阅读说明：本技术 一种亚克力板切割粉末处理装置 (Inferior gram force board cutting powder processing apparatus ) 是由 孙业宝 唐凯 于 2021-07-21 设计创作，主要内容包括：本发明涉及一种工程领域,更具体的说是一种亚克力板切割粉末处理装置,可以传输不同宽度及厚度的亚克力板；可以改变切割装置的高度,进而可以改变了切割亚克力板的深度,包括智能传输装置、切割装置、粉末处理装置,转动螺杆七可以改变长杆十及下面切割装置的高度,进而可以改变了切割亚克力板的深度,转动转纽三,带动螺杆六转动,带动功能板背板内移动,带动连接杆五在槽口内移动,带动齿轮六在皮带二上移动,进而通过改变了功能板的位置,进而改变了对亚克力板切割的起始位置。(The invention relates to the field of engineering, in particular to an acrylic plate cutting powder processing device which can be used for conveying acrylic plates with different widths and thicknesses; can change cutting device's height, and then can change the degree of depth of cutting acrylic plate, including intelligent transmission device, cutting device, powder processing apparatus, it can change ten and following cutting device's of stock height to rotate seven screw rods, and then can change the degree of depth of cutting acrylic plate, rotate and change three, drive six rotations of screw rod, it removes to drive the function board backplate, it removes in the notch to drive five connecting rods, it removes on belt two to drive six gears, and then through the position that has changed the function board, and then changed the initial position to the cutting of acrylic plate.)

1. The utility model provides an inferior gram force board cutting powder processing apparatus, includes intelligent transmission device (1), cutting device (2), powder processing apparatus (3), its characterized in that: the powder processing device is characterized by comprising an intelligent transmission device (1) connected with a cutting device (2), wherein the cutting device (2) is connected with a powder processing device (3).

2. The acrylic plate cutting powder processing device according to claim 1, wherein: the intelligent transmission device (1) comprises a motor I (1-1), a motor support (1-2), a half gear (1-3), a gear I (1-4), a long rod (1-5), rollers (1-6), a belt I (1-7), a shifting sheet (1-8), an acrylic plate (1-9), a fastening bottom plate (1-10), a fastening upper layer plate (1-11), a connecting plate I (1-12), a connecting plate II (1-13), a screw rod I (1-14), a rotary knob (1-15), a screw rod II (1-16), a sliding block (1-17), a limiting rod (1-18), a fixing block (1-19), a long gear (1-20), a long rod II (1-21), a long rod III (1-22), A sliding plate (1-23), a fixed column (1-24), a hollow cylinder (1-25), a connecting plate III (1-26) and a long rod IV (1-27), wherein a motor I (1-1) is fixedly connected with a motor support (1-2), a motor I (1-1) is fixedly connected with a half gear (1-3), the half gear (1-3) is matched and connected with a gear I (1-4), the gear I (1-4) is fixedly connected with the long rod (1-5), two rollers (1-6) are fixedly connected with a belt I (1-7), the belt I (1-7) is fixedly connected with a shifting sheet (1-8), the shifting sheet (1-8) is matched and connected with an acrylic plate (1-9), two fastening bottom plates (1-10) are both connected with an acrylic plate (1-9) in a sliding way, two fastening upper layer plates (1-11) are both connected with the acrylic plate (1-9) in a sliding way, two fastening bottom plates (1-10) are both connected with a first connecting plate (1-12) in a fixed way, two fastening upper layer plates (1-11) are both connected with a second connecting plate (1-13) in a fixed way, the second connecting plate (1-13) is rotationally connected with a first screw rod (1-14), the first connecting plate (1-12) is connected with the first screw rod (1-14) in a threaded way, a knob (1-15) is connected with a second screw rod (1-16) in a fixed way, the second screw rod (1-16) is connected with a sliding block (1-17) in a threaded way, the sliding block (1-17) is connected with a limiting rod (1-18) in a sliding way, the limiting rod (1-18) is connected with a fixed block (1-19) in a fixed way, the fixing block (1-19) is rotatably connected with the long gear (1-20), the long gear (1-20) is fixedly connected with the second long rod (1-21), the two third long rods (1-22) are hinged with the second long rod (1-21), the third long rods (1-22) are hinged with the sliding plate (1-23), the fixing columns (1-24) are rotatably connected with the hollow cylinder (1-25), a plurality of groups of fixing columns (1-24) are fixedly connected with the sliding plate (1-23), the four fourth long rods (1-27) are fixedly connected with the connecting plate (1-26), the sliding plate (1-23) is slidably connected with the fourth long rods (1-27), and the two fourth long rods (1-27) are fixedly connected with the fixing block (1-19).

3. The acrylic plate cutting powder processing device according to claim 1, wherein: the cutting device (2) comprises a motor II (2-1), a gear IV (2-2), a motor supporting plate (2-3), a belt II (2-4), a gear V (2-5), a gear VI (2-6), a connecting rod V (2-7), a notch (2-8), a back plate (2-9), a square rod (2-10), a connecting rod V (2-11), an opening plate (2-12), a function plate (2-13), a rotary knob III (2-14), a screw rod VI (2-15), a screw rod VII (2-16), a fixing ring (2-17), a limiting ring (2-18), a long rod VI (2-19), a motor III (2-20), a limiting plate II (2-21), a hollow pipe (2-22), an inner pipe (2-23), The spring (2-24), the hollow box (2-25), the pressing plate (2-26), the suction port (2-27), the drill bit (2-28), the outlet (2-29) and the long rod (2-30), the motor II (2-1) is fixedly connected with the gear IV (2-2), the motor II (2-1) is fixedly connected with the motor supporting plate (2-3), the gear IV (2-2) is connected with the belt II (2-4) in a matching way, the belt II (2-4) is connected with the gear V (2-5) in a matching way, the belt II (2-4) is connected with the gear VI (2-6) in a matching way, the gear VI (2-6) is fixedly connected with the connecting rod V (2-7), the connecting rod V (2-7) is connected with the notch (2-8) in a sliding way, the notch (2-8) is arranged on the back plate (2-9), the back plate (2-9) is fixedly connected with the square rod (2-10), the square rod (2-10) is slidably connected with the connecting rod five (2-11), the connecting rod five (2-7) is fixedly connected with the opening plate (2-12), the connecting rod five (2-7) is rotatably connected with the function plate (2-13), the knob three (2-14) is fixedly connected with the screw rod six (2-15), the function plate (2-13) is in threaded connection with the screw rod six (2-15), the screw rod seven (2-16) is rotatably connected with the fixing ring (2-17), the screw rod seven (2-16) is in threaded connection with the limit ring (2-18), the connecting rod five (2-11) is slidably connected with the long rod ten (2-30), the fixing ring (2-17) is fixedly connected with the long rod ten (2-30), the limiting ring (2-18) is connected with the long rod ten (2-30) in a sliding manner, the motor three (2-20) is fixedly connected with the long rod ten (2-30), the motor three (2-20) is fixedly connected with the limiting plate two (2-21), four hollow pipes (2-22) are fixedly connected with the limiting plate two (2-21), the hollow pipes (2-22) are connected with the inner pipe (2-23) in a sliding manner, the hollow pipes (2-22) are fixedly connected with the springs (2-24), the springs (2-24) are fixedly connected with the hollow boxes (2-25), the motor three (2-20) is connected with the hollow boxes (2-25) in a sliding manner, the hollow boxes (2-25) are fixedly connected with the pressing plate (2-26), the suction ports (2-27) are arranged on the pressing plate (2-26), the motor three (2-20) is fixedly connected with the drill bit (2-28), the hollow boxes (2-25) are fixedly connected with the outlets (2-29), and the fastening bottom plates (1-10) are fixedly connected with the back plates (2-9).

4. The acrylic plate cutting powder processing device according to claim 1, wherein: the powder treatment device (3) comprises a powder inlet pipe (3-1), a powder storage chamber (3-2), a filter screen (3-3), a ventilation chamber (3-4), a fan (3-5), a motor (3-6), an air outlet (3-7), a screw (3-8) and a nut (3-9), wherein the powder inlet pipe (3-1) is fixedly connected with the powder storage chamber (3-2), the powder storage chamber (3-2) is fixedly connected with the filter screen (3-3), the filter screen (3-3) is fixedly connected with the ventilation chamber (3-4), the fan (3-5) is fixedly connected with the motor (3-6), the four air outlets (3-7) are all arranged on the ventilation chamber (3-4), and the screw (3-8) is in threaded connection with the nut (3-9), the outlet (2-29) is fixedly connected with the powder inlet pipe (3-1).

Technical Field

The invention relates to the field of engineering, in particular to a device for processing cutting powder of an acrylic plate.

Background

The integrated cutting and powder processing device for the acrylic plate is a common engineering machine, for example, an acrylic plate cutting and fixing device with the patent number of CN202020648898.4, the mechanism comprises a fixing device slide rail, slide rail grooves are arranged on the two side surfaces of the fixing device slide rail, a first slide block wear-resistant pad is nested on the inner surface of a first fixing slide block, the fixing device slide rail and a slide rail mounting and fixing hole arranged above the fixing device slide rail can be placed on an acrylic plate cutting workbench according to different position and angle requirements, the fixing device slide rail is fixed through a bolt, after the fixing device slide rail is fixed, the fixing device slide rail can be moved and fixed according to the length and width of the acrylic plate through the sliding of a first fixing slide block and a second fixing slide block, and is fixed through a first slide block fixing threaded hole on the first fixing slide block and a second slide block fixing threaded hole on the second fixing slide block, and then cutting the acrylic plate, but the device can not adapt to the acrylic plate of different width and thickness, and can not change the degree of depth of cutting the acrylic plate.

Disclosure of Invention

The invention aims to provide a device for processing cutting powder of an acrylic plate, which can be used for conveying acrylic plates with different widths and thicknesses; the height of the cutting device can be changed, and the depth of cutting the acrylic plate can be further changed.

The purpose of the invention is realized by the following technical scheme:

the utility model provides an inferior gram force board cutting powder processing apparatus, includes intelligent transmission device, cutting device, powder processing apparatus, be connected with cutting device including intelligent transmission device, cutting device is connected with powder processing apparatus.

As a further optimization of the technical scheme, the invention relates to an acrylic plate cutting powder processing device, which comprises a motor I, a motor bracket, a half gear, a gear I, a long rod, rollers, a belt I, a shifting sheet, an acrylic plate, a fastening bottom plate, a fastening upper plate, a connecting plate I, a connecting plate II, a screw rod I, a rotary knob, a screw rod II, a sliding block, a limiting rod, a fixing block, a long gear, a long rod II, a long rod III, a sliding plate, a fixing column, a hollow cylinder, a connecting plate III and a long rod IV, wherein the motor I is fixedly connected with the motor bracket, the motor I is fixedly connected with the half gear, the half gear is connected with the gear I in a matching way, the gear I is fixedly connected with the long rod, the two rollers are fixedly connected with the belt I, the belt I is fixedly connected with the shifting sheet, the shifting sheet is connected with the acrylic plate in a matching way, the two fastening bottom plates are connected with the acrylic plate in a sliding way, two fastening top plates all with ya keli board sliding connection, two fastening bottom plates all with a connecting plate fixed connection, two fastening top plates all with two connecting plate fixed connection, a connecting plate two rotates with screw rod one and is connected, a connecting plate one and screw rod one threaded connection, change knob and two screw rod fixed connection, screw rod two and slider threaded connection, slider and gag lever post sliding connection, gag lever post and fixed block fixed connection, the fixed block rotates with the long gear to be connected, long gear and two stock fixed connection, two stock three all are connected with two articulated stocks, stock three is connected with the slide is articulated, the fixed column rotates with hollow cylinder to be connected, multiunit fixed column all with slide fixed connection, four stock four all with three fixed connection of connecting plate, slide and stock four sliding connection, two stock four all with fixed block fixed connection.

As a further optimization of the technical scheme, the invention relates to an acrylic plate cutting powder processing device, which comprises a second motor, a fourth gear, a motor supporting plate, a second belt, a fifth gear, a sixth gear, a fifth connecting rod, a notch, a back plate, a square rod, a fifth connecting rod, an opening plate, a functional plate, a third rotary knob, a sixth screw, a seventh screw, a fixing ring, a limiting ring, a sixth long rod, a third motor, a second limiting plate, a hollow pipe, an inner pipe, a spring, a hollow box, a pressing plate, a suction port, a drill bit, an outlet and a tenth long rod, wherein the second motor is fixedly connected with the fourth gear, the second motor is fixedly connected with the supporting plate, the fourth gear is connected with the second belt in a matching manner, the second belt is connected with the fifth gear in a matching manner, the sixth gear is fixedly connected with the fifth connecting rod, the fifth connecting rod is connected with the notch in a sliding manner, the notch is arranged on the back plate, and the square rod is fixedly connected with the back plate, the square rod is connected with the connecting rod five in a sliding mode, the connecting rod five is fixedly connected with the opening plate, the connecting rod five is connected with the function plate in a rotating mode, the knob three is fixedly connected with the screw rod six, the function plate is connected with the screw rod six in a threaded mode, the screw rod seven is connected with the fixing ring in a rotating mode, the screw rod seven is connected with the limiting ring in a threaded mode, the connecting rod five is connected with the long rod ten in a sliding mode, the fixing ring is fixedly connected with the long rod ten in a sliding mode, the limiting ring is connected with the long rod ten in a sliding mode, the motor three is fixedly connected with the long rod ten in a fixed mode, the motor three is fixedly connected with the limiting plate two, the four hollow pipes are fixedly connected with the limiting plate two in a sliding mode, the hollow pipes are connected with the inner pipe in a sliding mode, the springs are fixedly connected with the hollow boxes, the motor three is connected with the hollow boxes in a sliding mode, the hollow boxes are fixedly connected with the pressing plate, the suction ports are arranged on the pressing plate, the motor three is fixedly connected with the drill bits, the hollow boxes are fixedly connected with the outlets, and the fastening bottom plate is fixedly connected with the back plate.

As a further optimization of the technical scheme, the invention provides an acrylic plate cutting powder processing device, which comprises a powder inlet pipe, a powder storage chamber, a filter screen, a ventilation chamber, a fan, a motor, air outlets, screws and nuts, wherein the powder inlet pipe is fixedly connected with the powder storage chamber, the powder storage chamber is fixedly connected with the filter screen, the filter screen is fixedly connected with the ventilation chamber, the fan is fixedly connected with the motor, the four air outlets are all arranged on the ventilation chamber, the screws are in threaded connection with the nuts, and the outlets are fixedly connected with the powder inlet pipe.

The acrylic plate cutting powder processing device has the beneficial effects that: the seventh rotary screw rod can change the height of the ten long rods and the height of the cutting device below the ten long rods, the depth of the acrylic plate can be changed, the third rotary knob is rotated to drive the sixth rotary screw rod to rotate, the back plate of the functional plate is driven to move, the fifth connecting rod is driven to move in the groove, the sixth gear is driven to move on the second belt, and the position of the functional plate is changed, so that the initial position of the acrylic plate cutting is changed.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a first schematic structural diagram of an intelligent transmission device according to the present invention;

FIG. 4 is a schematic structural diagram of an intelligent transmission device according to the present invention;

FIG. 5 is a schematic structural diagram III of the intelligent transmission device of the present invention;

FIG. 6 is a fourth schematic structural diagram of the intelligent transmission device of the present invention;

FIG. 7 is a schematic structural diagram of an intelligent transmission device according to the present invention;

FIG. 8 is a first schematic structural diagram of a cutting device according to the present invention;

FIG. 9 is a second schematic structural view of the cutting device of the present invention;

FIG. 10 is a third schematic view of the cutting device of the present invention;

FIG. 11 is a first schematic view of the powder processing apparatus according to the present invention;

FIG. 12 is a second schematic view of the powder processing apparatus according to the present invention.

In the figure: an intelligent transmission device 1; 1-1 of a motor I; a motor bracket 1-2; 1-3 of a half gear; 1-4 of a first gear; long rods 1-5; 1-6 of rollers; 1-7 parts of a first belt; 1-8 of a plectrum; 1-9 parts of acrylic plates; fastening the bottom plate 1-10; fastening the upper plate 1-11; 1-12 of a connecting plate I; connecting plates II 1-13; 1-14 parts of a first screw; 1-15 of a knob; 1-16 parts of a second screw; 1-17 of a slide block; 1-18 parts of a limiting rod; 1-19 parts of a fixed block; 1-20 parts of long gear; a second long rod 1-21; a long rod III 1-22; 1-23 of a sliding plate; 1-24 parts of a fixing column; 1-25 of hollow cylinder; connecting plates III 1-26; a long rod IV 1-27; a cutting device 2; a second motor 2-1; 2-2 parts of a gear; 2-3 of a motor supporting plate; 2-4 parts of a second belt; 2-5 parts of a gear; 2-6 parts of a gear; connecting rods five 2-7; 2-8 of notches; 2-9 of a back plate; 2-10 parts of a square rod; connecting rods five 2-11; 2-12 parts of an opening plate; 2-13 of a function board; 2-14 of a knob; 2-15 parts of a screw; 2-16 parts of a screw rod seven; 2-17 parts of a fixed ring; 2-18 parts of a limiting ring; six long rods 2-19; 2-20 parts of a motor III; 2-21 parts of a second limiting plate; 2-22 parts of an empty pipe; 2-23 parts of an inner pipe; 2-24 parts of spring; 2-25 parts of hollow box; 2-26 of a pressing plate; suction ports 2 to 27; 2-28 of a drill bit; outlets 2-29; ten 2-30 long rods; a powder processing device 3; 3-1 of a powder inlet pipe; a powder storage chamber 3-2; 3-3 of a filter screen; 3-4 of a ventilation chamber; 3-5 of a fan; 3-6 of a motor; 3-7 of an air outlet; 3-8 parts of screws; and 3-9 parts of nut.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1 to 12, and an acrylic plate cutting powder processing apparatus includes an intelligent transmission device 1, a cutting device 2, and a powder processing device 3, where the intelligent transmission device 1 is connected to the cutting device 2, and the cutting device 2 is connected to the powder processing device 3.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1-12, and the embodiment will be further described, wherein the intelligent transmission device 1 includes a motor 1-1, a motor bracket 1-2, a half gear 1-3, a gear 1-4, a long rod 1-5, a roller 1-6, a belt 1-7, a plectrum 1-8, an acrylic plate 1-9, a fastening bottom plate 1-10, a fastening upper plate 1-11, a connecting plate 1-12, a connecting plate two 1-13, a screw rod 1-14, a rotary knob 1-15, a screw rod two 1-16, a sliding block 1-17, a limit rod 1-18, a fixing block 1-19, a long gear 1-20, a long rod two 1-21, a long rod three 1-22, a sliding plate 1-23, a fixing column 1-24, a fixing column 1-9, a fixing plate 1-10, a fastening upper plate 1-11, a connecting plate 1-12, a connecting plate two, a screw rod 1-13, a screw rod one 1-14, a screw rod one 1-15, a screw rod two-17, a limiting rod 1-18, a fixing block, a fixing block, a, The hollow cylinder 1-25, the connecting plate three 1-26, the long rod four 1-27, the motor one 1-1 is fixedly connected with the motor support 1-2, the motor one 1-1 is fixedly connected with the half gear 1-3, the half gear 1-3 is connected with the gear one 1-4 in a matching way, the gear one 1-4 is fixedly connected with the long rod 1-5, the two rollers 1-6 are both fixedly connected with the belt one 1-7, the belt one 1-7 is connected with the shifting piece 1-8, the shifting piece 1-8 is connected with the acrylic plate 1-9 in a matching way, the two fastening bottom plates 1-10 are both connected with the acrylic plate 1-9 in a sliding way, the two fastening upper plate 1-11 are both connected with the acrylic plate 1-9 in a sliding way, two fastening bottom plates 1-10 are fixedly connected with a first connecting plate 1-12, two fastening upper plate 1-11 are fixedly connected with a second connecting plate 1-13, a second connecting plate 1-13 is rotatably connected with a first screw rod 1-14, a first connecting plate 1-12 is in threaded connection with the first screw rod 1-14, a knob 1-15 is fixedly connected with the second screw rod 1-16, the second screw rod 1-16 is in threaded connection with a slider 1-17, the slider 1-17 is in sliding connection with a limiting rod 1-18, the limiting rod 1-18 is fixedly connected with a fixed block 1-19, the fixed block 1-19 is rotatably connected with a long gear 1-20, the long gear 1-20 is fixedly connected with a second long rod 1-21, two long rods three 1-22 are hinged with the second long rod 1-21, the long rods three 1-22 are hinged with a sliding plate 1-23, the fixed columns 1-24 are rotatably connected with the hollow cylinders 1-25, a plurality of groups of fixed columns 1-24 are fixedly connected with the sliding plates 1-23, four long rods four 1-27 are fixedly connected with the connecting plates three 1-26, the sliding plates 1-23 are slidably connected with the long rods four 1-27, and two long rods four 1-27 are fixedly connected with the fixed blocks 1-19;

the acrylic plate 1-9 is placed on the sliding plate 1-23, the rotating knob 1-15 is rotated to drive the screw rod II 1-16 to rotate, the sliding block 1-17 is driven to move forwards or backwards, the limiting rod 1-18 plays a role of limiting the sliding block 1-17, the long gear 1-20 is driven to rotate clockwise or anticlockwise to drive the long rod II 1-21 to rotate, the two long rods III 1-22 are driven to move, the two sliding plates 1-23 are driven to gather or separate, the width of the two groups of hollow cylinders 1-25 is further changed, the acrylic plate 1-9 with different widths is further adapted, the motor I1-1 is started to drive the half gear 1-3 to rotate, the gear I1-4 is driven to rotate intermittently, the long rod 1-5 is driven to rotate intermittently, and the two rollers 1-6 are driven to rotate intermittently, the two belts I1-7 are driven to intermittently move, the two shifting pieces 1-8 are driven to intermittently move, the acrylic plates 1-9 are intermittently and previously pushed, the acrylic plates 1-9 come out from the middle of the fastening bottom plate 1-10 and the fastening upper layer plate 1-11, and the distance between the fastening bottom plate 1-10 and the fastening upper layer plate 1-11 can be adjusted by rotating the two screws I1-14, so that the thickness of the acrylic plates 1-9 is matched.

The third concrete implementation mode:

the following describes the embodiment with reference to fig. 1 to 12, and the embodiment further describes the embodiment, where the cutting device 2 includes a second motor 2-1, a fourth gear 2-2, a motor support plate 2-3, a second belt 2-4, a fifth gear 2-5, a sixth gear 2-6, a fifth connecting rod 2-7, a notch 2-8, a back plate 2-9, a square rod 2-10, a fifth connecting rod 2-11, a split plate 2-12, a functional plate 2-13, a third rotary knob 2-14, a sixth screw rod 2-15, a seventh screw rod 2-16, a fixed ring 2-17, a limit ring 2-18, a sixth long rod 2-19, a third motor 2-20, a second limit plate 2-21, a hollow tube 2-22, an inner tube 2-23, a spring 2-24, a spring 2-17, a third limit plate 2-21, a hollow tube 2-22, an inner tube 2-23, a spring 2-24, a third spring, a fourth gear 2-2, a fourth gear 2-3, a fourth gear 2-10, a fourth gear, a fourth, 2-25 parts of hollow box, 2-26 parts of pressing plate, 2-27 parts of suction port, 2-28 parts of drill bit, 2-29 parts of outlet, ten 2-30 parts of long rod, 2-1 parts of motor, 2-2 parts of gear, 2-1 parts of motor, 2-3 parts of motor supporting plate, 2-2 parts of gear, 2-4 parts of belt, 2-5 parts of gear, 2-4 parts of belt, 2-6 parts of gear, 2-7 parts of connecting rod, 2-8 parts of notch, 2-9 parts of back plate, 2-9 parts of square rod, 2-10 parts of square rod and 2-11 parts of connecting rod, a connecting rod five 2-7 is fixedly connected with an opening plate 2-12, the connecting rod five 2-7 is rotatably connected with a function plate 2-13, a knob three 2-14 is fixedly connected with a screw rod six 2-15, the function plate 2-13 is in threaded connection with the screw rod six 2-15, a screw rod seven 2-16 is rotatably connected with a fixing ring 2-17, a screw rod seven 2-16 is in threaded connection with a limiting ring 2-18, a connecting rod five 2-11 is in sliding connection with a long rod ten 2-30, a fixing ring 2-17 is fixedly connected with the long rod ten 2-30, a limiting ring 2-18 is in sliding connection with the long rod ten 2-30, a motor three 2-20 is fixedly connected with a limiting plate two 2-21, and four hollow pipes 2-22 are all fixedly connected with the limiting plate two 2-21, the hollow pipe 2-22 is connected with the inner pipe 2-23 in a sliding manner, the hollow pipe 2-22 is fixedly connected with the spring 2-24, the spring 2-24 is fixedly connected with the hollow box 2-25, the motor three 2-20 is connected with the hollow box 2-25 in a sliding manner, the hollow box 2-25 is fixedly connected with the pressure plate 2-26, the suction port 2-27 is arranged on the pressure plate 2-26, the motor three 2-20 is fixedly connected with the drill bit 2-28, the hollow box 2-25 is fixedly connected with the outlet 2-29, and the fastening bottom plate 1-10 is fixedly connected with the back plate 2-9;

starting the second motor 2-1 to drive the fourth gear 2-2 to rotate, driving the second belt 2-4 to rotate, driving the sixth gear 2-6 to rotate, driving the fifth connecting rod 2-7 to rotate, driving the opening plate 2-12 to rotate, driving the sixth rod 2-19 to rotate in the internal groove of the function plate 2-13, driving the tenth rod 2-30 and all devices connected below to vertically rotate along the internal groove of the function plate 2-13 due to the limiting function of the fifth connecting rod 2-11, starting the third motor 2-20, when the sixth rod 2-19 moves downwards and moves to the bottom end, the pressing plate 2-26 contacts the acrylic plate 1-9, the pressing plate 2-26 and the hollow box 2-25 stop moving, the third motor 2-20 continues to move downwards, driving the second limiting plate 2-21 to move downwards, drives the four hollow pipes 2-22 to move downwards, the four springs 2-24 are compressed, the drill bits 2-28 move downwards, the acrylic plates 1-9 are drilled, when the long rod six 2-19 moves backwards, the drill 2-28 cuts the acrylic plate 1-9, the screw seven 2-16 is rotated to change the height of the long rod ten 2-30 and the cutting device below, further changing the depth of cutting the acrylic plates 1-9, rotating the third rotating knob 2-14 to drive the screw rod six 2-15 to rotate, driving the function plate 2-13 back plate 2-9 to move, driving the connecting rod five 2-7 to move in the notch 2-8, driving the gear six 2-6 to move on the belt two 2-4, and further, the starting position of cutting the acrylic plates 1-9 is changed by changing the positions of the function plates 2-13.

The fourth concrete implementation mode:

the present embodiment will be described with reference to fig. 1-12, and the present embodiment further describes the first embodiment, wherein the powder processing apparatus 3 includes a powder inlet pipe 3-1, a powder storage chamber 3-2, a filter screen 3-3, an air exchanging chamber 3-4, a fan 3-5, a motor 3-6, an air outlet 3-7, a screw 3-8, and a nut 3-9, the powder inlet pipe 3-1 is fixedly connected to the powder storage chamber 3-2, the powder storage chamber 3-2 is fixedly connected to the filter screen 3-3, the filter screen 3-3 is fixedly connected to the air exchanging chamber 3-4, the fan 3-5 is fixedly connected to the motor 3-6, four air outlets 3-7 are all disposed on the air exchanging chamber 3-4, the screw 3-8 is threadedly connected to the nut 3-9, the outlet 2-29 is fixedly connected with the powder inlet pipe 3-1;

starting the motor 3-6 to drive the fan 3-5 to rotate, rotating the fan 3-5 to generate suction force, further sucking powder drilled by the drill 2-28 into the hollow box 2-25 through the suction port 2-27, enabling the powder to enter the powder inlet pipe 3-1 through the outlet 2-29, further enabling the powder to enter the powder storage chamber 3-2, collecting the powder into the powder storage chamber 3-2 due to the blocking of the filter screen 3-3, rotating the two nuts 3-9 when the powder in the storage chamber 3-2 is fully collected, taking down the screws 3-8, further separating the filter screen 3-3 from the ventilation chamber 3-4, and further taking out the powder for further processing.

The invention relates to a device for processing acrylic plate cutting powder, which has the working principle that: the acrylic plate 1-9 is placed on the sliding plate 1-23, the rotating knob 1-15 is rotated to drive the screw rod II 1-16 to rotate, the sliding block 1-17 is driven to move forwards or backwards, the limiting rod 1-18 plays a role of limiting the sliding block 1-17, the long gear 1-20 is driven to rotate clockwise or anticlockwise to drive the long rod II 1-21 to rotate, the two long rods III 1-22 are driven to move, the two sliding plates 1-23 are driven to gather or separate, the width of the two groups of hollow cylinders 1-25 is further changed, the acrylic plate 1-9 with different widths is further adapted, the motor I1-1 is started to drive the half gear 1-3 to rotate, the gear I1-4 is driven to rotate intermittently, the long rod 1-5 is driven to rotate intermittently, and the two rollers 1-6 are driven to rotate intermittently, the two belts I1-7 are driven to intermittently move, the two shifting pieces 1-8 are driven to intermittently move, the acrylic plates 1-9 are intermittently and previously pushed, the acrylic plates 1-9 come out from the middle of the fastening bottom plate 1-10 and the fastening upper layer plate 1-11, and the distance between the fastening bottom plate 1-10 and the fastening upper layer plate 1-11 can be adjusted by rotating the two screws I1-14, so that the thickness of the acrylic plates 1-9 is adapted; starting the second motor 2-1 to drive the fourth gear 2-2 to rotate, driving the second belt 2-4 to rotate, driving the sixth gear 2-6 to rotate, driving the fifth connecting rod 2-7 to rotate, driving the opening plate 2-12 to rotate, driving the sixth rod 2-19 to rotate in the internal groove of the function plate 2-13, driving the tenth rod 2-30 and all devices connected below to vertically rotate along the internal groove of the function plate 2-13 due to the limiting function of the fifth connecting rod 2-11, starting the third motor 2-20, when the sixth rod 2-19 moves downwards and moves to the bottom end, the pressing plate 2-26 contacts the acrylic plate 1-9, the pressing plate 2-26 and the hollow box 2-25 stop moving, the third motor 2-20 continues to move downwards, driving the second limiting plate 2-21 to move downwards, drives the four hollow pipes 2-22 to move downwards, the four springs 2-24 are compressed, the drill bits 2-28 move downwards, the acrylic plates 1-9 are drilled, when the long rod six 2-19 moves backwards, the drill 2-28 cuts the acrylic plate 1-9, the screw seven 2-16 is rotated to change the height of the long rod ten 2-30 and the cutting device below, further changing the depth of cutting the acrylic plates 1-9, rotating the third rotating knob 2-14 to drive the screw rod six 2-15 to rotate, driving the function plate 2-13 back plate 2-9 to move, driving the connecting rod five 2-7 to move in the notch 2-8, driving the gear six 2-6 to move on the belt two 2-4, the initial position of cutting the acrylic plates 1-9 is changed by changing the positions of the function plates 2-13; starting the motor 3-6 to drive the fan 3-5 to rotate, rotating the fan 3-5 to generate suction force, further sucking powder drilled by the drill 2-28 into the hollow box 2-25 through the suction port 2-27, enabling the powder to enter the powder inlet pipe 3-1 through the outlet 2-29, further enabling the powder to enter the powder storage chamber 3-2, collecting the powder into the powder storage chamber 3-2 due to the blocking of the filter screen 3-3, rotating the two nuts 3-9 when the powder in the storage chamber 3-2 is fully collected, taking down the screws 3-8, further separating the filter screen 3-3 from the ventilation chamber 3-4, and further taking out the powder for further processing.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.