CN215755381U - Flat-pressing creasing and cutting machine feeding device - Google Patents

Abstract

The application relates to the technical field of creasing and cutting machines, in particular to a feeding device of a creasing and cutting machine, which comprises a feeding frame, wherein a feeding plate used for bearing materials is vertically arranged in the feeding frame in a sliding manner, the feeding frame is provided with a driving assembly used for driving the feeding plate to vertically slide, and the feeding frame is also provided with a control system used for controlling the driving assembly to work. This application utilizes drive assembly drive to go up the flitch and is vertical upward movement, makes the material on the flitch can be by progressively lifting, and the workman's of being convenient for material loading can be simplified workman's material loading step and reduction workman's intensity of labour.

Description

Flat-pressing creasing and cutting machine feeding device

Technical Field

The application relates to the technical field of creasing and cutting machines, in particular to a feeding device of a creasing and cutting machine.

Background

An indentation cutting machine, also known as an indenter, is a machine for cutting various sheet-type materials, such as hardboards, corrugated cardboards, plastics and leather, and is widely used in printing, packaging and decoration industries.

At present, most mills do not have regular loading attachment, and the workman is only stacked the material that needs to process at the material platform usually, and every processing a material of workman all need to move corresponding material platform and get the goods and carry out the material loading again, and this kind of material loading mode is more loaded down with trivial details, and has aggravated workman's intensity of labour. Therefore, further improvements can be made.

SUMMERY OF THE UTILITY MODEL

In order to simplify the material loading step of workman and reduce workman's intensity of labour, this application provides a concora crush indentation tangent line machine loading attachment.

The application provides a pair of concora crush indentation tangent line machine loading attachment adopts following technical scheme:

the feeding device of the creasing and cutting machine comprises a feeding frame, wherein a feeding plate used for bearing materials is vertically and slidably arranged in the feeding frame, the feeding frame is provided with a driving assembly used for driving the feeding plate to vertically slide, and the feeding frame is further provided with a control system used for controlling the driving assembly to work.

By adopting the technical scheme, after the materials on the top surface of the feeding frame are taken out for processing, workers can control the driving assembly to work by utilizing the control system, so that the driving assembly drives the feeding plate to move vertically upwards, the materials on the feeding plate can be lifted gradually, the workers can feed materials conveniently, the feeding steps of the workers can be simplified, and the labor intensity of the workers can be reduced.

Optionally, the inner side of the feeding frame is provided with two opposite side faces, and the two side faces are vertically provided with sliding grooves, each sliding groove is provided with a sliding block in a sliding manner, and two ends of the feeding frame are fixedly connected with the sliding blocks on the two sliding grooves respectively.

Through adopting above-mentioned technical scheme, because go up flitch and slider fixed connection, and the slider slides and sets up on corresponding spout, make and go up the flitch and can be vertical slip along the spout.

Optionally, the driving assembly includes a motor, a screw rod fixedly connected to the motor shaft, and a nut seat in screw transmission with the screw rod, the nut seat is fixedly connected to the feeding plate, and the nut seat drives the feeding plate to move vertically.

Through adopting above-mentioned technical scheme, when the motor started, the frame was done vertical upward movement in the control through the rotation of drive lead screw to the motor, made the material on the flitch can be progressively lifted.

Optionally, the driving assembly includes a motor mounted on the feeding frame, a gear mounted on the motor shaft, and a rack engaged with the gear, the rack is fixedly connected to the feeding plate, and the rack drives the feeding plate to move vertically.

By adopting the technical scheme, when the motor is driven, the motor drives the gear to rotate, and the gear drives the rack to vertically move upwards, so that the feeding plate fixedly connected with the rack can vertically move upwards, and materials on the feeding plate can be gradually lifted.

Optionally, the control system includes a single chip microcomputer, a photoelectric sensor and a frequency converter which are installed at the top of the feeding frame, the photoelectric sensor and the frequency converter are both electrically connected with the single chip microcomputer, the frequency converter is used for controlling the motor to rotate positively/reversely/stop rotating, the control system further includes an upper limit switch and a lower limit switch which are electrically connected with the single chip microcomputer, the upper limit switch is installed at the top of the feeding frame, and the lower limit switch is installed at the inner bottom surface of the feeding frame.

By adopting the technical scheme, the feeding frame is fed, and the material is stacked to the position where the photoelectric sensor is triggered; when the material on the top surface of the feeding frame is taken, the photoelectric sensor sends an uplink signal to the single chip, so that the single chip controls the motor to rotate forwards by controlling the frequency converter, and the screw rod drives the feeding plate to move upwards; when the lower material is conveyed to the position of the triggering photoelectric sensor again, the photoelectric sensor sends a stop signal to the single chip, so that the single chip controls the motor to stop rotating by controlling the frequency converter; when the material on the feeding plate is taken out, the feeding plate continues to ascend, and when the feeding plate ascends to the position of triggering the upper limit switch, the upper limit switch sends a reset signal to the single chip microcomputer, so that the single chip microcomputer controls the motor to rotate reversely by controlling the frequency converter, and the screw rod drives the feeding plate to move downwards; when the feeding plate moves to the position of the lower limit switch, the lower limit switch sends a reset success signal to the single chip microcomputer, the single chip microcomputer controls the motor to stop rotating through the control frequency converter, the feeding plate stops moving, the feeding plate is reset successfully at the moment, and a worker is waited to load materials and carry out next round of circulation.

Optionally, universal wheels are installed on the bottom surface of the feeding frame.

Through adopting above-mentioned technical scheme, owing to be provided with the universal wheel, the workman of being convenient for removes the work or material rest through the universal wheel, conveniently goes up the work of feeding of work or material rest to the material.

Optionally, the feeding frame is provided with a handle.

Through adopting above-mentioned technical scheme, owing to be provided with the handle, the workman can promote to go up the work or material rest and remove through gripping the handle, makes things convenient for the workman to control the moving direction of going up the work or material rest simultaneously, is convenient for the workman to operate the work or material rest.

Optionally, the screw rod is fixedly connected with the motor shaft through a flange.

Through adopting above-mentioned technical scheme, because pass through flange fixed connection between lead screw and the motor shaft, make the workman make lead screw and motor phase separation through dismantling the flange, be convenient for the installation and the dismantlement of lead screw and motor.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the driving assembly is used for driving the feeding plate to vertically move upwards, so that materials on the feeding plate can be gradually lifted, the feeding of workers is facilitated, the feeding step of the workers can be simplified, and the labor intensity of the workers can be reduced;

2. by starting the motor, the motor drives the screw rod to rotate to control the feeding frame to move vertically and upwards, so that the material on the feeding plate can be gradually lifted;

3. because the screw rod is fixedly connected with the motor shaft through the flange, workers can separate the screw rod from the motor by disassembling the flange, and the screw rod and the motor are convenient to install and disassemble.

Drawings

Fig. 1 is a schematic overall structure diagram of a first viewing angle in embodiment 1 of the present application.

Fig. 2 is a schematic overall structure diagram of a second viewing angle in embodiment 1 of the present application.

Fig. 3 is a schematic view of the overall structure of embodiment 2 of the present application.

Description of reference numerals:

1. a feeding frame; 11. a chute; 12. a guide groove; 2. feeding plates; 3. a drive assembly; 31. a motor; 32. a screw rod; 33. a nut seat; 34. a gear; 35. a rack; 351. a slide rail; 4. a control system; 41. a single chip microcomputer; 42. a photosensor; 43. a frequency converter; 44. an upper limit switch; 45. a lower limit switch; 5. A universal wheel; 6. a handle; 7. and (4) a flange.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses concora crush indentation tangent line machine loading attachment.

Example 1

Referring to fig. 1, the feeding device of the creasing and cutting machine comprises a feeding frame 1, a feeding plate 2, a driving assembly 3 and a control system 4; the feeding plate 2 is vertically arranged on the inner side of the feeding frame 1 in a sliding mode, the feeding plate 2 is used for bearing materials, the driving assembly 3 is used for driving the feeding plate 2 to vertically slide, and the control system 4 is used for controlling the driving assembly 3 to move so as to control the feeding plate 2 to vertically move.

After the materials on the top surface of the feeding frame 1 are taken out for processing, a worker can control the driving assembly 3 to work by using the control system 4, so that the driving assembly 3 drives the feeding plate 2 to move vertically upwards, the materials on the feeding plate 2 can be lifted step by step, the feeding of the worker is facilitated, the feeding steps of the worker can be simplified, and the labor intensity of the worker can be reduced.

Specifically, in this embodiment, two spouts 11 have all been seted up to side about going up work or material rest 1 inboard, two spouts 11 that lie in same side are arranged along the length direction interval of its place face, and two spouts 11 that lie in different on 1 left surfaces of work or material rest align with two spout 11 one-to-one that lie in on 1 right sides of work or material rest, the equal slip is provided with the slider in every spout 11, and be located the slider on 1 inboard left and right sides of going up flitch 2 respectively with two left and right sides fixed connection of going up flitch 2 of going up of work or material rest, make and go up flitch 2 and can follow spout 11 and be vertical slip.

Because go up flitch 2 and slider fixed connection, and every slider all slides and sets up on corresponding spout 11, make and go up flitch 2 and can be vertical slip along spout 11.

Referring to fig. 1 and 2, in particular, in the present embodiment, the driving assembly 3 includes a motor 31, a lead screw 32, and a nut seat 33; wherein, the guide way 12 of vertical setting is seted up to the side of going up the work or material rest 1, guide way 12 bottom extends to 1 inboard bottom surface of work or material rest, the bearing frame is all installed to guide way 12 top and bottom, and all install the bearing in every bearing frame, lead screw 32 both ends are installed respectively in two bearings, and lead screw 32 top runs through 1 top surface of work or material rest, motor 31 installs on last work or material rest 1, and motor 31 axle passes through flange 7 and lead screw 32 top fixed connection, make motor 31 can drive lead screw 32 and rotate, nut seat 33 and lead screw 32 screw drive, and nut seat 33 passes guide way 12 and last flitch 2 fixed connection, make nut seat 33 can drive flitch 2 in guide way 12 and do vertical motion.

When the motor 31 is started, the motor 31 drives the screw rod 32 to rotate to control the feeding frame 1 to move vertically and upwards, so that the material on the feeding plate 2 can be lifted gradually.

Meanwhile, the screw rod 32 is fixedly connected with the shaft of the motor 31 through the flange 7, so that a worker can separate the screw rod 32 from the motor 31 by detaching the flange 7, and the screw rod 32 and the motor 31 can be conveniently mounted and detached.

Specifically, in this embodiment, the control system 4 includes a single chip 41, a photoelectric sensor 42, and a frequency converter 43; the type of the single chip microcomputer 41 is AT89C51, the single chip microcomputer 41 is installed on the side face of the feeding frame 1, the photoelectric sensor 42 is installed on the top of the inner side face of the feeding frame 1, the photoelectric switch is lower than the highest point of the guide groove 12, the feeding plate 2 can move to the position of the photoelectric switch, the photoelectric sensor 42 is electrically connected with the single chip microcomputer 41, and the frequency converter 43 is simultaneously connected with the motor 31, the power supply and the single chip microcomputer 41 through corresponding signal circuits. The control system 4 further comprises an upper limit switch 44 and a lower limit switch 45; wherein, go up limit switch 44 and install in the inboard top of last work or material rest 1, go up limit switch 44 and be a little higher than photoelectric sensor 42, can not trigger upper limit switch 44 when making the material rise to photoelectric sensor 42 position, and go up limit switch 44 and be less than guide way 12 peak, make material loading plate 2 can move to limit switch position department, lower limit switch 45 installs in the inboard bottom surface of last work or material rest 1, and upper switch and lower limit switch 45 all are connected with singlechip 41 electricity.

Firstly, loading the loading frame 1, and raising the material weight to the position of triggering the photoelectric sensor 42; when the material on the top surface of the feeding frame 1 is taken, the photoelectric sensor 42 sends an uplink signal to the single chip, so that the single chip 41 controls the motor 31 to rotate forwards by controlling the frequency converter 43, and the screw rod 32 drives the feeding plate 2 to move upwards; when the material below is conveyed to the position triggering the photoelectric sensor 42 again, the photoelectric sensor 42 sends a stop signal to the single chip, so that the single chip 41 controls the motor 31 to stop rotating by controlling the frequency converter 43; when the material on the feeding plate 2 is taken out, the feeding plate 2 continues to ascend, and when the feeding plate 2 ascends to the position of triggering the upper limit switch 44, the upper limit switch 44 sends a reset signal to the single chip microcomputer 41, so that the single chip microcomputer 41 controls the motor 31 to rotate reversely by controlling the frequency converter 43, and the screw rod 32 drives the feeding plate 2 to move downwards; when the feeding plate 2 moves to the position of triggering the lower limit switch 45, the lower limit switch 45 sends a reset success signal to the single chip microcomputer 41, so that the single chip microcomputer 41 controls the motor 31 to stop rotating by controlling the frequency converter 43, the feeding plate 2 stops moving, the feeding plate 2 is reset successfully at the moment, and a worker waits for loading materials and performs the next round of circulation.

Referring to fig. 1, in this embodiment, four universal wheels 5 are installed to the bottom surface of the feeding frame 1, and four universal wheels 5 are installed at four corner positions of the feeding frame 1 respectively, so that the feeding frame 1 can move through the universal wheels 5.

Owing to be provided with universal wheel 5, the workman of being convenient for removes material loading frame 1 through universal wheel 5, and the work of feeding of material loading frame 1 to the material is convenient.

For the convenience of the workman promotes material loading frame 1, in this embodiment, handle 6 is installed at material loading frame 1 side top, and handle 6 is U type round steel, and handle 6 through welding mode with material loading frame 1 fixed connection. Owing to be provided with handle 6, the workman can promote to go up work or material rest 1 and remove through gripping handle 6, makes things convenient for the workman to control the moving direction who goes up work or material rest 1 simultaneously, is convenient for the workman to operate and goes up work or material rest 1.

The implementation principle of the embodiment 1 is as follows: after the materials on the top surface of the feeding frame 1 are taken out and processed, the photoelectric sensor 42 sends an uplink signal to the single chip, so that the single chip 41 controls the motor 31 to rotate forwards by controlling the frequency converter 43, the motor 31 controls the feeding frame 1 to move vertically and upwards by driving the screw rod 32 to rotate, the materials on the feeding plate 2 can be gradually lifted, the feeding of workers is facilitated, the feeding steps of the workers can be simplified, and the labor intensity of the workers can be reduced; when the materials on the feeding frame 1 are completely processed and the feeding plate 2 rises to the position of triggering the upper limit switch 44, the upper limit switch 44 sends a reset signal to the single chip 41, so that the single chip 41 controls the motor 31 to rotate reversely by controlling the frequency converter 43, and the screw rod 32 drives the feeding plate 2 to move downwards; when the feeding plate 2 moves to the position of triggering the lower limit switch 45, the lower limit switch 45 sends a reset success signal to the single chip microcomputer 41, so that the single chip microcomputer 41 controls the motor 31 to stop rotating by controlling the frequency converter 43, the feeding plate 2 stops moving, the feeding plate 2 is reset successfully at the moment, and a worker waits for loading materials and performs the next round of circulation.

Example 2

Referring to fig. 3, the present embodiment is different from embodiment 1 in that the driving assembly 3 includes a motor 31, a gear 34, and a rack 35; wherein, it is fixed with the slide rail 351 of vertical setting to go up 1 lateral surface of work or material rest, it is provided with two sliders to slide on the slide rail 351, two sliders all with rack 35 fixed connection, make rack 35 slide along vertical direction, go up 1 side of work or material rest and set up the guide way 12 of vertical setting, guide way 12 bottom extends to 1 inboard bottom surface of work or material rest, 1 top surface of work or material rest is run through at the guide way 12 top, rack 35 bottom is fixed with the connecting rod, and the connecting rod passes guide way 12 and last flitch 2 fixed connection, make rack 35 can drive and go up flitch 2 and be vertical motion, motor 31 installs in 1 side of work or material rest, gear 34 installs in motor 31 axle, and gear 34 meshes with rack 35 mutually, make motor 31 can drive rack 35 through gear 34 and be vertical slip.

When the motor 31 drives, the motor 31 drives the gear 34 to rotate, and the gear 34 drives the rack 35 to vertically move upwards, so that the feeding plate 2 fixedly connected with the rack 35 can vertically move upwards, and materials on the feeding plate 2 can be gradually lifted.

The implementation principle of the embodiment 2 is as follows: after the material on the top surface of the feeding frame 1 is taken out and processed, the photoelectric sensor 42 sends an uplink signal to the single chip, so that the single chip 41 controls the motor 31 to rotate forwardly by controlling the frequency converter 43, the motor 31 drives the gear 34 to rotate, the gear 34 drives the rack 35 to move vertically upwards, the feeding plate 2 fixedly connected with the rack 35 can move vertically upwards, the material on the feeding plate 2 can be lifted gradually, the feeding of workers is facilitated, the feeding step of the workers can be simplified, and the labor intensity of the workers can be reduced; when the materials on the feeding frame 1 are completely processed and the feeding plate 2 rises to the position of triggering the upper limit switch 44, the upper limit switch 44 sends a reset signal to the single chip 41, so that the single chip 41 controls the motor 31 to rotate reversely by controlling the frequency converter 43, and the rack 35 drives the feeding plate 2 to move downwards; when the feeding plate 2 moves to the position of triggering the lower limit switch 45, the lower limit switch 45 sends a reset success signal to the single chip microcomputer 41, so that the single chip microcomputer 41 controls the motor 31 to stop rotating by controlling the frequency converter 43, the feeding plate 2 stops moving, the feeding plate 2 is reset successfully at the moment, and a worker waits for loading materials and performs the next round of circulation.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a concora crush indentation tangent line machine loading attachment which characterized in that: the material loading device comprises a material loading frame (1), wherein a material loading plate (2) used for bearing materials is vertically arranged in the material loading frame (1) in a sliding mode, a driving assembly (3) used for driving the material loading plate (2) to vertically slide is arranged on the material loading frame (1), and a control system (4) used for controlling the driving assembly (3) to work is further arranged on the material loading frame (1).

2. The flat-pressing creasing and cutting machine feeding device according to claim 1, characterized in that: go up equal vertical spout (11) of having seted up in two sides that work or material rest (1) inboard set up relatively, every all slide on spout (11) and be provided with the slider, go up work or material rest (1) both ends respectively with the slider fixed connection on two spout (11).

3. The flat-pressing creasing and cutting machine feeding device according to claim 2, characterized in that: the driving assembly (3) comprises a motor (31), a screw rod (32) fixedly connected with a shaft of the motor (31) and a nut seat (33) in screw transmission with the screw rod (32), the nut seat (33) is fixedly connected with the upper material plate (2), and the nut seat (33) drives the upper material plate (2) to move vertically.

4. The flat-pressing creasing and cutting machine feeding device according to claim 2, characterized in that: the driving assembly (3) comprises a motor (31) arranged on the feeding frame (1), a gear (34) arranged on the shaft of the motor (31) and a rack (35) meshed with the gear (34), the rack (35) is fixedly connected with the feeding plate (2), and the rack (35) drives the feeding plate (2) to move vertically.

5. The flat-pressing creasing and cutting machine feeding device according to claim 3 or 4, wherein: the control system (4) comprises a single chip microcomputer (41), a photoelectric sensor (42) and a frequency converter (43) which are installed at the top of the feeding frame (1), wherein the photoelectric sensor (42) and the frequency converter (43) are electrically connected with the single chip microcomputer (41), the frequency converter (43) is used for controlling the motor (31) to rotate positively, reversely or stop rotating, the control system (4) further comprises an upper limit switch (44) and a lower limit switch (45) which are electrically connected with the single chip microcomputer (41), the upper limit switch (44) is installed at the top of the feeding frame (1), and the lower limit switch (45) is installed on the inner bottom surface of the feeding frame (1).

6. The flat-pressing creasing and cutting machine feeding device according to claim 1, characterized in that: the bottom surface of the feeding frame (1) is provided with universal wheels (5).

7. The flat-pressing creasing and cutting machine feeding device according to claim 6, wherein: and a handle (6) is arranged on the feeding frame (1).

8. The flat-pressing creasing and cutting machine feeding device according to claim 3, characterized in that: the screw rod (32) is fixedly connected with a shaft of the motor (31) through a flange (7).

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