CN217913124U - Automatic cutting device for steel belt - Google Patents

Abstract

The utility model relates to a fuel cell technical field, concretely relates to automatic device of tailorring of steel band, including the base, set up the moving mechanism on the base, set up the removal seat on the moving mechanism, set up the cutting mechanism on removing the seat, set up the anti-sticking steel band mechanism on removing the seat, set up the steel band fixed length mechanism on removing the seat to and set up in the steel band feeding mechanism of base one side. The utility model discloses having set up feeding mechanism, steel band fixed length mechanism, steel band and having cut the mechanism, having realized the automation basically from material loading, the fixed length of steel band and the process of cutting, need not artificial intervention, improved and cut efficiency, reduced manufacturing cost, simultaneously the utility model discloses an automatic control has ensured the uniformity of steel band length, and the notched roughness of steel band is good, can carry out the adaptability adjustment according to the product demand of different specifications, and it is high to use the flexibility ratio. In addition, this application has set up anti-sticking steel band mechanism, can avoid the steel band to cut the condition that the process appears blocking.

Description

Automatic cutting device for steel belt

Technical Field

The utility model relates to a fuel cell technical field, concretely relates to automatic device of tailorring of steel band.

Background

A fuel cell is a chemical device that directly converts chemical energy of fuel into electrical energy, and is also called an electrochemical generator. It is a fourth power generation technology following hydroelectric power generation, thermal power generation and atomic power generation. The fuel cell converts the Gibbs free energy in the chemical energy of the fuel into electric energy through electrochemical reaction without the limitation of Carnot cycle effect, so that the fuel cell has high efficiency, uses the fuel and oxygen as raw materials, has no mechanical transmission part, has no noise pollution and emits few harmful gases. Because the traditional fossil fuel is less and less under the condition of large-scale development and utilization by human beings, in recent years, the development and utilization of environment-friendly energy such as hydrogen energy are increasingly concerned, and the hydrogen-oxygen fuel cell is more and more emphasized by people as an important direction of application of the hydrogen energy, so that research and development are continuously carried out, new products emerge endlessly, and with the development of the fuel cell, a fuel cell engine also begins to walk into the field of people. In the production of fuel cells and fuel cell engines, stacks are required to be stacked, and after stacking is completed, the stacks are bundled, typically by welding using steel bands. Before the steel band is used for bundling, the steel band needs to be cut into a certain length according to the specification of the fuel cell stack, the traditional operation process is that an auxiliary cutting tool is used for cutting after the size is manually determined, the dependence degree on the manual work is high, and the automation degree is low.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides an automatic device of tailorring of steel band.

The utility model discloses a following scheme realizes:

an automatic steel belt cutting device comprises a base, a moving mechanism arranged on the base, a moving seat arranged on the moving mechanism, a cutting mechanism arranged on the moving seat, an anti-blocking steel belt mechanism arranged on the moving seat, a steel belt length fixing mechanism arranged on the moving seat and a steel belt feeding mechanism arranged on one side of the base, wherein the anti-blocking steel belt mechanism is positioned between the cutting mechanism and the steel belt length fixing mechanism; the cutting mechanism comprises a plurality of stand columns arranged on the moving seat, a top plate arranged at the tops of the stand columns, a lifting plate movably connected with the stand columns, a beveling knife arranged at the bottom of the lifting plate, a cutting driving piece arranged on the top plate and used for driving the lifting plate to move, and a cutting die arranged on the moving seat, wherein the position of the cutting die corresponds to that of the beveling knife.

Furthermore, anti-sticking steel band mechanism including set up in remove the jacking driving piece on the seat, with the jacking piece that jacking driving piece output is connected.

Further, steel band fixed length mechanism including set up in the fixed plate that removes a lateral wall, set up in fixed length box on the fixed plate, set up in cylinder in the fixed length box, set up in the drive assembly of fixed length bottom of the case portion, set up in the push down driving piece at fixed length box top, and set up in fixed length box orientation the locating component of steel band feed mechanism one side.

Furthermore, the locating component comprises a locating plate on one side of the fixed-length box body, a long-strip-shaped opening arranged on the locating plate, a first locating wheel and a second locating wheel arranged at the long-strip-shaped opening, a gap is arranged between the first locating wheel and the second locating wheel, a first fixing piece and a second fixing piece are arranged at the bottom of the locating plate, the first locating wheel is connected with the first fixing piece, and the second locating wheel is connected with the second fixing piece.

Furthermore, the moving mechanism comprises an X-axis moving module arranged on the base and a Y-axis moving module connected with the X-axis moving module, and the moving seat is connected with the Y-axis moving module.

Further, the steel belt feeding mechanism comprises a feeding seat, a feeding case arranged on the feeding seat, a feeding assembly arranged on one side of the feeding case, and a steel belt guiding assembly arranged on one side of the feeding case; the feeding assembly comprises a rotating shaft connected with the feeding case, a chassis arranged on the rotating shaft and adjustable supports uniformly arranged on the periphery of the rotating shaft.

Furthermore, the steel strip guiding assembly comprises a guiding frame, a first adjustable guiding frame arranged on one side of the guiding frame, a second adjustable guiding frame arranged on the other side of the guiding frame, and a plurality of guiding shafts arranged between the first adjustable guiding frame and the second adjustable guiding frame.

Furthermore, the bottom of the lifting plate is also provided with a pressure plate.

Furthermore, a material box is arranged on one side of the moving seat, which is far away from the feeding mechanism.

Furthermore, the automatic cutting device for the steel belt further comprises a steel belt passing rack, and the steel belt passing rack is arranged between the steel belt length-fixing mechanism and the steel belt feeding mechanism.

Contrast prior art, the utility model discloses following beneficial effect has:

the utility model discloses set up feeding mechanism, steel band fixed length mechanism, steel band and cut the mechanism, from material loading, the fixed length of steel band and cut the process and all realized the automation basically, need not artificial intervention, improved and cut efficiency, reduced manufacturing cost, simultaneously the utility model discloses an automatic control has ensured the uniformity of steel band length, and the notched roughness of steel band is good, can carry out the adaptability adjustment according to the product demand of different specifications, and it is high to use the flexibility ratio. On the other hand, this application has set up anti-sticking steel band mechanism, can avoid the steel band to cut the condition that the process appears blocking.

Drawings

Fig. 1 is the utility model provides a pair of the structure schematic diagram of the automatic device of tailorring of steel band.

Fig. 2 is a schematic diagram of the cutting mechanism and the steel belt length fixing mechanism of the present invention.

Fig. 3 is a side view of the cutting mechanism and the steel belt length fixing mechanism of the present invention.

The figure comprises the following components:

the device comprises a base 1, a moving mechanism 2, an X-axis moving module 21, a Y-axis moving module 22, a moving seat 3, a material box 31, a cutting mechanism 4, a vertical column 41, a top plate 42, a lifting plate 43, a beveling knife 44, a cutting driving piece 45, a cutting die 46, a material pressing plate 47, an anti-blocking steel strip mechanism 5, a jacking driving piece 51, a jacking piece 52, a steel strip length fixing mechanism 6, a fixing plate 61, a length fixing box 62, a roller 63, a driving component 64, a downward pressing driving piece 65, a positioning component 66, a positioning plate 661, a long-strip-shaped opening 662, a first positioning wheel 663, a second positioning wheel 664, a first fixing piece 665, a second fixing piece 666, a steel strip feeding mechanism 7, a feeding seat 71, a feeding machine box 72, a feeding component 73, a rotating shaft 731, a chassis 732, an adjustable support 733, a steel strip guiding component 74, a guiding frame 741, a first adjustable guiding frame 742, a second adjustable guiding frame 743, a guiding shaft 744 and a steel strip passing frame 8.

Detailed Description

To facilitate understanding of the invention for those skilled in the art, the invention will be described in further detail with reference to specific embodiments and the accompanying drawings.

Referring to fig. 1 to 3, the utility model provides a pair of automatic device of tailorring of steel band, including base 1, set up in moving mechanism 2 on the base 1, set up in moving seat 3 on the moving mechanism 2, set up in moving cutting mechanism 4 on the seat 3, set up in remove anti-sticking steel band mechanism 5 on the seat 3, set up in remove steel band fixed length mechanism 6 on the seat 3, and set up in the steel band feeding mechanism 7 of base 1 one side, anti-sticking steel band mechanism 5 is located cutting mechanism with between the steel band fixed length mechanism 6, steel band fixed length mechanism 6 set up in it is close to move the seat 3 one side of steel band feeding mechanism 7. In this embodiment, the feeding mechanism is an independent module and is not connected with the base 1, so that the operation stations can be flexibly transferred according to specific production requirements.

The cutting mechanism 4 comprises a plurality of upright posts 41 arranged on the movable base 3, a top plate 42 arranged at the tops of the upright posts 41, a lifting plate 43 movably connected with the upright posts 41, a beveling knife 44 arranged at the bottom of the lifting plate 43, a cutting driving part 45 arranged on the top plate 42 and used for driving the lifting plate 43 to move, and a cutting die 46 arranged on the movable base 3, wherein the position of the cutting die 46 corresponds to that of the beveling knife 44. After the steel strip passes through the cutting die 46, the cutting driving member 45 drives the lifting plate 43 to move downwards, so that the inclined cutting knife 44 and the cutting die 46 are matched to cut the steel strip. In this embodiment, the cutting drive member 45 employs a cylinder. The bottom of the lifting plate 43 is also provided with a material pressing plate 47, and the material pressing plate 47 can be arranged to be of a spring buffering structure, so that the steel belt can be pressed when the steel belt is cut.

The anti-jamming steel belt mechanism 5 comprises a jacking driving piece 51 arranged on the movable seat 3 and a jacking piece 52 connected with the output end of the jacking driving piece 51. After the steel band is cut off, the steel band continues the in-process that removes, and the steel band can drop under the action of gravity, and its tip probably contacts and is blocked with certain part and block, consequently jacking piece 52 upwards moves under the effect of jacking driving piece 51, with the steel band jack-up, can avoid the condition that the card area appears in the steel band. In this embodiment, the jacking driving member 51 employs an air cylinder.

The steel belt length control mechanism 6 comprises a fixing plate 61 arranged on the side wall of the movable seat 3, a length control box 62 arranged on the fixing plate 61, a roller 63 (not shown in the figure) arranged in the length control box 62, a driving component 64 arranged at the bottom of the length control box 62, a downward pressing driving component 65 arranged at the top of the length control box 62, and a positioning component 66 arranged at one side of the length control box 62 facing the steel belt feeding mechanism 7. The drive assembly 64 may employ a motor and a gear train, the motor transmitting power to the drum 63 through the gear train, thereby driving the drum 63 to rotate. The roller 63 can specifically adopt a roller 63 with adhesive to increase friction force, the pushing driving part 65 can adopt a cylinder (the output end of the cylinder can be connected with a roller), the steel belt passes through the positioning component 66 and then reaches the upper part of the roller 63, the pushing driving part 65 pushes the steel belt to the roller 63, and when the roller 63 rotates, the roller 63 can drive the steel belt to move. By setting the number of rotations of the motor of the driving assembly 64, the feeding distance of the steel strip can be set, thereby setting the cutting length of the steel strip.

The locating component plays the effect of fixing a position and leading the steel band, the direction subassembly include with the locating plate 661 of fixed length box 62 one side, set up in rectangular form opening 662 on the locating plate 661, set up in first locating wheel 663 and the second locating wheel 664 of rectangular form opening 662 department, the interval has between first locating wheel 663 and the second locating wheel 664, the bottom of locating plate 661 is provided with first mounting 665 and second mounting 666, first locating wheel 663 with first mounting 665 is connected, second locating wheel 664 and second mounting 666 are connected. Specifically, the shaft of the first positioning wheel 663 passes through the long strip-shaped opening 662 and is connected with the first fixing piece 665 at the bottom, and after the position of the positioning wheel is adjusted, the first fixing piece 665 and the positioning plate 661 are locked, and the adjustment of the second positioning wheel 664 is also the same. The distance between the first positioning wheel 663 and the second positioning wheel 664 can be flexibly adjusted according to the specification of the steel strip, so that the cutting device is suitable for cutting operation of different steel strips.

The moving mechanism 2 comprises an X-axis moving module 21 arranged on the base 1 and a Y-axis moving module 22 connected with the X-axis moving module 21, and the moving seat 3 is connected with the Y-axis moving module 22. The matching of the X-axis moving module 21 and the Y-axis moving module 22 can drive the moving base 3 to move, so that the position of the moving base 3 can be flexibly adjusted according to actual working conditions.

The steel belt feeding mechanism 7 comprises a feeding seat 71, a feeding case 72 arranged on the feeding seat 71, a feeding assembly 73 arranged on one side of the feeding case 72, and a steel belt guiding assembly 74 arranged on one side of the feeding case 72; the feeding assembly 73 includes a rotating shaft 731 connected to the feeding box, a chassis 732 disposed on the rotating shaft 731, and adjustable supports 733 uniformly disposed around the rotating shaft 731. The steel strip stock is typically in the form of a coil and the steel strip coil is mounted to an adjustable support 733. The adjustable support 733 can adjust the distance of the expansion, so that the material roll can be adjusted adaptively according to different specifications. In addition, a motor can be arranged to drive the rotating shaft 731 to rotate, so that the steel belt can be unreeled in an auxiliary mode.

The steel strip guide assembly 74 includes a guide frame 741, a first adjustable guide frame 742 disposed at one side of the guide frame 741, a second adjustable guide frame 743 disposed at the other side of the guide frame 741, and a plurality of guide shafts 744 disposed between the first adjustable guide frame 742 and the second adjustable guide frame 743. Specifically, the guide frame 741 is provided with a plurality of adjusting screws for adjusting the first adjustable guide 742 and the second adjustable guide 743, and when the screws are rotated, the height or angle of the first adjustable guide 742 or the second adjustable guide 743 can be adjusted (the height and angle of the screws can be adjusted, respectively).

One side of the moving seat 3 far away from the feeding mechanism is also provided with a material box 31, and the material box 31 can be used for storing materials.

The automatic steel belt cutting device further comprises a steel belt passing rack 8, and the steel belt passing rack 8 is arranged between the steel belt length-fixing mechanism 6 and the steel belt feeding mechanism 7. The material passing frame can be adaptively arranged according to the distance between the feeding mechanism and the base 1, and is fixed by an additional support frame (not shown in the figure).

During specific operation, firstly, a steel belt material coil is installed on the feeding assembly 73, the steel belt guide mechanism is adjusted, a steel belt is pulled out, enters the steel belt length fixing mechanism 6 after passing through the steel belt guide mechanism and the steel belt material passing rack 8, and then passes through the steel belt cutting mechanism. After the steel belt length fixing mechanism 6 drives the steel belt to move, the steel belt cutting mechanism cuts off the steel belt, and the cutting operation is completed.

The utility model discloses set up feeding mechanism, steel band fixed length mechanism 6, steel band and cut the mechanism, from material loading, the fixed length of steel band and cut the process and all realized the automation basically, need not artificial intervention, improved and cut efficiency, reduced manufacturing cost, simultaneously the utility model discloses an automatic control has ensured the uniformity of steel band length, and the notched roughness of steel band is good, can carry out the adaptability adjustment according to the product demand of different specifications, and it is high to use the flexibility ratio. On the other hand, this application has set up anti-sticking steel band mechanism 5, can avoid the steel band to cut the condition that the in-process appears blocking.

In the description of the present invention, it should be understood that the indicated orientation or positional relationship is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of the description, and does not indicate or imply that the indicated device or element must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention.

Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to implicitly indicate a number of the indicated technical features. 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.

In the present invention, unless otherwise explicitly stated or limited, the terms "connected" and "fixed" are to be understood broadly, and may be, for example, fixedly connected, detachably connected, or integrated; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or may be connected through the use of two elements or the interaction of two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.

While the invention has been described in conjunction with the specific embodiments set forth above, it is evident that many alternatives, modifications, and variations will be apparent to those skilled in the art in light of the foregoing description. Accordingly, it is intended to embrace all such alternatives, modifications, and variations that fall within the scope of the included claims.

Claims (10)

1. An automatic steel belt cutting device is characterized by comprising a base, a moving mechanism arranged on the base, a moving seat arranged on the moving mechanism, a cutting mechanism arranged on the moving seat, an anti-sticking steel belt mechanism arranged on the moving seat, a steel belt length fixing mechanism arranged on the moving seat and a steel belt feeding mechanism arranged on one side of the base, wherein the anti-sticking steel belt mechanism is positioned between the cutting mechanism and the steel belt length fixing mechanism, and the steel belt length fixing mechanism is arranged on one side, close to the steel belt feeding mechanism, of the moving seat; the cutting mechanism comprises a plurality of stand columns arranged on the moving seat, a top plate arranged at the tops of the stand columns, a lifting plate movably connected with the stand columns, a beveling knife arranged at the bottom of the lifting plate, a cutting driving piece arranged on the top plate and used for driving the lifting plate to move, and a cutting die arranged on the moving seat, wherein the position of the cutting die corresponds to that of the beveling knife.

2. The automatic steel strip cutting device according to claim 1, wherein the anti-jamming steel strip mechanism comprises a jacking driving member disposed on the movable base, and a jacking member connected to an output end of the jacking driving member.

3. The automatic steel belt cutting device according to claim 2, wherein the steel belt length control mechanism comprises a fixed plate arranged on the side wall of the moving seat, a length control box body arranged on the fixed plate, a roller arranged in the length control box body, a driving component arranged at the bottom of the length control box body, a pressing driving component arranged at the top of the length control box body, and a positioning component arranged at one side of the length control box body facing the steel belt feeding mechanism.

4. The automatic steel strip cutting device according to claim 3, wherein the positioning assembly comprises a positioning plate arranged on one side of the length fixing box body, an elongated opening arranged on the positioning plate, a first positioning wheel and a second positioning wheel which are arranged at the elongated opening, a space is arranged between the first positioning wheel and the second positioning wheel, a first fixing piece and a second fixing piece are arranged at the bottom of the positioning plate, the first positioning wheel is connected with the first fixing piece, and the second positioning wheel is connected with the second fixing piece.

5. The automatic steel strip cutting device according to claim 2, wherein the moving mechanism comprises an X-axis moving module disposed on the base, and a Y-axis moving module connected to the X-axis moving module, and the moving base is connected to the Y-axis moving module.

6. The automatic steel belt cutting device according to claim 1, wherein the steel belt feeding mechanism comprises a feeding seat, a feeding case arranged on the feeding seat, a feeding assembly arranged on one side of the feeding case, and a steel belt guiding assembly arranged on one side of the feeding case; the feeding assembly comprises a rotating shaft connected with the feeding case, a chassis arranged on the rotating shaft, and adjustable supports uniformly arranged on the periphery of the rotating shaft.

7. The automatic steel strip cutting device according to claim 6, wherein the steel strip guiding assembly comprises a guiding frame, a first adjustable guiding frame arranged on one side of the guiding frame, a second adjustable guiding frame arranged on the other side of the guiding frame, and a plurality of guiding shafts arranged between the first adjustable guiding frame and the second adjustable guiding frame.

8. The automatic steel belt cutting device according to claim 1, wherein a material pressing plate is further arranged at the bottom of the lifting plate.

9. The automatic steel strip cutting device according to claim 1, wherein a magazine is further disposed on a side of the moving seat away from the feeding mechanism.

10. The automatic steel strip cutting device according to claim 1, further comprising a steel strip passing frame disposed between the steel strip length determining mechanism and the steel strip feeding mechanism.

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