CN111283807A - Numerical control flower mud cutting machine - Google Patents

Abstract

The invention discloses a numerical control flower mud cutting machine which comprises a flat-cutting slicing mechanism, a transverse pushing mechanism, a strip cutting knife rest mechanism, a longitudinal pushing mechanism, an embossing mechanism, a cutting knife rest mechanism and a dust collection mechanism, wherein the upper end of the flat-cutting slicing mechanism is connected with the transverse pushing mechanism, one side of the transverse pushing mechanism is connected with the longitudinal pushing mechanism, and the dust collection mechanism is arranged between the longitudinal pushing mechanism and the transverse pushing mechanism. The numerical control flower mud cutting machine is high in automation degree, capable of replacing manpower, high in efficiency, safe, reliable, high in precision degree and capable of eliminating loss caused by fatigue or errors of workers completely without depending on the technology of the operators in repeated production, high in production efficiency, high in cutting speed and precision, free of manufacturing and repairing, capable of storing models and greatly reducing cost, and capable of automatically cleaning dust generated in the material processing process, guaranteeing the health of the operators and bringing better use prospects.

Description

Numerical control flower mud cutting machine

Technical Field

The invention relates to the field of furniture processing and building material processing, in particular to a numerical control flower mud cutting machine.

Background

Along with the rapid development of the society, the living standard of people is continuously improved, the furniture industry and the building material industry are rapidly developed, people invent some processing equipment in order to facilitate the treatment of materials of the furniture industry and the building material industry by people, wherein, a numerical control flower mud cutting machine exists, and along with the rapid development of science and technology, the requirements of people on the numerical control flower mud cutting machine are higher and higher, so that the existing numerical control flower mud cutting machine can not meet the use requirements of people;

the existing numerical control flower mud cutting machine has certain defects when in use, the existing technology is manual cutting and printing, the production efficiency and precision are extremely low, the cost is high, the situation that dust is more in production to influence the health of operators is caused, and the use requirements of people are not met, so that the numerical control flower mud cutting machine is provided.

Disclosure of Invention

The invention mainly aims to provide a numerical control flower mud cutting machine which can effectively solve the problems in the background technology.

In order to achieve the purpose, the invention adopts the technical scheme that:

the utility model provides a numerical control flower mud cutting machine, includes truncation section mechanism, horizontal push mechanism, slitting knife rest mechanism, vertical push mechanism, knurling mechanism, dicing knife rest mechanism and dust absorption mechanism, truncation section mechanism's upper end is connected with horizontal push mechanism, one side and vertical push mechanism of horizontal push mechanism are connected, dust absorption mechanism sets up between vertical push mechanism and horizontal push mechanism, slitting knife rest mechanism installs and is close to dust absorption mechanism position at horizontal push mechanism's front end surface, knurling mechanism sets up the lower extreme at vertical push mechanism, dicing knife rest mechanism sets up on knurling mechanism.

Preferably, the slicing and slicing mechanism comprises a material clamping mechanism, a fixed frame, a cylinder, a plurality of groups of slicing and circulating blades, a blade cutting walking mechanism and a conveying belt, wherein the cylinder is arranged above the fixed frame.

Preferably, the flat-cutting circulating blade comprises a flat-cutting frame, a round guide rail and a reduction gear motor, the reduction gear motor is connected with the round guide rail, the flat-cutting frame is installed on the round guide rail, and a circulating blade spindle motor used for driving a plurality of groups of flat-cutting circulating blades is arranged on the flat-cutting frame.

Preferably, horizontal push mechanism and vertical push mechanism all include No. two conveyer belts, two sets of gear reduction motor, propelling movement frame, guide rail and No. two cylinders, and are two sets of gear reduction motor's output is connected with No. two conveyer belts and guide rail respectively, propelling movement frame sets up on the guide rail, No. two cylinders set up in propelling movement frame top.

Preferably, the slitting knife rest mechanism comprises a knife rest panel, a transverse slitting bar and a vertical cutting block, and the transverse slitting bar and the vertical cutting block are arranged on the knife rest panel.

Preferably, the embossing mechanism comprises an embossing die, an embossing shelf and an embossing cylinder, the dicing tool rest mechanism comprises a cutter, the embossing die is arranged on the embossing shelf, the embossing cylinder is arranged above the embossing shelf, and the cutter is arranged in front of the embossing shelf.

Preferably, the dust collection mechanism comprises a dust collection frame, an air blowing pipe interface, an upper air suction port and a lower air suction port, the air blowing pipe interface is arranged on the outer surface of one side of the dust collection frame and close to the upper end of the dust collection frame, and the upper air suction port and the lower air suction port are respectively arranged on the upper end of the dust collection frame and the lower end of the dust collection frame.

Compared with the prior art, the invention provides a numerical control flower mud cutting machine, which has the following beneficial effects:

degree of automation is high, it is more high-efficient, safety, reliability, precision degree and repetitive production need not to rely on operator's technique, the loss that the tired or error of worker caused is eradicateed completely, high production efficiency, cutting speed and precision are high, need not to make the repair, the storage model, the expense reduces greatly, and can clear up the dust that produces in the material course of working automatically, guarantee operating personnel's is healthy, and the convenient operation of whole numerical control flower mud cutting machine, the result of use is better for traditional mode, satisfy people's operation requirement, and is comparatively practical.

The parts of the device not involved are the same as or can be implemented using prior art.

Drawings

FIG. 1 is an overall structure diagram of a numerical control flower mud cutting machine according to the present invention;

FIG. 2 is a side view of a slicing mechanism of the numerically controlled flower mud cutting machine according to the present invention;

FIG. 3 is a front view of a slicing mechanism of the numerically controlled flower mud cutting machine according to the present invention;

FIG. 4 is a structural diagram of a transverse pushing mechanism and a longitudinal pushing mechanism in the numerical control flower mud cutting machine according to the invention;

FIG. 5 is a structural diagram of a slitting knife rest mechanism in the numerical control flower mud cutting machine according to the invention;

FIG. 6 is a structural diagram of an embossing mechanism in the numerical control flower mud cutting machine according to the present invention;

FIG. 7 is a side view of an embossing mechanism in the numerical control flower mud cutting machine of the present invention;

FIG. 8 is a front view of a dust suction mechanism in the numerical control flower mud cutting machine according to the present invention;

FIG. 9 is a side view of a dust suction mechanism in the numerical control flower mud cutting machine according to the present invention.

In the figure: 1. a slicing mechanism for slicing; 11. a material clamping mechanism; 12. a fixed frame; 13. a first cylinder; 14. a flat cutting circulating blade; 15. the blade cutting travelling mechanism; 16. a first conveying belt; 2. a transverse pushing mechanism; 21. a second conveying belt; 22. a gear reduction motor; 23. a pushing frame; 24. a guide rail; 25. a second cylinder; 3. a slitting knife rest mechanism; 4. an embossing mechanism; 41. embossing the mold; 42. an embossing frame; 43. an embossing cylinder; 44. a cutting knife; 5. a longitudinal pushing mechanism; 6. a dicing blade holder mechanism; 7. a dust suction mechanism.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

A numerical control flower mud cutting machine is shown in figures 1-9 and comprises a flat cutting mechanism 1, a transverse pushing mechanism 2, a strip cutting tool rest mechanism 3, a longitudinal pushing mechanism 5, an embossing mechanism 4, a cutting tool rest mechanism 6 and a dust suction mechanism 7, wherein the upper end of the flat cutting mechanism 1 is connected with the transverse pushing mechanism 2, one side of the transverse pushing mechanism 2 is connected with the longitudinal pushing mechanism 5, the dust suction mechanism 7 is arranged between the longitudinal pushing mechanism 5 and the transverse pushing mechanism 2, the cutting tool rest mechanism 3 is arranged on the outer surface of the front end of the transverse pushing mechanism 2 and close to the dust suction mechanism 7, the embossing mechanism 4 is arranged at the lower end of the longitudinal pushing mechanism 5, and the cutting tool rest mechanism 6 is arranged on the embossing mechanism 4.

The flat-cutting slicing mechanism 1 comprises a material clamping mechanism 11, a fixed frame 12, a first air cylinder 13, a plurality of groups of flat-cutting circulating blades 14, a blade cutting travelling mechanism 15 and a first conveying belt 16, wherein the first air cylinder 13 is arranged above the fixed frame 12.

The flat cutting circulating blade 14 comprises a flat cutting frame, a round guide rail and a reduction gear motor, the reduction gear motor is connected with the round guide rail, the flat cutting frame is installed on the round guide rail, and a circulating blade spindle motor used for driving a plurality of groups of flat cutting circulating blades 14 is arranged on the flat cutting frame.

The material clamping mechanism 11 clamps the material into the fixed frame 12, the fixed frame 12 is automatically lifted by the first air cylinder 13 to control the cutting thickness of the material, the material is cut into flat sheets with the thickness of 80 through the circular operation of the flat cutting circulating blade 14 and the blade cutting travelling mechanism 15 (the whole flat cutting frame 9 is driven to move back and forth through a reduction gear motor), and then the cut material is sent to the next station after a certain distance of descending through a first conveying belt 16 (realized by the ascending and descending of a first air cylinder 13), the motor of the first conveying belt 16 is a high-precision gear reduction motor 2.2KW, a circulating blade spindle motor is a 3KW variable frequency motor (ABB), a high-precision circular guide rail is uniformly adopted by a lifting guide rail of a moving and fixing frame 12 of a flat cutting frame, a flat cutting tension wheel is automatically tensioned by an air cylinder 8, and sufficient cutting force and cutting stability are guaranteed.

Horizontal push mechanism 2 and vertical push mechanism 5 all include No. two conveyer belts 21, two sets of gear reduction motor 22, propelling movement frame 23, guide rail 24 and No. two cylinders 25, and two sets of gear reduction motor 22's output is connected with No. two conveyer belts 21 and guide rail 24 respectively, and propelling movement frame 23 sets up on guide rail 24, and No. two cylinders 25 set up in propelling movement frame 23 top.

The pushing mechanism pushes conveyed incoming materials to a cutting knife rest or a printing position through a second conveying belt 21, the materials are cut through a knife on the cutting knife rest, and the pushing mechanism drives a pushing frame 23 to linearly move on a guide rail 24(ABBA) through a gear speed reducing motor 22 to push the materials. The shutter of the pushing frame 23 is lifted and lowered by the guide rail 24.

The slitting knife rest mechanism 3 comprises a knife rest panel, a transverse cutting strip and a vertical cutting block, wherein the transverse cutting strip and the vertical cutting block are arranged on the knife rest panel.

The embossing mechanism 4 comprises an embossing die 41, an embossing shelf 42 and an embossing cylinder 43, the dicing blade holder mechanism 6 comprises a cutting knife 44, the embossing die 41 is arranged on the embossing shelf 42, the embossing cylinder 43 is arranged above the embossing shelf 42, and the cutting knife 44 is arranged in front of the embossing shelf 42.

The pushed incoming material is arranged on an embossing shelf 42 through an embossing die 41, embossing work on the surface of the material is realized through the up-and-down lifting of an embossing cylinder 43, and the material is cut into blocks by a cutting knife 44.

The dust absorption mechanism 7 comprises a dust absorption frame, an air blowing pipe interface, an upper air suction port and a lower air suction port, wherein the air blowing pipe interface is arranged on the outer surface of one side of the dust absorption frame and close to the upper end, and the upper air suction port and the lower air suction port are respectively arranged on the upper end of the dust absorption frame and the lower end of the dust absorption frame.

The upper air suction port and the lower air suction port are connected with the air suction hood, the air suction hood is aligned to the material slitting, cutting and embossing positions, and dust generated in the material slitting, cutting and embossing processes is sucked away.

When the numerical control flower mud cutting machine is used, under the high-speed operation of a cutter wheel, a material is horizontally cut into a material with the thickness of 80mm by a cutting knife 44, the cut material is conveyed to a transverse pushing mechanism 2 by a first conveying belt 16 on a flat cutting and slicing mechanism 1 and then conveyed to a strip cutting knife rest mechanism 3 for strip cutting, the strip cutting is realized by conveying the material to a cutting knife rest position by the pushing mechanism to cut the material into pieces with the size arranged according to the position of a blade, then the material is conveyed to an embossing mechanism 4 and a cutting knife rest mechanism 6 by a longitudinal pushing mechanism 5, the surface printing or embossing is carried out on the cut material, finally, the strip material is transversely cut by the knife rest to form a three-dimensional forming block, and dust is sucked away by a dust suction mechanism 7;

when the numerical control flower mud cutting machine is used, the PC/industrial control computer is connected with all electronic devices in the numerical control flower mud cutting machine through the conducting wires, and the numerical control flower mud cutting machine is controlled by the PC/industrial control computer;

this patent degree of automation is high, it is more high-efficient, safety, reliability, precision degree and repetitive production need not to rely on operator's technique, the loss that the fatigue of worker or error caused is eradicateed completely, high production efficiency, cutting speed and precision are high, need not to make the repair, the storage model, the expense reduces greatly, and can clear up the dust that produces in the material course of working automatically, guarantee operating personnel's is healthy, and the convenient operation of whole numerical control flower mud cutting machine, the result of use is better for traditional mode, satisfy people's operation requirement, and is comparatively practical.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a numerical control flower mud cutting machine which characterized in that: including concora crush slicing mechanism (1), horizontal push mechanism (2), slitting knife rest mechanism (3), vertical push mechanism (5), knurling mechanism (4), dicing knife rest mechanism (6) and dust absorption mechanism (7), the upper end and horizontal push mechanism (2) of concora crush slicing mechanism (1) are connected, one side and vertical push mechanism (5) of horizontal push mechanism (2) are connected, dust absorption mechanism (7) set up between vertical push mechanism (5) and horizontal push mechanism (2), slitting knife rest mechanism (3) are installed and are close to dust absorption mechanism (7) position at the front end surface of horizontal push mechanism (2), knurling mechanism (4) set up the lower extreme at vertical push mechanism (5), dicing knife rest mechanism (6) set up on knurling mechanism (4).

2. A numerical control flower mud cutting machine according to claim 1, characterized in that: the flat-cutting slicing mechanism (1) comprises a material clamping mechanism (11), a fixed frame (12), a cylinder (13), a plurality of groups of flat-cutting circulating blades (14), a blade cutting travelling mechanism (15) and a conveyor belt (16), wherein the cylinder (13) is arranged above the fixed frame (12).

3. A numerical control flower mud cutting machine according to claim 2, characterized in that: the flat-cutting circulating blade (14) comprises a flat-cutting frame, a round guide rail and a reduction gear motor, wherein the reduction gear motor is connected with the round guide rail, the flat-cutting frame is installed on the round guide rail, and a circulating blade spindle motor used for driving a plurality of groups of flat-cutting circulating blades (14) is arranged on the flat-cutting frame.

4. A numerical control flower mud cutting machine according to claim 1, characterized in that: horizontal push mechanism (2) and vertical push mechanism (5) all include No. two conveyer belts (21), two sets of gear reduction motor (22), propelling movement frame (23), guide rail (24) and No. two cylinders (25), and are two sets of the output of gear reduction motor (22) is connected with No. two conveyer belts (21) and guide rail (24) respectively, propelling movement frame (23) set up on guide rail (24), No. two cylinders (25) set up in propelling movement frame (23) top.

5. A numerical control flower mud cutting machine according to claim 1, characterized in that: the slitting knife rest mechanism (3) comprises a knife rest panel, a transverse cutting strip and a vertical cutting block, wherein the transverse cutting strip and the vertical cutting block are both arranged on the knife rest panel.

6. A numerical control flower mud cutting machine according to claim 1, characterized in that: the embossing mechanism (4) comprises an embossing die (41), an embossing shelf (42) and an embossing cylinder (43), the cutting tool rest mechanism (6) comprises a cutting knife (44), the embossing die (41) is arranged on the embossing shelf (42), the embossing cylinder (43) is arranged above the embossing shelf (42), and the cutting knife (44) is arranged in front of the embossing shelf (42).

7. A numerical control flower mud cutting machine according to claim 1, characterized in that: the dust collection mechanism (7) comprises a dust collection frame, an air blowing pipe interface, an upper air suction port and a lower air suction port, wherein the air blowing pipe interface is arranged on the outer surface of one side of the dust collection frame and close to the upper end of the dust collection frame, and the upper air suction port and the lower air suction port are respectively arranged on the upper end of the dust collection frame and the lower end of the dust collection frame.

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