CN215287273U - Waste collecting mechanism of die-cutting machine - Google Patents

Abstract

A waste collecting mechanism of a die-cutting machine comprises a material receiving rack, a material receiving adjusting assembly and a material receiving roller shaft, wherein the material receiving adjusting assembly and the material receiving roller shaft are sequentially arranged on the material receiving rack, and a material receiving driving assembly which is connected with the material receiving roller shaft and drives the material receiving roller shaft to rotate is arranged on the material receiving rack; receive material adjusting part including set up the vertical receipts material guide rail of receiving in the receipts material frame, set up the receipts material sliding seat on vertical receipts material guide rail, set up the adjusting roller axle of receiving on the material sliding seat and set up and be used for detecting the inductor of receiving the material sliding seat position in receiving the material frame. The utility model discloses can realize the collection of waste material.

Description

Waste collecting mechanism of die-cutting machine

Technical Field

The utility model belongs to the technical field of cutting equipment, concretely relates to garbage collection mechanism of cross cutting machine.

Background

In the prior art, the die cutting machine comprises a feeding mechanism for conveying a feeding belt into the die cutting machine, a cutting die mechanism located at an output end of the feeding mechanism, a punching mechanism arranged at the front part of the cutting die mechanism, and a bag filling mechanism arranged at the lower part of the punching mechanism. After the material belt is fed into the die cutting machine, the cutting die mechanism pre-cuts the material belt to form a product with a pre-cut line on the material belt, the pre-cut product cannot be separated from the material belt and needs to be continuously conveyed to a position below the material punching mechanism, a punch on the material punching mechanism downwards punches the product with the pre-cut line on the material belt to enable the product to fall into a bag of a barrel of the bag filling mechanism, a corresponding material pulling mechanism for pulling the material belt is arranged in front of the material punching mechanism, the material belt is conveyed to the tail end from an initial section of the die cutting machine through cooperation of the feeding mechanism and the material pulling mechanism, the material belt which is subjected to material punching is continuously pulled out by the material pulling mechanism, and a corresponding waste collecting mechanism needs to be designed to avoid random scattering of the material belt.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a garbage collection mechanism of cross cutting machine, it can realize the collection of waste material.

In order to achieve the above object, the embodiment of the present invention provides a technical solution:

a waste collecting mechanism of a die-cutting machine comprises a material receiving rack, a material receiving adjusting assembly and a material receiving roller shaft, wherein the material receiving adjusting assembly and the material receiving roller shaft are sequentially arranged on the material receiving rack, and a material receiving driving assembly which is connected with the material receiving roller shaft and drives the material receiving roller shaft to rotate is arranged on the material receiving rack;

receive material adjusting part including set up the vertical receipts material guide rail of receiving in the receipts material frame, set up the receipts material sliding seat on vertical receipts material guide rail, set up the adjusting roller axle of receiving on the material sliding seat and set up and be used for detecting the inductor of receiving the material sliding seat position in receiving the material frame.

The material receiving rack is provided with a pressing assembly which is positioned between the material receiving adjusting assembly and the material receiving roll shaft and used for pressing the material belt.

The compressing assembly comprises a lower roll shaft which is arranged on the material receiving rack in a rotating mode and a compressing roll shaft which is arranged on the upper portion of the lower roll shaft.

The lower roll shaft is positioned above the rear part of the receiving roll shaft and is positioned in front of the adjusting roll shaft.

The material receiving rack is provided with a roller shaft adjusting assembly for adjusting the upper and lower positions of the pressing roller shaft;

the roll shaft adjusting assembly comprises a roll shaft guide post arranged on the material receiving rack, a roll shaft adjusting seat arranged on the roll shaft guide post in a penetrating manner, a positioning mounting plate arranged at the top of the roll shaft guide post and a roll shaft adjusting rod connected to the roll shaft adjusting seat through thread transmission;

the material receiving rack is provided with a pressing shaft body corresponding to the pressing roller shaft, the pressing roller shaft is arranged on the pressing shaft body in a penetrating mode, and the side portion of the pressing shaft body is arranged on the roller shaft adjusting seat.

The roll shaft adjusting rod penetrates through the positioning mounting plate downwards from the upper part of the positioning mounting plate.

A material receiving guide groove is formed in the material receiving rack corresponding to the roll shaft adjusting seat;

the bottom of the roller guide column is arranged at the bottom of the material receiving guide groove, the roller adjusting seat is arranged in the material receiving guide groove, and a material receiving spring is arranged between the roller adjusting seat and the material receiving guide groove.

The material receiving roll shaft is positioned at the front part of the material receiving adjusting component.

The inductor is including all setting up on receiving the material frame and receiving the first sensor relative on material guide rail upper portion and receiving the second sensor relative with vertical material guide rail lower part.

And two ends of the material receiving roll shaft are respectively provided with a limiting baffle plate used for limiting the material belt.

The utility model has the advantages as follows:

the material area is walked around from the lower part of adjusting the roller to continue to wind to receiving on the material roller, receive material drive assembly operation material area and constantly collect on receiving the material roller, avoid the scattering in material area.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a schematic structural view of a roller shaft adjusting assembly according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention.

Referring to fig. 1-2, the waste collecting mechanism of the die-cutting machine comprises a material receiving rack 5, a material receiving adjusting assembly and a material receiving roller shaft 51 which are sequentially arranged on the material receiving rack 5, wherein a material belt 409 sequentially bypasses the material receiving adjusting assembly and the material receiving roller shaft 51, and a material receiving driving assembly 52 which is connected with the material receiving roller shaft 51 and drives the material receiving roller shaft 51 to rotate is arranged on the material receiving rack 5;

receive material adjusting part including setting up the vertical receipts material guide rail 53 on receiving material frame 5, set up the receipts material sliding seat 54 on vertical receipts material guide rail 53, set up the adjusting roller 55 on receiving material sliding seat 54 and set up and be used for detecting the inductor 56 who receives material sliding seat 54 position on receiving material frame 5, specifically, adjusting roller 55 rotates and sets up on receiving material sliding seat 54.

The cross cutting machine includes the host computer body and sets up the controlling means who arranges the garbage collection mechanism in the host computer is internal and external, and the garbage collection mechanism is connected on the host computer body and is located the place ahead that draws the material mechanism, specifically does, receives the material frame 5 and connects in the front portion of the host computer body, controlling means and receipts material drive assembly 52, inductor 56 electric connection.

The material strap 409 is from drawing the material mechanism and pulling out the back, and the material strap 409 is walked around from the lower part of adjusting roller 55 to continue to wind to receiving on the material roller 51, receive material drive assembly 52 operation material strap 409 and constantly collect on receiving roller 51, avoid the scattering of material strap 409.

The pulling speed of the pulling mechanism is different from the receiving speed of the waste collecting mechanism, so that too much or too little material belt 409 exists between the pulling mechanism and the adjusting roller shaft 55.

When the material belt 409 between the adjusting roller shaft 55 and the material pulling mechanism is too much, so that the material receiving sliding seats 54 fall to a low position along the vertical material receiving guide rail 53, the sensors 56 detect the positions of the corresponding material receiving sliding seats 54 and transmit corresponding signals to the control device, and the control device controls the material receiving driving assembly 52 to operate or accelerate, so that the material belt 409 is collected or accelerated;

when the material belt 409 between the adjusting roller shaft 55 and the material pulling mechanism is too small, so that the material receiving sliding seats 54 move upwards to a high position along the vertical material receiving guide rail 53, the sensors 56 detect the positions of the corresponding material receiving sliding seats 54 and transmit corresponding signals to the control device, and the control device controls the material receiving driving assembly 52 to stop or decelerate, so that the collection of the material belt 409 is stopped or decelerated.

The material receiving driving assembly 52 is a material receiving driving motor.

The vertical material receiving guide rails 53 and the material receiving sliding seats 54 are two in number and are arranged on two sides of the adjusting roller shaft 55 in bilateral symmetry.

Further, the sensor 56 includes a first sensor 506 and a second sensor 507, both of which are disposed on the material receiving rack 5 and are opposite to the upper portion of the vertical material receiving guide 53 and the lower portion of the vertical material receiving guide 53.

That is, the first sensor 506 is used to detect that the tape 409 between the adjustment roller shaft 55 and the pulling mechanism is too small, and the second sensor 507 is used to detect that the tape 409 between the adjustment roller shaft 55 and the pulling mechanism is too large.

The first sensor 506 and the second sensor 507 may be position sensors, or may be replaced with a flip-flop type trigger switch that can contact the material receiving slide 54.

The control device is electrically connected with the first sensor 506 and the second sensor 507.

Further, a compressing assembly which is located between the material receiving adjusting assembly and the material receiving roller shaft 51 and used for compressing the material belt 409 is arranged on the material receiving rack 5.

The setting up of compressing tightly the subassembly makes the material area 409 between compressing tightly the subassembly and receiving material roller 51 be in the state of tightening all the time, adjusts the roller 55 and draws the material mechanism between the material area 409 too much or too little circumstances can not influence the material area 409 on receiving material roller 51, avoids the winding material area 409 on receiving material roller 51 to appear loosening and take off.

In this embodiment, the material receiving adjusting assembly, the pressing assembly and the material receiving roller shaft 51 are sequentially arranged from back to front.

Further, the pressing component comprises a lower roller shaft 57 which is rotatably arranged on the material receiving rack 5 and a pressing roller shaft 58 which is positioned on the upper part of the lower roller shaft 57.

The material belt 409 passes under the adjustment roller 55, passes between the lower roller 57 and the pressing roller 58, and continues to the receiving roller 51.

Further, the lower roller 57 is located above the rear portion of the receiving roller 51, and the lower roller 57 is located in front of the regulating roller 55.

Furthermore, the material receiving rack 5 is provided with a roller shaft adjusting assembly for adjusting the upper and lower positions of the pressing roller shaft 58;

the roll shaft adjusting component is arranged on the upper part of the material receiving rack 5.

The roll shaft adjusting assembly comprises a roll shaft guide post 59 arranged on the material receiving rack 5, a roll shaft adjusting seat 501 arranged on the roll shaft guide post 59 in a penetrating manner, a positioning mounting plate 502 arranged at the top of the roll shaft guide post 59 and a roll shaft adjusting rod 503 connected to the roll shaft adjusting seat 501 through thread transmission;

the material receiving rack 5 is provided with a pressing shaft body 504 corresponding to the pressing roller shaft 58, the pressing roller shaft 58 is mounted on the pressing shaft body 504 in a penetrating manner, and the side part of the pressing shaft body 504 is arranged on the roller shaft adjusting seat 501.

The roller shaft guide posts 59 are arranged in two groups at intervals in the front-back direction, and the roller shaft adjusting rods 503 are located between the two groups of roller shaft guide posts 59.

The number of the roller shaft adjusting assemblies is two, and the roller shaft adjusting assemblies are arranged at left and right intervals and are respectively positioned at two sides of the pressing shaft body 504 and the pressing roller shaft 58.

For the material belts 409 with different thicknesses, the distance between the pressing shaft body 504 and the lower roller shaft 57 is adjusted by rotating the roller shaft adjusting rod 503.

Further, the roller shaft adjustment rod 503 passes through the positioning mounting plate 502 from the upper portion of the positioning mounting plate 502 downward.

The top of the roller shaft adjusting rod 503 is provided with an adjusting screw cap which is positioned above the positioning mounting plate 502 and facilitates the adjustment of the roller shaft adjusting rod 503.

Further, a material receiving guide groove 505 is arranged on the material receiving rack 5 corresponding to the roller shaft adjusting seat 501;

the bottom of the roller guide post 59 is arranged at the bottom of the material receiving guide groove 505, the roller adjusting seat 501 is arranged in the material receiving guide groove 505, and a material receiving spring 510 is arranged between the roller adjusting seat 501 and the material receiving guide groove 505.

The material receiving guide groove 505 is used for guiding the roll shaft adjusting seat 501 to move up and down, the material receiving spring 510 always applies upward acting force to the roll shaft adjusting seat 501, and the roll shaft adjusting seat 501 and the roll shaft adjusting rod 503 are prevented from loosening and shifting under the condition of non-human intervention.

Further, the receiving roller shaft 51 is located at the front of the receiving regulating assembly.

Furthermore, the two ends of the material receiving roller shaft 51 are respectively provided with a limit baffle 511 for limiting the material belt 409, so that the material belt 409 wound on the material receiving roller shaft 51 is more orderly.

The foregoing is a preferred embodiment of the present invention showing and describing the basic principles, main features and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are intended to illustrate the principles of the invention, but rather that various changes and modifications may be made without departing from the spirit and scope of the invention, the scope of which is defined by the appended claims and their equivalents.

Claims (10)

1. The waste collecting mechanism of the die-cutting machine is characterized by comprising a material receiving rack (5), a material receiving adjusting assembly and a material receiving roller shaft (51), wherein the material receiving adjusting assembly and the material receiving roller shaft (51) are sequentially arranged on the material receiving rack (5), and a material receiving driving assembly (52) which is connected with the material receiving roller shaft (51) and drives the material receiving roller shaft (51) to rotate is arranged on the material receiving rack (5);

the material receiving adjusting assembly comprises a vertical material receiving guide rail (53) arranged on the material receiving rack (5), a material receiving sliding seat (54) arranged on the vertical material receiving guide rail (53), an adjusting roller shaft (55) arranged on the material receiving sliding seat (54) and a sensor (56) which is arranged on the material receiving rack (5) and is used for detecting the position of the material receiving sliding seat (54).

2. The waste collecting mechanism of the die cutting machine according to claim 1, wherein a pressing assembly which is located between the receiving adjusting assembly and the receiving roller shaft (51) and used for pressing the material belt (409) is arranged on the receiving machine frame (5).

3. The waste collecting mechanism of the die cutting machine according to claim 2, wherein the pressing assembly comprises a lower roller shaft (57) and a pressing roller shaft (58), the lower roller shaft (57) and the pressing roller shaft are rotatably arranged on the material receiving rack (5), and the pressing roller shaft is positioned at the upper part of the lower roller shaft (57).

4. The waste collection mechanism of a die cutting machine as recited in claim 3, wherein the lower roller (57) is positioned above a rear portion of the take-up roller (51), and the lower roller (57) is positioned forward of the adjustment roller (55).

5. The waste collecting mechanism of the die cutting machine according to claim 3, characterized in that the material receiving rack (5) is provided with a roller shaft adjusting assembly for adjusting the vertical position of the pressing roller shaft (58);

the roll shaft adjusting assembly comprises a roll shaft guide post (59) arranged on the material receiving rack (5), a roll shaft adjusting seat (501) arranged on the roll shaft guide post (59) in a penetrating manner, a positioning mounting plate (502) arranged at the top of the roll shaft guide post (59) and a roll shaft adjusting rod (503) connected to the roll shaft adjusting seat (501) through thread transmission;

the material receiving rack (5) is provided with a pressing shaft body (504) corresponding to the pressing roller shaft (58), the pressing roller shaft (58) is arranged on the pressing shaft body (504) in a penetrating mode, and the side portion of the pressing shaft body (504) is arranged on the roller shaft adjusting seat (501).

6. The waste collection mechanism of a die cutting machine as recited in claim 5, wherein the roller shaft adjustment rod (503) passes downwardly through the locating mounting plate (502) from an upper portion of the locating mounting plate (502).

7. The waste collecting mechanism of the die cutting machine according to claim 5, characterized in that a collecting guide groove (505) is formed in the collecting rack (5) corresponding to the roller shaft adjusting seat (501);

the bottom of the roller guide post (59) is arranged at the bottom of the material receiving guide groove (505), the roller adjusting seat (501) is arranged in the material receiving guide groove (505), and a material receiving spring (510) is arranged between the roller adjusting seat (501) and the material receiving guide groove (505).

8. The waste collection mechanism of a die cutting machine as recited in claim 1, wherein the take-up roller shaft (51) is located at a front portion of the take-up adjustment assembly.

9. The waste collection mechanism of a die cutting machine as claimed in claim 1, wherein the sensor (56) comprises a first sensor (506) and a second sensor (507) which are both arranged on the material receiving rack (5) and are opposite to the upper part of the vertical material receiving guide rail (53) and opposite to the lower part of the vertical material receiving guide rail (53).

10. The waste collecting mechanism of the die cutting machine is characterized in that two ends of the material receiving roller shaft (51) are respectively provided with a limit baffle (511) used for limiting the material belt (409).

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