Filing date: 2019-08-20
Publication date: 2020-05-12
Anticipated expiration: 2029-08-20

Abstract

The utility model relates to a full-automatic production line of art designing blades, which comprises a frame, a blade buffer table, a blade sharpening device and a steel die unreeling device; the machine frame is provided with a workbench, two side surfaces of the workbench are respectively provided with a blade conveying part and a blade cutting part, and one side of the output end of the workbench is provided with a blade conveying assembly; the blade buffer table is arranged on a plurality of buffer rollers for buffering; unreel the blade raw materials to blade sharpening device by steel mould unwinding device and grind the cutting edge to the blade raw materials, carry the blade of grinding the cutting edge to blade cushion table and cushion through the buffering roller that sets up after that, then carry the blade that the buffering is good to the workstation in the frame on to provide power by drive arrangement and cut the part through blade conveying part and blade and cut the part and cut the blade, blade conveying assembly carries the blade away and arranges in order by the workman at last.

Description

Full-automatic production line for art designing blade

Technical Field

The utility model relates to a blade automatic production line field especially relates to a full-automatic production line of art designer's blade.

Background

The full-automatic production line has the characteristics of improving the labor productivity, stabilizing and improving the product quality, improving the labor condition, reducing the production floor area, reducing the production cost, shortening the production period and ensuring the production balance, and has obvious economic benefit; with the development of the full-automatic production line being better and better, the awareness of people on the automatic production line is higher and higher; the production field of the blades also begins to develop towards a full-automatic production line slowly, the blades are processed by various devices according to the production sequence mainly through workers in the traditional blade production process, and the mode needs a large amount of manpower, so that the problems of greatly improved production cost and low production efficiency are caused; the existing blade production lines mostly consist of a plurality of steps instead of a full-automatic blade production line, the existing equipment is complex in structure and insufficient in working precision, the production efficiency of blades is not obviously improved in actual work, and numerous problems still exist.

The Chinese patent application No. CN201621367276.4 discloses a blade cuts isolated plant, including the body and fix the control box in the body upper end, control box one end is fixed with the action bars, telescopic cutter and infrared geminate transistor are installed to the action bars bottom, the control box is equipped with counter and signal transmitter, telescopic cutter, infrared geminate transistor, loop through the signal line between counter and the signal transmitter and link, the body lower part is provided with the control box, the control box is equipped with signal receiver and single chip microcomputer controller, be provided with the workstation on the body, install two rotary clamper on the workstation, the rotary clamper bottom is connected with the driver, the driver is fixed in the control box upper end, signal receiver, single chip microcomputer controller, link through the signal line between driver and the rotary clamper, signal receiver and signal transmitter cooperate, to its cutting position control is accurate when the blade cuts, can not cause the cutting position to deviate, and has good overall intelligent effect. The device is powered by the driver, and cuts the blades through the cooperation of the operation box, the control box and other parts, but the device can only cut the blades and has a complex structure and is not simple and convenient enough in operation, and the blades cannot be automatically conveyed to each processing device to form a full-automatic production line.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the defects of the prior art, and is provided with a blade buffer table, a blade sharpening device and a steel die unreeling device on one side of a frame according to the blade production steps; the blade processed by the procedures is conveyed to a workbench on the rack, is cut by a blade conveying part, a blade and a blade cutting part, and is conveyed out by a blade conveying assembly; the procedures in the blade production process are combined together successfully to form a full-automatic blade production line, the conveying path of the blade is optimized, the working efficiency is greatly improved, and the automatic production process is realized.

To the technical problem, the utility model discloses a technical scheme as follows:

a full-automatic production line of art designing blade includes:

the frame, be provided with the workstation in the frame, the inside of workstation just is located its output and is provided with drive arrangement, the higher authority of workstation is provided with the blade guide way, one side of workstation input is provided with guiding mechanism, its characterized in that includes:

the blade buffer table is arranged on one side of the output end of the workbench, and a plurality of buffer rollers are vertically arranged on the blade buffer table;

the blade sharpening device is arranged on the other side of the blade buffer table relative to the output end of the workbench;

the steel die unreeling device is arranged on the other side of the blade sharpening device relative to the blade buffering table and comprises a steel die unreeling device and a steel die unreeling device;

the blade conveying part is arranged on the side surface of the workbench and comprises a rotating wheel a which is arranged on the side surface of the workbench and is in rotating connection with the driving device, a guide assembly a which is arranged on the side surface of the workbench and is positioned on one side of the rotating wheel a, a conveying assembly which is slidably arranged on the guide assembly a, and a transmission rod a which is used for connecting the rotating wheel a and the conveying assembly, wherein the guide assembly a comprises two guide rails a which are vertically symmetrical and horizontally arranged on the side surface of the workbench; the conveying assembly comprises a supporting plate which is slidably arranged on the guide assembly a, and a conveying arm arranged at the upper end of the supporting plate;

the cutting device comprises a blade cutting part, a blade conveying part, a cutting assembly and a cutting assembly, wherein the blade cutting part is arranged on the other side surface of the workbench relative to the blade conveying part and comprises a rotating wheel b arranged on the side surface of the workbench and rotationally connected with the driving device, a guide assembly b arranged on the side surface of the workbench and positioned on the rotating wheel b, a cutting assembly slidably mounted on the guide assembly b, and a transmission rod b connecting the rotating wheel b and the cutting assembly, and the guide assembly b comprises two guide rails b which are bilaterally symmetrical and vertically arranged on the side surface of the workbench; the slitting component comprises a slitting support arranged on the guide component b in a sliding mode, a slitting arm arranged at one end of the slitting support and a slitting block arranged at the bottom of the slitting arm;

the blade conveying assembly comprises a support frame, a blade conveying belt and a motor, wherein the support frame is arranged below the slitting block and is installed on the rack, the blade conveying belt is rotatably installed on the support frame, and the motor is arranged on one side of the blade conveying belt.

Preferably, the guide mechanism comprises a supporting seat mounted on the frame, and two guide rollers arranged on the side surface of the supporting seat in an up-down symmetrical manner, and the distance between the two guide rollers arranged in the up-down symmetrical manner is matched with the thickness dimension of the blade.

Preferably, one end of the conveying arm is connected with the supporting plate, a conveying block is arranged at the bottom of the other end of the conveying arm, a limiting groove is formed in the front of the conveying block in the horizontal direction, and a conveying needle is hinged in the limiting groove and close to the rear surface.

Preferably, the limiting groove is located right above the blade guide groove, and the position of the conveying needle is matched with the position of the punching hole in the blade.

Preferably, one end of the transmission rod a and one end of the transmission rod b are respectively eccentrically and rotatably mounted on the rotating wheel a and the rotating wheel b, and the other ends of the transmission rods are respectively hinged with the supporting plate and the slitting bracket.

Preferably, the lower end of the support plate is provided with vertically symmetrical guide sliding grooves a along the horizontal direction, and the guide sliding grooves a are installed with the guide rails a in a sliding fit manner.

Preferably, the lower end part of the slitting support is provided with bilaterally symmetrical guide chutes b along the vertical direction, and the guide chutes b are arranged together with the guide rails b in a sliding fit manner.

Preferably, the height of the upper surface of the conveyor belt is lower than the height of the bottom surface of the blade guide groove.

Preferably, an elastic pressing piece is arranged at the end part of the cutting block, the middle position of the elastic pressing piece is concave downwards, and the lowest position of the elastic pressing piece is lower than the lower surface of the cutting block.

Preferably, the input end and the output end of the workbench are positioned on the blade guide groove and are respectively provided with a limiting block a and a limiting block b.

The utility model has the advantages that:

(1) the utility model discloses set up blade cushion table, blade sharpening device and steel mould unwinding device in one side of frame according to blade production step respectively, steel mould unwinding device unreels the blade raw materials to blade sharpening device, the blade of having ground the sword is carrying the blade cushion table and is buffering, then carry the blade on the workstation in the frame and then provide power drive blade conveying part and blade through the drive arrangement and cut the part and cut the processing with the blade, carry the blade out through blade conveying subassembly at last; the whole blade machining process is matched and connected together, and a full-automatic blade production line is realized.

(2) The utility model discloses a blade conveying part removes about the rotation drive transfer line a through rotating wheel an, and drives conveying assembly simultaneously and controls along horizontal and symmetry setting at the guide rail a of workstation side to the blade in the blade guide way conveys, and this structural design is ingenious and has very high stability.

(3) The utility model discloses a part is cut to blade reciprocates through the rotation drive transfer line b that rotates wheel b, and drives simultaneously and cut the subassembly and reciprocate along vertical and symmetry setting guide rail b in the workstation side to the processing is cut to cooperation positioning mechanism will be located the blade of cutting position department.

(4) The utility model discloses the bottom surface at the conveying arm tip of conveying subassembly is provided with the conveying piece, and the spacing groove has been seted up on the front surface of this conveying piece, and the spacing inslot is close to the articulated transmission needle that is provided with of rear surface department, when conveying subassembly moves left, the upper end of transmission needle blocks the rear surface of spacing groove and its lower extreme card is in the punching cut on the blade, make the transmission needle convey the blade through the effect of mutual force, when conveying subassembly moves right, the upper end of transmission needle is not influenced by the spacing groove and is connected through articulated and makes its lower extreme shift out in the punching cut of blade before from, and go into in the next punching cut.

To sum up, the utility model discloses become a full-automatic blade production line together with each process success complex combination in the blade production process, optimized the transport route of blade, great improvement work efficiency has realized automatic working process.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings described below are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic view of an overall structure of a full-automatic production line for a art designing blade according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of a blade buffering table according to the present invention;

FIG. 3 is a schematic view of the overall structure of the middle frame according to the present invention;

FIG. 4 is a schematic view of the overall structure of the middle frame of the present invention;

FIG. 5 is a schematic structural view of a worktable according to the present invention;

FIG. 6 is a front view of the worktable of the present invention;

fig. 7 is a schematic structural view of the guiding mechanism of the present invention;

fig. 8 is a schematic structural diagram of a transfer block in the present invention;

FIG. 9 is a schematic structural view of a blade transfer section according to the present invention;

FIG. 10 is a schematic structural view of a cutting portion of the blade according to the present invention;

fig. 11 is a schematic structural view of the support plate of the present invention;

fig. 12 is a schematic structural view of the middle slitting support of the present invention;

FIG. 13 is a partial schematic view of the position relationship in the present invention;

FIG. 14 is a partial schematic view of a blade according to the present invention;

fig. 15 is a schematic cross-sectional view of the middle transfer station of the present invention.

Detailed Description

The technical solution in the embodiment of the present invention is clearly and completely described below with reference to the accompanying drawings.

Example one

As shown in fig. 1 to 13, a fully automatic production line for art designing blades comprises:

frame 1, be provided with workstation 2 in the frame 1, the inside of workstation 2 just is located its output 21 and is provided with drive arrangement 3, the higher authority of workstation 2 is provided with blade guide way 22, one side of workstation 2 input 23 is provided with guiding mechanism 24, its characterized in that includes:

the blade buffer table 4 is arranged on one side of the output end 21 of the workbench 2, and a plurality of buffer rollers 41 are vertically arranged on the blade buffer table 4;

the blade sharpening device 5 is arranged on the other side of the blade buffering table 4 relative to the output end 21 of the workbench 2;

the steel die unreeling device 6 is arranged on the other side of the blade sharpening device 5 relative to the blade buffering table 4 and comprises a steel die unreeling device 6;

a blade transfer portion 7, the blade transfer portion 7 being disposed at a side of the table 2, the blade transfer portion 7 including a rotary wheel a71 disposed at a side of the table 2 and rotatably connected to the driving device 3, a guide assembly a72 disposed at a side of the table 2 and located at a side of the rotary wheel a71, a transfer assembly 73 slidably mounted on the guide assembly a72, and a transmission rod a74 connecting the rotary wheel a71 and the transfer assembly 73, the guide assembly a72 including two guide rails a721 symmetrically disposed at a side of the table 2 and horizontally; the transfer assembly 73 includes a support plate 731 slidably mounted on the guide assembly a72, and a transfer arm 732 provided at an upper end of the support plate 731.

A blade slitting part 8, the blade slitting part 8 being disposed on the other side of the table 2 with respect to the blade conveying part 7, the blade slitting part 8 including a rotating wheel b81 disposed on the side of the table 2 and rotatably connected to the driving device 3, a guide assembly b82 disposed on the side of the table 2 and located above the rotating wheel b81, a slitting assembly 83 slidably mounted on the guide assembly b82, and a transmission rod b84 connecting the rotating wheel b81 and the slitting assembly 83, the guide assembly b82 including two guide rails b821 which are bilaterally symmetric and vertically disposed on the side of the table 2; the slitting assembly 83 comprises a slitting bracket 831 slidably mounted on a guide assembly b82, a slitting arm 832 mounted at one end of the slitting bracket 831, and a slitting block 833 arranged at the bottom of the slitting arm 832;

and the blade conveying assembly 9, wherein the blade conveying assembly 9 comprises a supporting frame 91 which is arranged below the cutting block 833 and is installed on the rack 1, a blade conveying belt 92 which is rotatably installed on the supporting frame 91, and a motor 93 which is arranged on one side of the blade conveying belt 92.

Further, as shown in fig. 7, the guide mechanism 24 includes a supporting base 241 mounted on the frame 1, and two guide rollers 242 disposed on the side surface of the supporting base 241 in a vertically symmetrical manner, and a distance between the two guide rollers 242 disposed in the vertically symmetrical manner is adapted to the thickness dimension of the blade 25.

Further, as shown in fig. 8, one end of the transmission arm 732 is connected to the support plate 731, a transmission block 7321 is disposed at the bottom of the other end of the transmission arm 732, a limit groove 73211 is disposed in front of the transmission block 7321 along the horizontal direction, a transmission needle 73212 is hinged in the limit groove 73211 and near the rear surface, and the transmission of the blade 25 in the blade guide groove 22 is realized by the left and right movement of the transmission arm 732 and the mutual cooperation between the limit groove 73211 and the transmission needle 73212.

Further, as shown in fig. 8, 9 and 15, the limiting groove 73211 is located right above the blade guide groove 22, and the position of the transmission needle 73212 is matched with the position of the punching hole 251 on the blade 25.

Further, as shown in fig. 9 and 10, one end of the transmission rod a74 and one end of the transmission rod b84 are eccentrically and rotatably mounted on the rotating wheel a71 and the rotating wheel b81, respectively, and the other end of the transmission rod a74 and the transmission rod b84 are hinged to the supporting plate 731 and the slitting bracket 831, respectively, and the rotating wheel a71 and the rotating wheel b81 are synchronously driven to rotate by the driving device 3 and drive the supporting plate 731 and the slitting bracket 831 to move in the horizontal and vertical directions, respectively, through the transmission rod a74 and the transmission rod b, and the distance that the blade 25 needs to convey is much smaller than the slitting stroke, so that the rotating wheel a71 is much larger than the rotating wheel b 81.

Further, as shown in fig. 11, the lower end portion of the supporting plate 731 is provided with a vertically symmetrical guide chute a7311 along the horizontal direction, and the guide chute a7311 is installed with the guide rail a721 in a sliding fit manner.

Further, as shown in fig. 12, the lower end of the slitting bracket 831 is provided with bilaterally symmetrical guide chutes b8311 in the vertical direction, and the guide chutes b8311 are slidably fitted with the guide rails b 821.

Further, as shown in fig. 13, the height of the upper surface of the blade conveyor belt 92 is lower than the height of the bottom surface of the blade guide groove 22, so that the cut blades 25 are directly put on the blade conveyor belt 92 for finishing.

Further, as shown in fig. 3 and 13, the end of the slitting block 833 is provided with an elastic pressing piece 8331, the elastic pressing piece 8331 is used for positioning the blade when slitting the blade, so as to prevent the blade from bouncing off when slitting, the middle position of the elastic pressing piece 8331 is downward concave, and the lowest position of the elastic pressing piece 8331 is lower than the lower surface of the slitting block 833, and since the elastic pressing piece 8331 and the slitting block 833 are on the same vertical plane, the elastic pressing piece 8331 needs to be positioned to the blade 25 first and then slit through the slitting block 833.

Further, as shown in fig. 5, the input end 23 and the output end 21 of the working table 2 are respectively provided with a stopper a221 and a stopper b222 on the blade guide groove 22.

The working process is as follows: firstly, the whole equipment is started, the steel die unreeling device 6 unreels blade raw materials and conveys the unreeled blade raw materials to the blade sharpening device 5, the cutting edge of the blade 25 is mechanically sharpened through the blade sharpening device 5, then the blade 25 with the ground cutting edge is conveyed to the blade buffering table 4, the blade 25 is buffered through a plurality of buffering rollers 41 arranged on the blade buffering table 4, then the buffered blade 25 is conveyed to the blade guide groove 22 of the workbench 2, then the driving device 3 on the workbench 2 provides power, the blade 25 is cut through the mutual matching work of the blade conveying part 7 and the blade cutting part 8, the finally cut blade 25 falls into the blade conveying assembly 9, the blade 25 is conveyed out through the blade conveying assembly 9, and a full-automatic blade production line is realized.

In the present invention, it is to be understood that: the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," and the like are used in an orientation or positional relationship indicated in the drawings for convenience and simplicity of description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be construed as limiting the invention. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

The above, only be the utility model discloses the embodiment of preferred, nevertheless the utility model discloses a protection scope is not limited to this, and any technical personnel who is familiar with this technical field are in the utility model discloses a change or replacement that can easily think under the technical suggestion, if make solution form mutually independent solution curtain with order curtain and shaping subassembly surface in order through feed mechanism, finalize the design through different warm areas, make its reutilization's design concept with polymer melting in addition, all should cover within the protection scope of the utility model. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims

1. A full-automatic production line of art designing blade includes:

frame (1), be provided with workstation (2) in frame (1), the inside of workstation (2) just is located its output (21) and is provided with drive arrangement (3), be provided with blade guide way (22) above workstation (2), one side of workstation (2) input (23) is provided with guiding mechanism (24), its characterized in that includes:

the cutter blade buffer table (4) is arranged on one side of the output end (21) of the workbench (2), and a plurality of buffer rollers (41) are vertically arranged on the cutter blade buffer table (4);

the blade sharpening device (5), the blade sharpening device (5) is arranged on the other side of the blade buffering table (4) relative to the output end (21) of the workbench (2);

the steel die unreeling device (6) is arranged on the other side of the blade sharpening device (5) relative to the blade buffering table (4) and comprises a steel die unreeling device (6);

the blade conveying part (7) is arranged on the side face of the workbench (2), the blade conveying part (7) comprises a rotating wheel a (71) which is arranged on the side face of the workbench (2) and is in rotating connection with the driving device (3), a guide assembly a (72) which is arranged on the side face of the workbench (2) and is positioned on one side of the rotating wheel a (71), a conveying assembly (73) which is installed on the guide assembly a (72) in a sliding mode, and a transmission rod a (74) which is connected with the rotating wheel a (71) and the conveying assembly (73), and the guide assembly a (72) comprises two guide rails a (721) which are symmetrical up and down and are horizontally arranged on the side face of the workbench (2); the conveying assembly (73) comprises a supporting plate (731) which is slidably mounted on the guide assembly a (72), and a conveying arm (732) which is arranged at the upper end part of the supporting plate (731);

the cutting device comprises a blade cutting part (8), the blade cutting part (8) is arranged on the other side face of the workbench (2) relative to a blade conveying part (7), the blade cutting part (8) comprises a rotating wheel b (81) which is arranged on the side face of the workbench (2) and is rotationally connected with the driving device (3), a guide component b (82) which is arranged on the side face of the workbench (2) and is positioned on the rotating wheel b (81), a cutting component (83) which is slidably mounted on the guide component b (82), and a transmission rod b (84) which is connected with the rotating wheel b (81) and the cutting component (83), wherein the guide component b (82) comprises two guide rails b (821) which are bilaterally symmetrical and vertically arranged on the side face of the workbench (2); the slitting assembly (83) comprises a slitting bracket (831) which is slidably mounted on a guide assembly b (82), a slitting arm (832) which is mounted at one end of the slitting bracket (831) and a slitting block (833) which is arranged at the bottom of the slitting arm (832);

the blade conveying assembly (9) comprises a supporting frame (91) arranged below the cutting block (833) and mounted on the rack (1), a blade conveying belt (92) rotatably mounted on the supporting frame (91) and a motor (93) arranged on one side of the blade conveying belt (92).

2. The fully automatic production line of art designing blades as claimed in claim 1, wherein said guiding mechanism (24) comprises a supporting seat (241) mounted on the frame (1), and two guiding rollers (242) symmetrically arranged up and down on the side surface of the supporting seat (241), the distance between the two guiding rollers (242) symmetrically arranged up and down is adapted to the thickness dimension of the blade (25).

3. The fully-automatic production line of art designing blades as claimed in claim 1, wherein one end of the transfer arm (732) is connected with the support plate (731) and the bottom of the other end is provided with a transfer block (7321), the front of the transfer block (7321) is provided with a limit slot (73211) along the horizontal direction, and a transfer needle (73212) is hinged in the limit slot (73211) and near the rear surface.

4. The fully automatic production line of art designing blades as claimed in claim 3, wherein said limiting groove (73211) is located right above said blade guiding groove (22), and the position of said transmission needle (73212) is matched with the position of the punching hole (251) on the blade (25).

5. The fully automatic production line of art designing blades as claimed in claim 1, wherein one end of the transmission rod a (74) and one end of the transmission rod b (84) are eccentrically and rotatably mounted on the rotating wheel a (71) and the rotating wheel b (81), and the other ends are respectively hinged with the supporting plate (731) and the slitting bracket (831).

6. The fully automatic production line of art designing blades as claimed in claim 1, wherein the lower end of the supporting plate (731) is horizontally provided with a vertically symmetrical guiding chute a (7311), and the guiding chute a (7311) is installed with the guiding rail a (721) in a sliding fit manner.

7. The fully-automatic production line of art designing blades as claimed in claim 1, wherein the lower end of the slitting bracket (831) is provided with bilaterally symmetrical guide chutes b (8311) along the vertical direction, and the guide chutes b (8311) are installed together with the guide rails b (821) in a sliding fit manner.

8. The fully automatic production line of art designing blades as claimed in claim 1, wherein the height of the upper surface of said blade conveyor (92) is lower than the height of the bottom surface of said blade guide groove (22).

9. The fully-automatic production line of art knife blades according to claim 1, characterized in that the end of the said cut-off block (833) is provided with an elastic pressing piece (8331), the middle position of the said elastic pressing piece (8331) is concave downward, and the lowest position of the elastic pressing piece (8331) is lower than the lower surface of the said cut-off block (833).

10. The fully automatic production line of art designing blades as claimed in claim 1, wherein the input end (23) and the output end (21) of the working table (2) and located on the blade guide groove (22) are respectively provided with a limit block a (221) and a limit block b (222).