CN216551299U - Intelligent device suitable for edge cutting machine - Google Patents

Abstract

The utility model provides an intelligent device suitable for an edge cutting machine, which comprises a main body frame, a material storage part, a material loading part, an adjusting part and an intelligent control part, wherein the material storage part is arranged on the main body frame; the main body frame comprises a base, a side seat and an operating seat; the material storage part comprises a material storage side plate, a material storage mechanism and a quantifying mechanism; the feeding part comprises a feeding side plate, a vertical feeding mechanism and a feeding adjusting mechanism; the adjusting part comprises a third push rod motor, an auxiliary plate and an adjusting roll shaft; the intelligent control part comprises a scale mechanism, a control mechanism, an early warning mechanism and a feedback mechanism. The semi-automatic feeding to the cloth can be realized, the cloth position is convenient to adjust, and the labor intensity is obviously reduced. Can be operated by a single person, optimizes the production flow and improves the production efficiency.

Description

Intelligent device suitable for edge cutting machine

Technical Field

The utility model relates to the field of edge cutting machines, in particular to an intelligent device suitable for an edge cutting machine.

Background

The waterproof fabric is a novel textile fabric and is formed by compounding a high-molecular waterproof breathable material (PTFE film) and cloth.

In the compounding process, a laminating machine is used for processing corresponding processes, so as to obtain a better waterproof fabric finished product. Generally, the size of a semi-finished product subjected to film covering processing is slightly larger than that of a target product, and then the waterproof fabric is subjected to subsequent processing by using an edge cutting machine, so that the waterproof fabric needs to be transferred in the process, the labor intensity is high, the adjustment is difficult, and the processing efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model provides an intelligent device suitable for an edge cutting machine, and solves the problems of difficult feeding, high labor intensity, inconvenient adjustment, low efficiency and the like of the traditional edge cutting machine.

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

the utility model provides an intelligent device suitable for cutting edge machine, includes main body frame, stock part, material loading part, adjustment part and intelligent control part.

The main body frame comprises a base, a side seat and an operation seat.

The base comprises a cuboid hollow container I.

The upper bottom plate of the cuboid hollow container is provided with two circular through holes, a first strip-shaped through hole and a first rectangular through hole.

The side seat is arranged on the base and comprises a cuboid hollow container II.

The operating seat is arranged on the side seat.

The operation seat comprises a cuboid hollow container III, wherein two strip-shaped grooves I, a rectangular through hole II and a rectangular groove I are arranged on an upper bottom plate of the cuboid hollow container III.

The material storage part comprises a material storage side plate, a material storage mechanism and a quantifying mechanism.

The material storage side plates are arranged two and located on an upper base plate of the cuboid hollow container, and the material storage side plates are located on the inner sides of the first circular through hole and the first strip-shaped through hole.

The left end of the material storage side plate is higher than the right end.

The material storage mechanism comprises a chain type transmission chain structure and a first push rod motor.

The chain type transmission chain structure is composed of a chain type transmission chain and a transmission shaft.

And a plurality of U-shaped limiting clamps are arranged on the chain type conveying chain at equal intervals.

The chain type conveying chain mechanism is arranged on the inner wall of the material storage side plate.

The first push rod motor is arranged in the first cuboid hollow container, and the movable end of the first push rod motor is connected in the first circular through hole in a sliding mode.

A T-shaped connecting rod is arranged at the movable end of the first push rod motor; and the left end of the T-shaped connecting rod is higher than the right end.

The quantitative mechanism comprises a screw motor and a push rod motor II.

The screw rod motor is arranged in the cuboid hollow container I.

The second push rod motor is arranged on a rotor of the screw rod motor, and the movable end of the second push rod motor is connected in the first strip-shaped through hole in a sliding mode; and a separation rod is arranged at the movable end of the push rod motor II.

The feeding part comprises a feeding side plate, a vertical feeding mechanism and a feeding adjusting mechanism.

The material loading curb plate sets up two, is located cuboid hollow container upper base plate, and material loading curb plate upper base surface is "J" shape, and material loading curb plate left end is higher than the right-hand member, and the right-hand member is higher than the middle part.

The vertical feeding mechanism comprises an electric lifting device; the electric lifting device is arranged in the cuboid hollow container I and is positioned below the rectangular through hole.

The feeding adjusting mechanism comprises an L-shaped limiting hook, a sliding rail and a movable limiting rod.

The L-shaped limiting hook is arranged on the movable end of the electric lifting device.

One end of the slide rail is arranged on an upper bottom plate of the cuboid hollow container; the other end is arranged on the left side plate of the cuboid hollow container III.

One end of the movable limiting rod is connected with the right end of the L-shaped limiting hook through a pin shaft.

The other end of the movable limiting rod is connected in the sliding rail in a sliding manner through a roller; and the movable limiting rod is matched with the strip-shaped groove I.

The adjusting part comprises a third push rod motor, an auxiliary plate and an adjusting roller shaft.

And the third push rod motor is arranged in the third cuboid hollow container.

The auxiliary plate is arranged at the movable end of the third push rod motor, and the section of the auxiliary plate is M-shaped.

The adjusting roll shafts are arranged in the first rectangular through holes at equal intervals; and the adjusting roll shaft is positioned above the third push rod motor.

The intelligent control part comprises a scale mechanism, a control mechanism, an early warning mechanism and a feedback mechanism.

The scale mechanism comprises a first distance sensor module, a second distance sensor module, a first sliding rod, a fixed rod, a movable rod, a laser positioning instrument and a display.

The first sliding rod is arranged in the first rectangular groove.

The fixed rod is arranged on the first sliding rod.

The two movable rods are arranged and are connected to the first sliding rod in a sliding mode, and the two movable rods are located on two sides of the fixed rod respectively.

The first distance sensor module and the second distance sensor module are both arranged in two and symmetrically arranged in the first rectangular groove.

The laser positioning instrument is arranged on the three upper bottom plates of the cuboid hollow container through the mounting frame.

The display is arranged on the three upper bottom plates of the cuboid hollow container.

The control mechanism comprises a starting button, a feeding button, a metering marking button and a quantitative adjusting button.

The starting button, the feeding button and the metering mark button are arranged on the three upper bottom plates of the cuboid hollow container.

The quantitative adjusting button is arranged on a front side plate of the cuboid hollow container.

The early warning mechanism comprises a voice module, a color-variable light-emitting diode and a loudspeaker.

The voice module is arranged in the cuboid hollow container III.

The color-changeable light-emitting diode and the loudspeaker are arranged on the three upper bottom plates of the cuboid hollow container.

The feedback mechanism comprises a third distance sensor module, a fourth distance sensor module, an infrared obstacle avoidance sensor module and a microprocessor.

And the third distance sensor module is arranged on an upper bottom plate of the cuboid hollow container.

The distance sensor module four-way joint is arranged on the movable end of the electric lifting device through the mounting frame.

The infrared obstacle avoidance sensor module is arranged in the cuboid hollow container III, and the infrared obstacle avoidance sensor module is located below the rectangular through hole II.

The microprocessor is arranged in the cuboid hollow container I.

The device comprises a first push rod motor, a lead screw motor, a second push rod motor, an electric lifting device, a third push rod motor, a first distance sensor module, a second distance sensor module, a first sliding rod, a fixed rod, a movable rod, a laser positioning instrument, a display, a starting button, a feeding button, a metering mark button, a quantitative adjusting button, a voice module, a color-variable light-emitting diode, a loudspeaker, a third distance sensor module, a fourth distance sensor module, and an infrared obstacle avoidance sensor module electrically connected with a microprocessor.

Preferably, a laser positioning instrument device is used for replacing a laser positioning instrument, and the laser positioning instrument device comprises a first laser positioning instrument and a fourth push rod motor; the first laser positioning instrument is arranged on the side plate of the side seat through a fourth push rod motor and the mounting plate, and the fourth push rod motor is electrically connected with the microprocessor.

Furthermore, a synchronous motor is additionally arranged on the cuboid hollow container I, and the synchronous motor is fixedly connected with the transmission shaft through a reduction gear box.

Compared with the prior art, the method has the beneficial effects that:

according to the utility model, through the integrated arrangement of the main body frame, the material storage part, the material loading part, the adjusting part and the intelligent control part, the semi-automatic material loading of the cloth is realized, the cloth position is convenient to adjust, and the labor intensity is obviously reduced. Can be operated by a single person, optimizes the production flow and improves the production efficiency.

Drawings

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

FIG. 2 is a schematic front view of a partial cross-sectional structure according to the present invention.

In the figure: 101. the device comprises a first cuboid hollow container, a second cuboid hollow container, a third cuboid hollow container, a second cuboid hollow container, a strip-shaped groove, a first rectangular groove, a second rectangular through hole, a 106 rectangular groove, a first rectangular groove, a 201 material storage side plate, a 202U-shaped limiting clamp, a 203, a first push rod motor, a 204T-shaped connecting rod, a 301 lead screw motor, a 302 push rod motor, a second push rod motor, a 401 material loading side plate, a 402 electric lifting device, a 501L-shaped limiting hook, a 502 sliding rail, a 503 movable limiting rod, a 601 push rod motor, a third push rod motor, a 602, an auxiliary plate, a 603, an adjusting roller shaft, a 701, a first sliding rod, a 702, a fixed rod, a 703, a movable rod, 704 and a laser positioning instrument.

Detailed Description

Embodiment 1, referring to fig. 1-2, an intelligent device suitable for an edge cutting machine comprises a main body frame, a material storage part, a material loading part, an adjusting part and an intelligent control part.

The main body frame comprises a base, a side seat and an operation seat.

The base comprises a cuboid hollow container I101.

The upper bottom plate of the cuboid hollow container I101 is provided with two circular through holes, a first strip-shaped through hole and a first rectangular through hole.

The side seat is arranged on the base and comprises a second cuboid hollow container 102.

The operating seat is arranged on the side seat.

The operation seat comprises a cuboid hollow container III 103, and two strip-shaped grooves I104, a rectangular through hole II 105 and a rectangular groove I106 are arranged on an upper bottom plate of the cuboid hollow container III 103.

The material storage part comprises a material storage side plate 201, a material storage mechanism and a quantitative mechanism.

The material storage side plates 201 are arranged two and located on the upper bottom plate of the cuboid hollow container I101, and the material storage side plates 201 are located on the inner sides of the first circular through hole and the first strip-shaped through hole.

The left end of the material storage side plate 201 is higher than the right end.

The material storing mechanism comprises a chain type transmission chain structure and a first push rod motor 203.

The chain type transmission chain structure is composed of a chain type transmission chain and a transmission shaft.

A plurality of U-shaped limit cards 202 are arranged on the chain type conveying chain at equal intervals.

The chain type conveying chain mechanism is arranged on the inner wall of the material storage side plate 201.

The first push rod motor 203 is arranged in the first cuboid hollow container 101, and the movable end of the first push rod motor 203 is connected in the first circular through hole in a sliding mode.

A T-shaped connecting rod 204 is arranged at the movable end of the first push rod motor 203; and the left end of the T-shaped connecting rod 204 is higher than the right end.

The quantitative mechanism comprises a screw motor 301 and a second push rod motor 302.

The screw rod motor 301 is arranged in the cuboid hollow container I101.

The second push rod motor 302 is arranged on the rotor of the screw rod motor 301, and the movable end of the second push rod motor 302 is connected in the first strip-shaped through hole in a sliding manner; a separation rod is arranged at the movable end of the second push rod motor 302.

The feeding part comprises a feeding side plate 401, a vertical feeding mechanism and a feeding adjusting mechanism.

The material loading curb plate 401 sets up two, is located cuboid hollow container 101 upper base plate, and material loading curb plate 401 goes up the bottom surface and is "J" shape, and material loading curb plate 401 left end is higher than the right-hand member, and the right-hand member is higher than the middle part.

The vertical feed mechanism includes an electric lift 402; the electric lifting device 402 is arranged in the rectangular hollow container I101, and the electric lifting device 402 is positioned below the rectangular through hole.

The feeding adjusting mechanism comprises an L-shaped limiting hook 501, a sliding rail 502 and a movable limiting rod 503.

The L-shaped limit hook 501 is disposed at the movable end of the electric lift device 402.

One end of the slide rail 502 is arranged on the upper bottom plate of the first cuboid hollow container 101; the other end is arranged on the left side plate of the third cuboid hollow container 103.

One end of the movable limiting rod 503 is connected to the right end of the L-shaped limiting hook 501 through a pin shaft.

The other end of the movable limiting rod 503 is slidably connected in the slide rail 502 through a roller; and the movable limiting rod 503 is matched with the first strip-shaped groove 104.

The adjusting portion includes a third push rod motor 601, an auxiliary plate 602, and an adjusting roller shaft 603.

The third push rod motor 601 is arranged in the third cuboid hollow container 103.

The auxiliary plate 602 is arranged at the movable end of the third push rod motor 601, and the section of the auxiliary plate 602 is M-shaped.

The adjusting roll shafts 603 are arranged in the first rectangular through holes at equal intervals; and the adjustment roller 603 is located above the third push rod motor 601.

The intelligent control part comprises a scale mechanism, a control mechanism, an early warning mechanism and a feedback mechanism.

The scale mechanism comprises a first distance sensor module, a second distance sensor module, a first sliding rod 701, a fixed rod 702, a movable rod 703, a laser positioning instrument 704 and a display.

The first slide rod 701 is arranged in the first rectangular groove 106.

The fixing rod 702 is disposed on the first sliding rod.

The number of the movable rods 703 is two, the movable rods 703 are slidably connected to the first sliding rod, and the two movable rods 703 are respectively located at two sides of the fixed rod 702.

The first distance sensor module and the second distance sensor module are arranged in two and are symmetrically arranged in the first rectangular groove 106.

The laser positioning instrument 704 is arranged on the upper bottom plate of the cuboid hollow container III 103 through a mounting frame.

The display is arranged on the upper bottom plate of the cuboid hollow container III 103.

The control mechanism comprises a starting button, a feeding button, a metering marking button and a quantitative adjusting button.

The starting button, the feeding button and the metering mark button are arranged on the upper bottom plate of the cuboid hollow container III 103.

The quantitative adjusting button is arranged on a front side plate of a cuboid hollow container I101.

The early warning mechanism comprises a voice module, a color-variable light-emitting diode and a loudspeaker.

The voice module is arranged in the cuboid hollow container III 103.

The color-changeable light-emitting diode and the loudspeaker are arranged on the upper bottom plate of the cuboid hollow container III 103.

The feedback mechanism comprises a third distance sensor module, a fourth distance sensor module, an infrared obstacle avoidance sensor module and a microprocessor.

And the third distance sensor module is arranged on the upper bottom plate of the first cuboid hollow container 101.

The distance sensor module cross is disposed on the movable end of the electrical lift device 402 via a mounting bracket.

The infrared obstacle avoidance sensor module is arranged in the cuboid hollow container III 103, and the infrared obstacle avoidance sensor module is located below the rectangular through hole II 105.

The microprocessor is arranged in the cuboid hollow container I101.

The device comprises a first push rod motor 203, a screw rod motor 301, a second push rod motor 302, an electric lifting device 402, a third push rod motor 601, a first distance sensor module, a second distance sensor module, a first slide rod 701, a fixed rod 702, a movable rod 703, a laser positioning instrument 704, a display, a starting button, a feeding button, a metering marking button, a quantitative adjusting button, a voice module, a color-changeable light emitting diode, a loudspeaker, a third distance sensor module, a fourth distance sensor module, an infrared obstacle avoidance sensor module and a microprocessor, wherein the first push rod motor is electrically connected with the second distance sensor module, the first slide rod 701, the fixed rod 702, the movable rod 703, the laser positioning instrument 704, the display, the starting button, the feeding button, the metering marking button, the quantitative adjusting button, the voice module, the color-changeable light emitting diode, the loudspeaker, the third distance sensor module, the fourth distance sensor module, the infrared obstacle avoidance sensor module and the microprocessor.

The working principle and the using method are as follows:

step one, presetting:

mounting the device to the front end of a feed inlet of an edge cutting machine; and adjusting the position of the knife edge of the edge cutting machine according to the requirement.

And power supply debugging is carried out on the device.

Step two, scale correction:

and starting the laser positioning instrument 704, and aligning a cursor of the laser positioning instrument 704 to a knife edge of the edge cutting machine. The sliding movable rod 703 is aligned with the cursor of the laser locator 704.

The data of the measuring mark button is clicked, the first distance sensor module and the second distance sensor module collect the data of the movable rod 703 and the fixed rod 702, the data are output to the microprocessor for processing, and the microprocessor outputs signals to the display and the voice module. The distance between two movable rods 703 is shown to the display, and voice module reports through the speaker to verify the edge cutting machine knife edge position.

Step three, storing materials:

the rolls of material are placed in turn on the "U" shaped limit clips 202 of the chain conveyor.

According to the distance between the fabric rolls, a quantitative adjusting button is pressed, the microprocessor outputs a signal to the linear motor, and the rotor of the linear motor drives the second push rod motor 302 to run to a proper position, so that the separating rod can limit one fabric roll to enter the T-shaped connecting rod 204 at a time.

Step four, feeding:

an operator clicks a feeding button, and the microprocessor outputs signals to the second push rod motor 302 and the first push rod motor 203; the second push rod motor 302 moves downwards, the cloth roll slides downwards to the left end of the feeding side plate 401 under the action of gravity, then the second push rod motor 302 resets, and the first push rod motor 203 moves upwards to push the cloth roll onto the feeding side plate 401.

After that, the microprocessor outputs a signal to the electric lifting device 402, and the electric lifting device 402 drives the cloth roll to move upwards through the L-shaped limit hook 501.

When the movable end of the electric lifting device 402 is level with the upper bottom plate of the cuboid hollow container three 103, the movable limiting rod 503 slides into the strip-shaped groove.

The operator pushes the cloth roll onto the adjustment roller 603; the infrared obstacle avoidance sensor module outputs signals to the microprocessor, the microprocessor outputs signals to the third push rod motor 601, and the third push rod motor 601 drives the auxiliary plate 602 to move downwards.

Meanwhile, the distance sensor module four outputs a signal to the microprocessor, the microprocessor outputs a signal to the electric lifting device 402, and the electric lifting device 402 is reset.

And an operator pulls the cloth roll to move on the adjusting roller to obtain the optimal cutting position. In this operation, position correction is provided by the scale mechanism.

Fifthly, early warning:

when the third distance sensor module does not detect the cloth roll or the movable rod 703 abnormally moves, the microprocessor outputs a signal to the color-changeable light-emitting diode and the voice module, the color-changeable light-emitting diode displays red, and the voice module reminds an operator to overhaul or add the cloth roll through the loudspeaker.

Embodiment 2, on the basis of embodiment 1, a laser positioning device is used to replace a laser positioning device 704, and the laser positioning device includes a first laser positioning device and a fourth push rod motor; the first laser positioning instrument is arranged on the side plate of the side seat through a fourth push rod motor and an installation plate, and the fourth push rod motor is electrically connected with the microprocessor; reducing its interference with the use of the device.

Embodiment 3, on the basis of embodiment 1, add synchronous machine on cuboid hollow container 101, synchronous machine links firmly through reduction gear box and transmission shaft.

Claims (10)

1. The utility model provides an intelligent device suitable for cutting edge machine which characterized in that:

comprises a main body frame, a material storage part, a material loading part, an adjusting part and an intelligent control part;

the main body frame comprises a base, a side seat and an operating seat;

the material storage part comprises a material storage side plate, a material storage mechanism and a quantifying mechanism;

the feeding part comprises a feeding side plate, a vertical feeding mechanism and a feeding adjusting mechanism;

the feeding side plate is positioned on an upper bottom plate of the cuboid hollow container, the upper bottom surface of the feeding side plate is J-shaped, the left end of the feeding side plate is higher than the right end of the feeding side plate, and the right end of the feeding side plate is higher than the middle part of the feeding side plate;

the vertical feeding mechanism comprises an electric lifting device; the electric lifting device is arranged in the first cuboid hollow container and is positioned below the rectangular through hole;

the feeding adjusting mechanism comprises an L-shaped limiting hook, a sliding rail and a movable limiting rod;

the adjusting part comprises a third push rod motor, an auxiliary plate and an adjusting roll shaft;

the intelligent control part comprises a scale mechanism, a control mechanism, an early warning mechanism and a feedback mechanism.

2. The intelligent device suitable for the edge cutting machine according to claim 1, characterized in that:

the base comprises a cuboid hollow container I;

an upper bottom plate of the rectangular hollow container I is provided with a circular through hole, a strip-shaped through hole I and a rectangular through hole I;

the side seat is arranged on the base and comprises a second cuboid hollow container;

the operating seat is arranged on the side seat;

the operation seat comprises a cuboid hollow container III, and a strip-shaped groove I, a rectangular through hole II and a rectangular groove I are arranged on an upper bottom plate of the cuboid hollow container III.

3. The intelligent device suitable for the edge cutting machine according to claim 1, characterized in that:

the material storage side plate is positioned on an upper bottom plate of the first cuboid hollow container and positioned on the inner sides of the first circular through hole and the first strip-shaped through hole;

the left end of the material storage side plate is higher than the right end.

4. The intelligent device suitable for the edge cutting machine according to claim 1, characterized in that:

the material storage mechanism comprises a chain type transmission chain structure and a first push rod motor;

the chain type transmission chain structure consists of a chain type transmission chain and a transmission shaft;

the chain type conveying chain is provided with a U-shaped limiting clamp;

the chain type conveying chain mechanism is arranged on the inner wall of the material storage side plate;

the first push rod motor is arranged in the first cuboid hollow container, and the movable end of the first push rod motor is connected in the first circular through hole in a sliding mode;

a T-shaped connecting rod is arranged at the movable end of the first push rod motor; and the left end of the T-shaped connecting rod is higher than the right end.

5. The intelligent device suitable for the edge cutting machine according to claim 1, characterized in that:

the quantitative mechanism comprises a screw motor and a push rod motor II;

the screw rod motor is arranged in the cuboid hollow container I;

the second push rod motor is arranged on a rotor of the screw rod motor, and the movable end of the second push rod motor is connected in the first strip-shaped through hole in a sliding mode; and a separation rod is arranged at the movable end of the push rod motor II.

6. The intelligent device suitable for the edge cutting machine according to claim 1, characterized in that:

the L-shaped limiting hook is arranged on the movable end of the electric lifting device;

one end of the slide rail is arranged on an upper bottom plate of the cuboid hollow container; the other end is arranged on the left side plate of the cuboid hollow container III;

one end of the movable limiting rod is connected to the right end of the L-shaped limiting hook through a pin shaft;

the other end of the movable limiting rod is connected in the sliding rail in a sliding manner through a roller; and the movable limiting rod is matched with the strip-shaped groove I.

7. The intelligent device suitable for the edge cutting machine according to claim 1, characterized in that:

the push rod motor III is arranged in the cuboid hollow container III;

the auxiliary plate is arranged at the movable end of the third push rod motor, and the section of the auxiliary plate is M-shaped;

the adjusting roll shaft is arranged in the first rectangular through hole.

8. The intelligent device suitable for the edge cutting machine according to claim 1, characterized in that:

the scale mechanism comprises a first distance sensor module, a second distance sensor module, a first sliding rod, a fixed rod, a movable rod, a laser positioning instrument and a display;

the first sliding rod is arranged in the first rectangular groove;

the fixed rod is arranged on the first sliding rod;

the movable rods are connected to the first sliding rods in a sliding mode and are located on two sides of the fixed rods respectively;

the first distance sensor module and the second distance sensor module are arranged in the first rectangular groove;

the laser positioning instrument is arranged on the third upper bottom plate of the cuboid hollow container through the mounting frame.

9. The intelligent device suitable for the edge cutting machine according to claim 1, characterized in that:

and a synchronous motor is additionally arranged on the cuboid hollow container I, the synchronous motor is fixedly connected with the transmission shaft through a reduction gear box, and the synchronous motor is electrically connected with the microprocessor.

10. An intelligent device suitable for an edge cutting machine according to claim 8, wherein:

replacing the laser positioning instrument by using a laser positioning instrument device, wherein the laser positioning instrument device comprises a first laser positioning instrument and a fourth push rod motor; the first laser positioning instrument is arranged on a side plate of the side seat through a fourth push rod motor and the mounting plate.

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