阅读说明：本技术 铝板加工设备 (Aluminum plate processing equipment ) 是由 谭广诚 黎志群 邓诗龙 于 2021-09-29 设计创作，主要内容包括：本发明公开了一种铝板加工设备,包括机座；切割台,设置在所述机座上；所述切割台相对所述机座所处的地面倾斜设置；所述切割台的台面具有多个通孔；抽气系统,通过第一电磁阀与多个所述通孔相连通；供气系统,通过第二电磁阀与多个所述通孔相连通；加工装置,设置在所述机座上,用于对所述切割台上的铝板进行加工处理；在第一电磁阀开启且第二电磁阀关闭时,多个所述通孔对切割台上的铝板进行固定；在第一电磁阀关闭且第二电磁阀开启时,多个所述通孔对切割台上的铝板进行松开；能够使铝屑直接掉落到地面上,防止铝板在加工时出现飞板现象和方便工人取出铝板。(The invention discloses aluminum plate processing equipment, which comprises a machine base; the cutting table is arranged on the base; the cutting table is obliquely arranged relative to the ground where the base is positioned; the table top of the cutting table is provided with a plurality of through holes; the air pumping system is communicated with the through holes through a first electromagnetic valve; the air supply system is communicated with the through holes through a second electromagnetic valve; the processing device is arranged on the base and used for processing the aluminum plate on the cutting table; when the first electromagnetic valve is opened and the second electromagnetic valve is closed, the through holes fix the aluminum plate on the bisection cutting table; when the first electromagnetic valve is closed and the second electromagnetic valve is opened, the through holes loosen an aluminum plate on the tangential header; the aluminum scrap can directly fall to the ground, the phenomenon that the aluminum plate flies when being processed is prevented, and the aluminum plate is convenient for workers to take out.)

1. An aluminum plate processing apparatus, comprising:

a machine base;

the cutting table is arranged on the stand; the cutting table is obliquely arranged relative to the ground where the base is positioned; the table top of the cutting table is provided with a plurality of through holes;

the air pumping system is communicated with the through holes through a first electromagnetic valve;

the air supply system is communicated with the through holes through a second electromagnetic valve;

the processing device is arranged on the base and is used for processing the aluminum plate on the cutting table;

when the first electromagnetic valve is opened and the second electromagnetic valve is closed, the through holes fix the aluminum plate on the bisection cutting table;

when the first electromagnetic valve is closed and the second electromagnetic valve is opened, the through holes loosen the aluminum plate on the tangential cutting table.

2. The aluminum plate processing apparatus of claim 1, wherein:

the aluminum plate processing equipment further comprises a control circuit board and a control switch, wherein the control switch is electrically connected with the control circuit board and used for sending a fixing signal or a loosening signal to the control circuit board;

the control circuit board is electrically connected with the first electromagnetic valve and the second electromagnetic valve and used for controlling the first electromagnetic valve to be opened and the second electromagnetic valve to be closed according to a fixed signal or controlling the first electromagnetic valve to be closed and the second electromagnetic valve to be opened according to a loosening signal.

3. The aluminum plate processing apparatus of claim 2, wherein:

the processing device comprises a processing mechanism and a moving mechanism, wherein the processing mechanism is used for processing the aluminum plate on the cutting table;

the moving mechanism is in driving connection with the machining mechanism and used for changing the relative position of the machining mechanism on the cutting table.

4. The aluminum plate processing apparatus of claim 3, wherein the movement mechanism comprises:

the first guide rail is arranged at the upper end of the base, and the extending direction of the first guide rail is consistent with the extending direction of the base;

the second guide rail is arranged at the lower end of the machine base and is arranged in parallel relative to the first guide rail;

the upper end and the lower end of the movable frame are respectively movably arranged on the first guide rail and the second guide rail and move along the extension direction of the machine base;

the movable frame is provided with a third guide rail, and the third guide rail is vertically arranged relative to the first guide rail; the processing mechanism is movably arranged on the third guide rail and moves along the extending direction of the third guide rail.

5. The aluminum plate processing apparatus of claim 3, wherein the processing mechanism comprises:

the fixed plate is movably connected with the movement mechanism;

the movable plate is arranged in parallel relative to the fixed plate and is separated from the fixed plate;

the cutting knife module is arranged on the movable plate;

and a height adjustment assembly;

the fixed plate is in driving connection with the movable plate through the height adjusting assembly and is used for adjusting the distance from the cutting knife module to the cutting table.

6. The aluminum plate processing apparatus of claim 5, wherein:

the movable plate is in driving connection with the cutting knife module through a first air cylinder and is used for driving the cutting knife module to move towards the direction close to the cutting table or move towards the direction far away from the cutting table;

the processing mechanism further comprises a graver module, and the graver module is arranged on the movable plate;

the movable plate is in driving connection with the graver module through a second air cylinder and is used for driving the graver module to move towards the direction close to the cutting table or move towards the direction far away from the cutting table.

7. The aluminum plate processing apparatus of claim 5, wherein the cutter die set comprises: a cutter assembly;

and the rotating assembly is in driving connection with the cutting knife assembly and is used for enabling the cutting knife assembly to rotate on the cutting table for 360 degrees.

8. The aluminum plate processing apparatus of claim 7,

the cutting knife assembly comprises a working motor, a circular saw in driving connection with the working motor and a protective shell sleeved on the outer side of the circular saw, an opening is formed in one side, close to the cutting table, of the protective shell, and the circular saw is exposed through the opening;

when the cutting knife assembly is used for processing the aluminum plate on the cutting table, a gap is reserved between the opening and the aluminum plate.

9. The aluminum plate processing apparatus of claim 8,

the cutting knife assembly further comprises a servo motor and a follow wheel, wherein the servo motor is in driving connection with the follow wheel and used for adjusting the distance from the lowest point of the follow wheel to the lowest point of the circular saw so as to change the slotting depth of the circular saw.

Technical Field

The invention relates to the technical field of aluminum plate processing, in particular to aluminum plate processing equipment.

Background

Along with the development of modern machining industry, the requirements on the cutting quality and precision of the aluminum plate are continuously improved, and the requirements on the automatic cutting function with high intelligence, which can improve the production efficiency and reduce the production cost, are also improved. Therefore, the development of the aluminum plate cutting machine has to meet the development requirements of the modern machining industry, and the aluminum plate cutting machine needs to be continuously updated and iterated according to the industry requirements.

The current aluminum plate cutting machine is a horizontal cutting machine, and the cutting knife of the aluminum plate cutting machine is used for cutting and slotting the aluminum plate on a cutting platform of the aluminum plate cutting machine by horizontally placing the aluminum plate. However, since the aluminum plate is horizontally placed, aluminum chips generated during the cutting and grooving process may directly fall on the surface of the aluminum plate, and may even have a chance to fall on the area to be cut, affecting the accuracy in cutting. Moreover, aluminum scraps remain on the surface of the aluminum plate, and the subsequent scrap removal treatment of the aluminum plate surface by workers is required, so that the workload of the workers is increased invisibly.

Disclosure of Invention

The invention aims to provide aluminum plate processing equipment, and aims to solve the technical problem of aluminum scraps generated by aluminum plate cutting in the prior art.

In order to achieve the purpose, the technical scheme of the invention is as follows:

an aluminum plate processing apparatus comprising: a machine base; the cutting table is arranged on the stand; the cutting table is obliquely arranged relative to the ground where the base is positioned; the table top of the cutting table is provided with a plurality of through holes; the air pumping system is communicated with the through holes through a first electromagnetic valve; the air supply system is communicated with the through holes through a second electromagnetic valve; the processing device is arranged on the base and is used for processing the aluminum plate on the cutting table; when the first electromagnetic valve is opened and the second electromagnetic valve is closed, the through holes fix the aluminum plate on the bisection cutting table; when the first electromagnetic valve is closed and the second electromagnetic valve is opened, the through holes loosen the aluminum plate on the tangential cutting table.

Compared with the prior art, the cutting table is obliquely arranged relative to the ground where the base is positioned, so that aluminum scraps generated in the cutting and grooving processes directly fall onto the ground under the action of self gravity, and the reduction of cutting precision caused by extra cleaning work or the falling of the aluminum scraps on an area to be cut, which is generated by the fact that the aluminum scraps directly fall on the surface of an aluminum plate, is avoided; in addition, the air exhaust system is through first solenoid valve and a plurality of the through-hole is linked together, air supply system passes through the second solenoid valve and is a plurality of the through-hole is linked together, through the operating condition of controlling first solenoid valve and second solenoid valve, fixes or loosens aluminum plate, prevents that aluminum plate whereabouts and aluminum plate from appearing flying the board phenomenon man-hour, but also can make things convenient for the workman to take out aluminum plate.

In a preferred embodiment, the aluminum plate processing equipment further comprises a control circuit board and a control switch, wherein the control switch is electrically connected with the control circuit board and used for sending a fixing signal or a loosening signal to the control circuit board; the control circuit board is electrically connected with the first electromagnetic valve and the second electromagnetic valve and used for controlling the first electromagnetic valve to be opened and the second electromagnetic valve to be closed according to a fixed signal or controlling the first electromagnetic valve to be closed and the second electromagnetic valve to be opened according to a loosening signal.

In a preferred embodiment, the processing device comprises a processing mechanism for processing the aluminum plate on the cutting table and a moving mechanism; the moving mechanism is in driving connection with the machining mechanism and used for changing the relative position of the machining mechanism on the cutting table.

In a preferred embodiment, the movement mechanism comprises: the first guide rail is arranged at the upper end of the base, and the extending direction of the first guide rail is consistent with the extending direction of the base; the second guide rail is arranged at the lower end of the machine base and is arranged in parallel relative to the first guide rail; the upper end and the lower end of the movable frame are respectively movably arranged on the first guide rail and the second guide rail and move along the extension direction of the machine base; the movable frame is provided with a third guide rail, and the third guide rail is vertically arranged relative to the first guide rail; the processing mechanism is movably arranged on the third guide rail and moves along the extending direction of the third guide rail.

In a preferred embodiment, the processing mechanism includes: the fixed plate is movably connected with the movement mechanism; the movable plate is arranged in parallel relative to the fixed plate and is separated from the fixed plate; the cutting knife module is arranged on the movable plate; and a height adjustment assembly; the fixed plate is in driving connection with the movable plate through the height adjusting assembly and is used for adjusting the distance from the cutting knife module to the cutting table.

In a preferred embodiment, the movable plate is in driving connection with the cutting knife module through a first air cylinder and is used for driving the cutting knife module to move towards the direction close to the cutting table or move towards the direction far away from the cutting table; the processing mechanism further comprises a graver module, and the graver module is arranged on the movable plate; the movable plate is in driving connection with the graver module through a second air cylinder and is used for driving the graver module to move towards the direction close to the cutting table or move towards the direction far away from the cutting table.

In a preferred embodiment, the cutting die set comprises: a cutter assembly; the rotating assembly is in driving connection with the cutting knife assembly and is used for enabling the cutting knife assembly to rotate on the cutting table for 360 degrees; the rotating assembly is in driving connection with the first cylinder.

In a preferred embodiment, the cutting knife assembly comprises a working motor, a circular saw in driving connection with the working motor, and a protective shell sleeved on the outer side of the circular saw, wherein an opening is formed in one side, close to the cutting table, of the protective shell, and the circular saw is exposed through the opening; when the cutting knife assembly is used for processing the aluminum plate on the cutting table, a gap is reserved between the opening and the aluminum plate.

In a preferred embodiment, the cutting knife assembly further comprises a servo motor and a follower wheel, wherein the servo motor is in driving connection with the follower wheel and used for adjusting the distance from the lowest point of the follower wheel to the lowest point of the circular saw so as to change the slotting depth of the circular saw.

For a better understanding and practice, the invention is described in detail below with reference to the accompanying drawings.

Drawings

FIG. 1 is a schematic view of an aluminum plate processing apparatus;

FIG. 2 is a side view of an aluminum plate processing apparatus;

FIG. 3 is a partial schematic view of the movable stand of the aluminum plate processing apparatus coupled to a first rail;

FIG. 4 is a side view of a processing mechanism of the aluminum plate processing apparatus (the protective cover is omitted);

FIG. 5 is a schematic view of a processing mechanism of the aluminum plate processing apparatus (the protective cover is omitted);

FIG. 6 is a schematic view of a cutter module of the multi-functional vertical aluminum plate cutting system;

FIG. 7 is a side view of a cutter module of the multi-functional vertical aluminum plate cutting system;

FIG. 8 is a cross-sectional view A-A' of FIG. 7;

FIG. 9 is a side view of a machining mechanism of the multi-functional vertical aluminum plate cutting system (with the cutter die set and the carver die set omitted);

FIG. 10 is a schematic view of the connection of the air evacuation system, air supply system, and cutting station.

Description of reference numerals:

100-machine base, 200-cutting table, 211-positioning cylinder, 311-first guide rail, 312-second guide rail, 313-moving frame, 314-third guide rail, 321-fixed plate, 322-movable plate, 323-cutting knife module, 3231-working motor, 3232-circular saw, 3233-protective housing, 3233 a-opening, 3234-servo motor, 3235-following wheel, 3236-rotating component, 3237-first movable sub-plate, 324-height adjusting component, 325-first cylinder, 326-second cylinder, 327-graver module, 328-protective cover, 329-buffer cylinder, 3291-connecting frame, 3292-module shell, 410-first electromagnetic valve, 420-second electromagnetic valve, 430-control circuit board, 440-control switch, 450-air exhaust system and 460-air supply system.

Detailed Description

In order to better illustrate the invention, the invention is described in further detail below with reference to the accompanying drawings.

It should be understood that the embodiments described are only some embodiments of the present application, and not all embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without any creative effort belong to the protection scope of the embodiments in the present application.

The terminology used in the embodiments of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the embodiments of the present application. As used in the examples of this application and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the application, as detailed in the appended claims. In the description of the present application, it is to be understood that the terms "first," "second," "third," and the like are used solely to distinguish one from another and are not necessarily used to describe a particular order or sequence, nor are they to be construed as indicating or implying relative importance. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

Further, in the description of the present application, "a plurality" means two or more unless otherwise specified. "and/or" describes the association relationship of the associated objects, meaning that there may be three relationships, e.g., a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. The character "/" generally indicates that the former and latter associated objects are in an "or" relationship.

The invention provides aluminum plate processing equipment, which can enable aluminum scraps generated in the cutting and grooving processes to directly fall onto the ground under the action of self gravity, and avoid the reduction of cutting precision caused by extra cleaning work or the falling of the aluminum scraps on an area to be cut, which is generated by the fact that the aluminum scraps directly fall on the surface of an aluminum plate; and still utilize a plurality of through-holes to adsorb and fix aluminum plate, prevent that aluminum plate whereabouts from flying the board phenomenon with preventing aluminum plate from appearing when adding man-hour, in addition, a plurality of through-holes can also jet-propelled aluminum plate, make things convenient for the workman to take out aluminum plate, and through the through-hole jet-propelled simultaneously, can prevent that the foreign matter (like the aluminium bits) from getting into the through-hole, avoid the through-hole to be blockked up.

Specifically, as shown in fig. 1 to 8 in conjunction, the aluminum plate processing apparatus includes: a base 100; a cutting table 200, wherein the cutting table 200 is arranged on the stand 100; the table top 210 of the cutting table is obliquely arranged relative to the ground where the stand 100 is positioned; the table top 210 of the cutting table has a plurality of through holes; an air exhaust system, wherein the air exhaust system 450 is communicated with the through holes through a first electromagnetic valve 410, so that the cutting table 200 can absorb and fix the aluminum plate under the action of the air exhaust system; the air supply system 460 is communicated with the through holes through a second electromagnetic valve 420; the processing device 300 is arranged on the stand 100 and is used for processing the aluminum plate on the cutting table 200; when the first electromagnetic valve is opened and the second electromagnetic valve is closed, the through holes fix the aluminum plate on the bisection cutting table; when the first electromagnetic valve is closed and the second electromagnetic valve is opened, the through holes loosen the aluminum plate on the tangential cutting table.

Compared with the prior art, the invention has the advantages that by arranging the cutting table 200 obliquely relative to the ground on which the stand 100 is positioned, placing an aluminum plate on the table top of the cutting table, starting the air exhaust system to enable the through holes on the table top of the cutting table to generate negative pressure, adsorbing an aluminum plate and fixing the aluminum plate on the table top of the cutting table (it should be noted that the aluminum plate has a light weight and can be adsorbed by a plurality of through holes and providing corresponding suction force), performing cutting operation or grooving operation or engraving operation on the aluminum plate by the processing device, the aluminum scraps generated in the operation process can directly fall onto the ground under the action of the self gravity of the aluminum scraps, so that the reduction of cutting precision caused by extra cleaning work or the falling of the aluminum scraps on an area to be cut, which is generated by the fact that the aluminum scraps directly fall on the surface of an aluminum plate, is avoided; and the aluminum plate is adsorbed and fixed through the through holes, so that the aluminum plate is prevented from falling and flying during processing. In addition, a plurality of through-holes can also be sprayed air to aluminum plate, so that the aluminum plate can be conveniently taken out by workers, and foreign matters (such as aluminum scraps) can be prevented from entering the through-holes by spraying air through the through-holes, and the through-holes are prevented from being blocked. In addition, the stand adopts vertical design, can save this aluminum plate processing equipment's area, improves space utilization.

In one embodiment, the aluminum plate processing equipment further includes a control circuit board 430 and a control switch 440, wherein the control switch 440 is electrically connected to the control circuit board 430, and is configured to send a fixing signal or a releasing signal to the control circuit board 430; the control circuit board 430 is further electrically connected to the first solenoid valve 410 and the second solenoid valve 420, and is configured to control the first solenoid valve to be opened and the second solenoid valve to be closed according to a fixed signal, or control the first solenoid valve to be closed and the second solenoid valve to be opened according to a release signal. The invention can realize the fixation or the loosening of the aluminum plate by operating the control switch.

In one embodiment, the cutting table land 210 forms an inclination angle α with the ground, the inclination angle α having an angle ranging from 60 ° to 70 °; according to the invention, the inclination angle alpha is set to be 60-70 degrees, so that aluminum scraps can effectively fall onto the ground naturally and can not adhere to the surface of an aluminum plate, the extra cleaning work is avoided, and the workload of workers is reduced.

In one embodiment, the frame is provided with a plurality of positioning cylinders 211, the plurality of positioning cylinders comprises a plurality of transverse positioning cylinders and a plurality of longitudinal positioning cylinders, the plurality of transverse positioning cylinders are arranged at the lower side of the cutting table, and the plurality of longitudinal positioning cylinders are arranged at the left side of the cutting table.

Specifically, when a worker places an aluminum plate on a placing surface on the cutting table (at this time, an air exhaust system is not operated, and a plurality of adsorption holes cannot generate negative pressure to adsorb the aluminum plate), a plurality of transverse positioning cylinders and a plurality of longitudinal positioning cylinders perform an extending action, at this time, the lower side of the aluminum plate is supported and positioned by extension rods of the plurality of transverse positioning cylinders, and cannot fall downwards, and the left side of the aluminum plate is positioned by the extension rods of the plurality of longitudinal positioning cylinders; the positioning function of the aluminum plate can be realized through the mode, so that the positioning during automatic processing is convenient.

When the air exhaust system works and the adsorption holes generate negative pressure to adsorb the aluminum plate, the transverse positioning cylinders and the longitudinal positioning cylinders retract, and at the moment, the extension rods of the transverse positioning cylinders and the longitudinal positioning cylinders retract so as to influence the processing of the aluminum plate.

In one embodiment, the processing device comprises a processing mechanism for processing the aluminum plate on the cutting table 200 and a moving mechanism; the movement mechanism is in driving connection with the processing mechanism, and the relative position of the processing mechanism on the cutting table 200 is changed by the movement mechanism, so that the processing mechanism can process different positions of the aluminum plate.

Further, the motion mechanism includes: a first guide rail 311, wherein the first guide rail 311 is arranged at the upper end of the machine base 100, and the extending direction of the first guide rail 311 is consistent with the extending direction of the machine base 100; the second guide rail 312 is arranged at the lower end of the machine base 100, and the second guide rail 312 is arranged in parallel relative to the first guide rail 311; the upper end and the lower end of the movable frame 313 are respectively movably arranged on the first guide rail 311 and the second guide rail 312, and move along the extending direction of the machine base 100; a third guide rail 314 is arranged on the moving frame 313, and the third guide rail 314 is vertically arranged relative to the first guide rail 311; the processing mechanism is movably disposed on the third guide rail 314 and moves along the extending direction of the third guide rail 314.

According to the invention, the upper end and the lower end of the movable frame are respectively movably arranged on the first guide rail and the second guide rail, so that the movable frame can move on the machine base along the extension direction of the machine base, and the processing mechanism on the movable frame can move in the first direction; the processing mechanism is further movably disposed on the third guide rail and moves along an extending direction of the third guide rail, so that the processing mechanism moves in a second direction (it should be noted that the second direction is perpendicular to the first direction). The processing mechanism can process the aluminum plate at different positions of the aluminum plate by moving in the first direction and the second direction.

Regarding the movable connection manner of the movable frame with the first guide rail and the second guide rail, specifically, a first rack is arranged on one side of the first guide rail 311; a first movable assembly is arranged at the upper end of the movable frame 313, the first movable assembly comprises a first movable motor and a rotating gear in driving connection with the first movable motor, the rotating gear is in movable fit with the first rack teeth, and the rotating gear is driven to rotate by the first movable motor, so that the rotating gear can move along the extension direction of the first rack, and the upper end of the movable frame moves along the extension direction of the base; a second rack is arranged on one side of the second guide rail; a second movable assembly is arranged at the upper end of the movable frame and comprises a second movable motor and a rotating gear in driving connection with the second movable motor, the rotating gear is in tooth moving fit with the second rack, the rotating gear is driven to rotate by the second movable motor, the rotating gear can move along the extending direction of the second rack, and the lower end of the movable frame moves along the extending direction of the base; it should be noted that, the first movable motor and the second movable motor work synchronously, so as to avoid the damage of the movable frame.

Similarly, as to the movable connection manner of the movable frame to the processing mechanism, reference may also be made to the movable connection manner of the movable frame and the first guide rail and the second guide rail, and the description of the present invention will not be repeated here.

In one embodiment, the processing mechanism comprises: the fixed plate 321 is movably connected with the moving mechanism; a movable plate 322, the movable plate 322 being disposed in parallel with the fixed plate 321 and being separated from the fixed plate 321; the cutter module 323, the cutter module 323 is disposed on the movable plate 322; and a height adjustment assembly 324; the fixed plate 321 is in driving connection with the movable plate 322 through the height adjusting assembly 324, and is used for adjusting the distance from the cutting knife module 323 to the cutting table 200. The height adjusting assembly comprises a height adjusting motor, a screw rod in driving connection with a rotating shaft of the height adjusting motor, and a movable block which is sleeved on the screw rod and moves along with the rotation of the screw rod, wherein the movable block is connected with the movable plate; according to the invention, by controlling the forward rotation or the reverse rotation of the height adjusting motor and by means of the threaded connection mode of the screw rod and the movable block, the rotary motion of the screw rod is converted into the linear motion of the movable block, so that the distance from the cutting knife module to the cutting table is adjusted, the cutting knife module is convenient to be close to the cutting table and cut or slot an aluminum plate on the cutting table, or the cutting knife module is far away from the cutting table, and a worker can have enough space to take out the aluminum plate on the cutting table.

In order to realize the engraving function of the processing mechanism, preferably, the processing mechanism further includes an engraving knife module 327, and the engraving knife module 327 is disposed on the movable plate 322; the movable plate 322 is in driving connection with the graver module 327 through a second cylinder 326, and is used for driving the graver module 327 to move towards the cutting table 200 or move towards the direction away from the cutting table 200; the movable plate 322 is in driving connection with the cutting knife module 323 through a first air cylinder 325, and is used for driving the cutting knife module 323 to move towards the cutting table 200 or to move away from the cutting table 200. Wherein, the cutter module is connected with the first cylinder 325 through the first movable plate 3237.

The aluminum plate cutting or grooving method comprises the following steps that a cutting knife module connected with a first cylinder moves towards a direction close to a cutting table by utilizing the telescopic action of the first cylinder when the aluminum plate needs to be cut or grooved, the distance from the cutting knife module to the cutting table is reduced (namely the cutting knife module descends), so that the aluminum plate is cut or grooved, and when the aluminum plate does not need to be cut or grooved, the first cylinder retracts to enable the cutting knife module to move towards a direction far away from the cutting table, so that the distance from the cutting knife module to the cutting table is increased (namely the cutting knife module ascends), so that the aluminum plate is not cut or grooved;

the aluminum plate engraving machine comprises a first cylinder, a second cylinder, a engraving knife module, a second cylinder, a first air cylinder, a second air cylinder, a first air cylinder, a second air cylinder, a third air cylinder, a fourth air cylinder.

According to the invention, the movable plate can be adjusted to a certain distance through the height adjusting assembly (namely, the cutting knife module and the engraving knife module are not in contact with the aluminum plate on the cutting table), and the first cylinder or the second cylinder is controlled to extend out according to the processing requirements (cutting, slotting or engraving) of actual needs, so that different processing procedures of the aluminum plate are met, and multiple functions are realized.

Further, this processing agency still utilizes the safety cover to protect carving tool module and cutting knife module including setting up the safety cover in the carving tool module and the cutting knife module outside.

Preferably, the cutter module 323 comprises: a cutter assembly; the rotating assembly 3236 is in driving connection with the cutting knife assembly, and is used for enabling the cutting knife assembly to rotate 360 degrees on the cutting table 200; the rotation assembly 3236 is drivingly connected to the first cylinder 325. The rotating assembly 3236 is disposed in a module housing 3292 and is drivingly connected to the first cylinder 325 via a first movable plate. The rotating assembly comprises a rotating motor, the rotating motor is rotatably connected with the cutting knife assembly, and the cutting knife assembly rotates 360 degrees on the cutting table through rotation of the rotating motor, so that different cutting angles and different grooving grooves are generated during aluminum plate machining. Wherein the rotary motor is disposed within the module housing 3292 and connected to the cutting blade assembly through the underside of the module housing.

Further, the cutting knife assembly comprises a working motor 3231, a circular saw 3232 drivingly connected with the working motor 3231, and a protective shell 3233 sleeved on the outer side of the circular saw 3232, wherein an opening 3233a is formed in one side of the protective shell 3233 close to the cutting table 200, and the circular saw 3232 is exposed through the opening 3233 a; when the cutting blade assembly processes the aluminum plate on the cutting table 200, a gap is left between the opening 3233a and the aluminum plate. According to the invention, the circular saw is driven to rotate by the working motor, so that the aluminum plate is cut or grooved, meanwhile, the protective shell is sleeved on the outer side of the circular saw, and a gap is reserved between the opening and the aluminum plate during machining, so that aluminum scraps generated in the cutting or grooving process can be prevented from splashing to accidentally injure surrounding workers, the aluminum scraps can be intensively accumulated in the protective shell, and when the cutter assembly to be cut leaves the aluminum plate, the accumulated aluminum scraps fall to the ground in a centralized manner.

In a preferred embodiment, the cutting knife assembly further comprises a servo motor 3234 and a follower wheel 3235, the servo motor 3234 is drivingly connected to the follower wheel 3235 for adjusting the distance from the lowest point of the follower wheel 3235 to the lowest point of the circular saw 3232, so as to change the grooving depth of the circular saw 3232. Specifically, when the lowest point of the circular saw is lower than that of the following wheel, the following wheel compresses tightly the aluminum plate, the circular saw slots the aluminum plate, and the servo motor works to adjust the distance from the lowest point of the following wheel 3235 to the lowest point of the circular saw 3232, so that the change of the slotting depth can be realized.

One side of the cutting knife assembly is provided with a lifting guide rail, and the following wheel is connected to the lifting guide rail in a sliding mode through a connecting assembly, so that the following wheel can move up or down along the lifting guide rail under the driving action of the servo motor.

Further, the cutting knife module further comprises a buffer cylinder 329, the buffer cylinder 329 comprises a fixing part and an extending part, the fixing part is connected with the module shell 3292, and the extending part is connected with the first movable sub-plate 3237 through a connecting frame 3291. Specifically, when the follower wheel cuts the aluminum material with uneven surface, the up-and-down floating adjustment can be carried out through the buffer cylinder 329, and the consistent grooving depth is ensured.

In an embodiment, this multi-functional vertical aluminum plate cutting system includes control system, this control system and location cylinder, motion and processing agency electric connection to realize aluminum plate's automated processing through working signal, only need the workman place the cutting bed with aluminum plate and toward the control system in input corresponding cutting plate number, saw cut data, sculpture data can, simple swift, can not be because of the aluminum plate size that human factor (pushes away heavily, pushes away lightly) was cut out is not right, reduce the loss, improve work efficiency. It should be noted that, regarding the analysis and processing of the signals, the analysis and processing can be implemented by using technical means commonly used by those skilled in the art or other known technologies, and the present invention is not limited to this.

Variations and modifications to the above-described embodiments may occur to those skilled in the art, which fall within the scope and spirit of the above description. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and variations of the present invention should fall within the scope of the claims of the present invention. Furthermore, although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.