阅读说明：本技术 一种亚克力板切割粉末处理一体设备 (Integrative equipment of inferior gram force board cutting powder processing ) 是由 孙业宝 唐凯 于 2021-07-23 设计创作，主要内容包括：本发明涉及一种亚克力板领域,更具体的说是一种亚克力板切割粉末处理一体设备,现有的亚克力板切割设备在切割时仍然存在缺陷,不能便捷的夹紧板材,不能批量切割出任意形状的板材,不能将废料回收,本发明解决了上述问题,将亚克力板材置于支撑罩上方,支撑调节组合体可根据板材大小调节支撑罩位置,保证不会对切割工作造成干涉,支撑调节组合体通过支撑罩对板材产生吸力将板材固定,切割组合体将板材批量热切割成模具预设的形状后排至斜板滑下完成切割,粉末化组合体将废料粉末化处理,便于废料的回收。(The invention relates to the field of acrylic plates, in particular to an integrated device for cutting and processing acrylic plate powder, which solves the problems that the existing acrylic plate cutting device still has defects during cutting, plates cannot be clamped conveniently, plates in any shapes cannot be cut in batches, and waste materials cannot be recycled.)

1. The utility model provides an integrative equipment is handled to inferior gram force board cutting powder, includes support regulation assembly (1), cutting assembly (2) and powderization assembly (3), its characterized in that: the cutting assembly (2) and the powdering assembly (3) are both connected with the supporting and adjusting assembly (1).

2. The integrated acrylic plate cutting and powder processing equipment as claimed in claim 1, wherein: the supporting and adjusting assembly (1) comprises a bottom plate (1-1), a support post (1-2), an upper support rod (1-3), a fan blade cover (1-4), a ventilation opening (1-5), a supporting cover (1-6), a suction pipe (1-7), a rotary table (1-8), a chute (1-9), a rotary rod (1-10), a ratchet (1-11), a limiting clamp (1-12), a slide rod (1-13), a slide rod support (1-14), a spring I (1-15), a handle (1-16), a suction pipe chute (1-17), a sealing plate (1-18), a spring II (1-19), an air suction channel (1-20), a motor I (1-21), a motor I shaft (1-22), fan blades (1-23), The electric fan comprises motor supports (1-24), support lugs (1-25), sliding groove discs (1-26) and inclined plates (1-27), wherein a bottom plate (1-1) is connected with support columns (1-2), the support columns (1-2) are connected with upper support rods (1-3), the bottom plate (1-1) is connected with fan blade covers (1-4), vent holes (1-5) are formed in the fan blade covers (1-4), support covers (1-6) are connected with suction pipes (1-7), the support covers (1-6) are made of soft rubber, the suction pipes (1-7) are connected with the sliding grooves (1-9) in a sliding mode, the sliding grooves (1-9) are located on rotary discs (1-8), the rotary discs (1-8) are connected with rotary rods (1-10), the rotary rods (1-10) are connected with the sliding groove discs (1-26) in a rotating mode, the ratchet (1-11) is connected with a chute disc (1-26), a limit card (1-12) is contacted with the ratchet (1-11), the limit card (1-12) is connected with a slide bar (1-13), the slide bar (1-13) is connected with a slide bar bracket (1-14) in a sliding way, the slide bar bracket (1-14) is connected with the chute disc (1-26), the slide bar (1-13) is connected with a handle (1-16), a spring I (1-15) is sleeved on the slide bar (1-13), two ends of the spring I (1-15) are respectively connected with the handle (1-16) and the slide bar bracket (1-14), the spring I (1-15) is in a normal state, a suction pipe (1-7) is connected with a suction pipe chute (1-17) in a sliding way, the suction pipe (1-7) is connected with a sealing plate (1-18), the sealing plate (1-18) is connected with the straw chute (1-17) in a sliding manner, two ends of the spring II (1-19) are respectively connected with the straw (1-7) and the straw chute (1-17), the spring II (1-19) is in a compressed state, the air suction channel (1-20) is connected with the chute disc (1-26), the air suction channel (1-20) is connected and communicated with the fan blade cover (1-4), the motor I (1-21) is connected with the motor I shaft (1-22), the motor I shaft (1-22) is connected with the fan blade (1-23), the motor support (1-24) is connected with the upper support rod (1-3), the motor support (1-24) is connected with the support lug (1-25), the sloping plate (1-27) is connected with the support column (1-2).

3. The integrated acrylic plate cutting and powder processing equipment as claimed in claim 1, wherein: the cutting assembly (2) comprises a double-head motor (2-1), a double-head motor shaft (2-2), a notch gear (2-3), a toggle gear (2-4), a toggle gear shaft (2-5), a disc (2-6), a disc toggle lever (2-7), a connecting rod (2-8), a lifting frame (2-9), a servo motor (2-10), an electric cylinder (2-11), an electric cylinder plate (2-12), a sliding plate (2-13), a fixed cylinder (2-14), a fixed cylinder clamp (2-15), a clamping plate (2-16), a push-out column (2-17), a heating threaded cylinder (2-18) and a fusion cutter (2-19), wherein the double-head motor (2-1) is connected with a motor support (1-24), the double-head motor (2-1) is connected with the double-head motor shaft (2-2), the double-head motor shaft (2-2) is rotatably connected with the support lug (1-25), the double-head motor shaft (2-2) is connected with the notch gear (2-3), the notch gear (2-3) is meshed with the toggle gear (2-4), the notch gear (2-3) is consistent with the toggle gear (2-4) in tooth number, the toggle gear (2-4) is connected with the toggle gear shaft (2-5), the toggle gear shaft (2-5) is rotatably connected with the motor bracket (1-24), the gear shaft (2-5) is connected with the toggle disc (2-6), the disc (2-6) is connected with the disc toggle lever (2-7), and the disc toggle lever (2-7) is rotatably connected with the connecting rod (2-8), the connecting rod (2-8) is rotationally connected with a lifting frame (2-9), the double-head motor shaft (2-2), the notch gear (2-3), the toggle gear (2-4), the toggle gear shaft (2-5), the disc (2-6), the disc deflector rod (2-7) and the connecting rod (2-8) are respectively provided with two and are symmetrically arranged, the lifting frame (2-9) is in large friction sliding connection with the support column (1-2), the servo motor (2-10) is connected with the electric cylinder (2-11), the electric cylinder (2-11) is connected with the lifting frame (2-9), the telescopic rod part of the electric cylinder (2-11) is connected with the electric cylinder plate (2-12), the electric cylinder plate (2-12) is connected with the sliding plate (2-13), the sliding plate (2-13) is in sliding connection with the lifting frame (2-9), the sliding plate (2-13) is connected with the fixed cylinder (2-14), the fixed cylinder (2-14) is connected with the fixed cylinder clip (2-15), the clamping plate (2-16) is connected with the fixed cylinder (2-14) in a sliding mode, the clamping plate (2-16) is connected with the push-out column (2-17), the heating thread cylinder (2-18) is connected with the fixed cylinder (2-14) in a threaded mode, the heating thread cylinder (2-18) has a heating function, the heating thread cylinder (2-18) is connected with the fusion cutter (2-19), and the fusion cutter (2-19) can be applied to different shapes according to practical application.

4. The integrated acrylic plate cutting and powder processing equipment as claimed in claim 1, wherein: the powdering assembly (3) comprises a treatment box (3-1), a motor II (3-2), a roller shaft (3-3), a roller I (3-4), a roller II (3-5), a slide block (3-6), a slide block chute (3-7), a spring III (3-8), a spring fixing plate (3-9), a belt wheel I (3-10), a belt (3-11), a belt wheel II (3-12), a hammer breaking shaft (3-13) and a hammer (3-14), the treatment box (3-1) is connected with a bottom plate (1-1), the motor II (3-2) is connected with the roller shaft (3-3), the roller shaft (3-3) is rotatably connected with the treatment box (3-1), the roller shaft (3-3) is connected with the roller I (3-4), two ends of a roller II (3-5) are respectively connected with two sliding blocks (3-6), the sliding blocks (3-6) are connected with sliding block chutes (3-7) in a sliding way, the sliding block chutes (3-7) are positioned on the side wall of a treatment box (3-1), two ends of a spring III (3-8) are respectively connected with the sliding blocks (3-6) and a spring fixing plate (3-9), the spring III (3-8) is in a compression state, the spring fixing plate (3-9) is connected with the treatment box (3-1), a roller shaft (3-3) is connected with a belt wheel I (3-10), the belt wheel I (3-10) is connected with two belt wheels II (3-12) through belts (3-11), and the diameter of the belt wheel I (3-10) is larger than that of the belt wheel II (3-12), the two belt wheels II (3-12) are respectively connected with two hammering shafts (3-13), the hammering shafts (3-13) are rotatably connected with the treatment box (3-1), the two hammering shafts (3-13) are both connected with driving hammers (3-14), and the driving hammers (3-14) on the two hammering shafts (3-13) are respectively arranged in a staggered way.

Technical Field

The invention relates to the field of acrylic plates, in particular to integrated equipment for cutting and powder processing of an acrylic plate.

Background

The acrylic plate cutting equipment is also called specially processed organic glass, is a replacement product of the organic glass, has the characteristics of good light transmission performance, pure color, rich color, attractive appearance, smoothness, consideration of two effects in the daytime and at night, long service life, no influence on use and the like, but the existing acrylic plate cutting equipment still has defects in cutting, cannot clamp plates conveniently, cannot cut plates in any shapes in batches, and cannot recycle waste materials.

Disclosure of Invention

The invention aims to provide integrated equipment for cutting and powder treatment of an acrylic plate, which can automatically finish cutting and waste recovery of the acrylic plate.

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

the utility model provides an integrative equipment of inferior gram force board cutting powder processing, includes that the support adjusts the assembly, cuts the assembly and the combination of powderization, its characterized in that: the cutting assembly and the powdering assembly are connected with the supporting and adjusting assembly.

As a further optimization of the technical scheme, the supporting and adjusting assembly comprises a bottom plate, a support column, an upper support rod, a fan blade cover, ventilation openings, a supporting cover, a suction pipe, a rotary table, a chute, a rotating rod, a ratchet, a limiting clamp, a sliding rod support, a spring I, a handle, a suction pipe chute, a sealing plate, a spring II, a suction channel, a motor I shaft, fan blades, a motor support, a support lug, a chute disc and an inclined plate, wherein the bottom plate is connected with the support column, the support column is connected with the upper support rod, the bottom plate is connected with the fan blade cover, the fan blade cover is provided with the ventilation openings, the supporting cover is connected with the suction pipe, the supporting cover is made of soft rubber, the suction pipe is connected with the chute in a sliding manner, the chute is positioned on the rotary table, the rotary table is connected with the rotating rod, the rotating rod is connected with the chute disc, the ratchet is connected with the chute disc, the limiting clamp is in contact with the ratchet, the slide bar is connected with the slide bar support in a sliding mode, the slide bar support is connected with the sliding groove disc, the slide bar is connected with the handle, the spring I is sleeved on the slide bar, two ends of the spring I are respectively connected with the handle, the slide bar support is connected with the spring I in a normal state, the suction tube is connected with the suction tube sliding groove in a sliding mode, the suction tube is connected with the sealing plate, the sealing plate is connected with the suction tube sliding groove in a sliding mode, two ends of the spring II are respectively connected with the suction tube and the suction tube sliding groove, the spring II is in a compressed state, an air suction channel is connected with the sliding groove disc, the air suction channel is connected with and communicated with the fan blade cover, the motor I is connected with the shaft of the motor I, the shaft of the motor is connected with the fan blade, the motor support is connected with the support, and the inclined plate is connected with the support.

As a further optimization of the technical scheme, the cutting assembly comprises a double-head motor, a double-head motor shaft, a notch gear, a toggle gear shaft, a disc toggle lever, a connecting rod, a lifting frame, a servo motor, an electric cylinder plate, a sliding plate, a fixed cylinder clamp, a clamping plate, a pushing column, a heating threaded cylinder and a melting cutter, wherein the double-head motor is connected with a motor bracket, the double-head motor is connected with the double-head motor shaft, the double-head motor shaft is rotatably connected with a support lug, the double-head motor shaft is connected with the notch gear, the notch gear is meshed with the toggle gear, the notch gear has the same number with the number of teeth of the toggle gear, the toggle gear is connected with the toggle gear shaft, the gear shaft is rotatably connected with the motor bracket, the toggle gear shaft is connected with the disc, the disc is connected with the disc toggle lever, the disc toggle lever is rotatably connected with the connecting rod, the connecting rod rotates with the lift frame to be connected, the double-end motor shaft, the breach gear, toggle gear axle, the disc driving lever, the connecting rod all is equipped with two and mutual symmetry setting, lift frame and the big frictional force sliding connection of pillar, servo motor is connected with the electric jar, the electric jar is connected with the lift frame, electric jar telescopic link portion is connected with the electric jar board, the electric jar board is connected with the sliding plate, the sliding plate is connected with lift frame sliding connection, the sliding plate is connected with the solid fixed cylinder, the solid fixed cylinder is connected with the solid fixed cylinder checkpost, the cardboard is connected with the solid fixed cylinder sliding connection, the cardboard is connected with the release post, the screw thread section of thick bamboo that generates heat and solid fixed cylinder threaded connection, the screw thread section of thick bamboo that generates heat has the heating function, the screw thread section of thick bamboo that generates heat is connected with the cutter, the cutter can be used for different shapes according to practical application.

As a further optimization of the technical scheme, the powdering assembly comprises a treatment box, a motor II, a roller shaft, a roller I, a roller II, a sliding block chute, a spring III, a spring fixing plate, a belt wheel I, a belt wheel II, a hammer breaking shaft and a hammer, wherein the treatment box is connected with a bottom plate, the motor II is connected with the roller shaft, the roller shaft is rotatably connected with the treatment box, the roller shaft is connected with the roller I, two ends of the roller II are respectively connected with two sliding blocks, the sliding blocks are slidably connected with the sliding block chute, the sliding block chute is positioned on the side wall of the treatment box, two ends of the spring III are respectively connected with the sliding block and the spring fixing plate, the spring III is in a compressed state, the spring fixing plate is connected with the treatment box, the roller shaft is connected with the belt wheel I, the belt wheel I is connected with two belt wheels II through the belt, the diameter of the belt wheel I is larger than that of the belt wheel II, and the two belt wheels II are respectively connected with two hammer breaking shafts, the hammering shafts are rotatably connected with the treatment box, the two hammering shafts are connected with the driving hammers, and the driving hammers on the two hammering shafts are respectively arranged in a staggered mode.

The integrated equipment for cutting and powder processing of the acrylic plate has the beneficial effects that: the inferior gram force panel is arranged in and is supported the cover top, supports to adjust the assembly and can adjust according to panel size and support the cover position, guarantees can not lead to the fact the interference to cutting work, supports to adjust the assembly and produces suction to panel through supporting the cover and fix panel, and the cutting assembly arranges the cutting of accomplishing to the swash plate slip behind the predetermined shape of panel hot cutting one-tenth mould in batches, and the powderization assembly is with waste material powderization processing, the recovery of the waste material of being convenient for.

Drawings

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

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view showing the structure of the supporting and adjusting assembly 1 of the present invention;

FIG. 3 is a schematic structural diagram II of the supporting and adjusting assembly 1 of the present invention;

FIG. 4 is a sectional view of the support adjustment assembly 1 of the present invention;

FIG. 5 is a schematic structural diagram III of the supporting and adjusting assembly 1 of the present invention;

FIG. 6 is a fourth schematic structural view of the supporting and adjusting assembly 1 of the present invention;

FIG. 7 is a first schematic structural view of the cutting assembly 2 of the present invention;

FIG. 8 is a second schematic structural view of the cutting assembly 2 of the present invention;

FIG. 9 is a third schematic structural view of the cutting assembly 2 of the present invention;

fig. 10 is a structural sectional view of the cutting assembly 2 of the present invention;

FIG. 11 is a first schematic structural view of the powdering assembly 3 according to the present invention;

fig. 12 is a second schematic structural view of the powdering assembly 3 of the present invention.

In the figure: supporting and adjusting the assembly 1; a bottom plate 1-1; a pillar 1-2; 1-3 of upper support rods; 1-4 of a fan blade cover; 1-5 of ventilation openings; support covers 1-6; 1-7 of a straw; 1-8 of a turntable; chute 1-9; 1-10 of a rotating rod; 1-11 parts of ratchet; 1-12 parts of a limit card; 1-13 slide bars; a slide bar support 1-14; 1-15 parts of a spring I; 1-16 parts of a handle; 1-17 of straw chute; sealing plates 1-18; springs II 1-19; 1-20 of an air suction channel; 1-21 parts of a motor; 1-22 shafts of a motor I; 1-23 of fan blades; 1-24 of a motor bracket; 1-25 of a support lug; a chute pan 1-26; sloping plates 1-27; a cutting assembly 2; a double-head motor 2-1; a double-end motor shaft 2-2; 2-3 of a notch gear; 2-4 of a shifting gear; 2-5 of a toggle gear shaft; 2-6 of a disc; 2-7 parts of a disk driving lever; 2-8 of a connecting rod; 2-9 of a lifting frame; 2-10 parts of a servo motor; 2-11 parts of an electric cylinder; 2-12 parts of electric cylinder plate; a sliding plate 2-13; 2-14 parts of a fixed cylinder; 2-15 parts of a fixed cylinder clip; 2-16 parts of a clamping plate; pushing out the column 2-17; 2-18 parts of heating thread cylinder; 2-19 parts of a fusion cutter; a powdering assembly 3; a treatment tank 3-1; a motor II 3-2; a roll shaft 3-3; 3-4 of a roller; 3-5 of a roller II; 3-6 of a slide block; 3-7 sliding block chutes; 3-8 parts of a spring III; 3-9 parts of a spring fixing plate; 3-10 belt wheels; 3-11 parts of a belt; belt wheels II 3-12; hammering the shaft 3-13; hammers 3-14.

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, and the sliding groove or the guide rail is generally in a step shape, so that the sliding block is prevented from falling off 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 integrated apparatus for cutting and processing acrylic plate powder includes a supporting and adjusting assembly 1, a cutting assembly 2, and a powdering assembly 3, where the cutting assembly 2 and the powdering assembly 3 are both connected to the supporting and adjusting assembly 1.

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 support adjusting assembly 1 includes a bottom plate 1-1, a support post 1-2, an upper support rod 1-3, a vane cover 1-4, a ventilation opening 1-5, a support cover 1-6, a suction pipe 1-7, a rotary table 1-8, a chute 1-9, a rotary rod 1-10, a ratchet 1-11, a limit clamp 1-12, a slide rod 1-13, a slide rod support 1-14, a spring i 1-15, a handle 1-16, a suction pipe chute 1-17, a sealing plate 1-18, a spring ii 1-19, an air suction channel 1-20, a motor i 1-21, a motor i shaft 1-22, a fan blade 1-23, a motor support 1-24, a suction pipe chute 1-7, a suction pipe 1-9, a suction pipe, a suction, The support lug 1-25, the chute disc 1-26 and the inclined plate 1-27, the bottom plate 1-1 is connected with the support column 1-2, the support column 1-2 is connected with the upper support rod 1-3, the bottom plate 1-1 is connected with the flabellum cover 1-4, the flabellum cover 1-4 is provided with a vent 1-5, the support cover 1-6 is connected with the suction pipe 1-7, the support cover 1-6 is made of soft rubber, the suction pipe 1-7 is connected with the chute 1-9 in a sliding way, the chute 1-9 is positioned on the rotary disc 1-8, the rotary disc 1-8 is connected with the rotary rod 1-10, the rotary rod 1-10 is connected with the chute disc 1-26 in a rotating way, the ratchet 1-11 is connected with the chute disc 1-26, the limit card 1-12 is contacted with the ratchet 1-11, the limiting clamp 1-12 is connected with a sliding rod 1-13, the sliding rod 1-13 is connected with a sliding rod support 1-14 in a sliding mode, the sliding rod support 1-14 is connected with a sliding groove disc 1-26, the sliding rod 1-13 is connected with a handle 1-16, a spring I1-15 is sleeved on the sliding rod 1-13, two ends of the spring I1-15 are respectively connected with the handle 1-16 and the sliding rod support 1-14, the spring I1-15 is in a normal state, a suction pipe 1-7 is connected with a suction pipe sliding groove 1-17 in a sliding mode, the suction pipe 1-7 is connected with a sealing plate 1-18, the sealing plate 1-18 is connected with the suction pipe sliding groove 1-17 in a sliding mode, two ends of the spring II 1-19 are respectively connected with the suction pipe 1-7 and the suction pipe sliding groove 1-17, and the spring II 1-19 is in a compressed state, the suction channel 1-20 is connected with the chute disc 1-26, the suction channel 1-20 is connected and communicated with the fan blade cover 1-4, the motor I1-21 is connected with the motor I shaft 1-22, the motor I shaft 1-22 is connected with the fan blade 1-23, the motor bracket 1-24 is connected with the upper supporting rod 1-3, the motor bracket 1-24 is connected with the supporting lug 1-25, the inclined plate 1-27 is connected with the supporting column 1-2, the acrylic plate is placed above the supporting cover, the supporting and adjusting assembly can adjust the position of the supporting cover according to the size of the plate to ensure that no interference is caused to cutting work, and the supporting and adjusting assembly generates suction force to fix the plate through the supporting cover.

The third concrete implementation mode:

the following describes the present embodiment with reference to fig. 1 to 12, which further describes the first embodiment, the cutting assembly 2 includes a double-head motor 2-1, a double-head motor shaft 2-2, a notch gear 2-3, a toggle gear 2-4, a toggle gear shaft 2-5, a disk 2-6, a disk toggle lever 2-7, a connecting rod 2-8, a lifting frame 2-9, a servo motor 2-10, an electric cylinder 2-11, an electric cylinder plate 2-12, a sliding plate 2-13, a fixed cylinder 2-14, a fixed cylinder clamp 2-15, a clamping plate 2-16, a pushing column 2-17, a heating threaded cylinder 2-18 and a fusion-cutting knife 2-19, the double-head motor 2-1 is connected to a motor bracket 1-24, the double-head motor 2-1 is connected to the double-head motor shaft 2-2, a double-head motor shaft 2-2 is rotatably connected with the support lugs 1-25, a double-head motor shaft 2-2 is connected with a notch gear 2-3, the notch gear 2-3 is meshed with a toggle gear 2-4, the notch gear 2-3 has the same number of teeth with the toggle gear 2-4, the toggle gear 2-4 is connected with a toggle gear shaft 2-5, the toggle gear shaft 2-5 is rotatably connected with a motor bracket 1-24, the toggle gear shaft 2-5 is connected with a disc 2-6, the disc 2-6 is connected with a disc toggle lever 2-7, the disc toggle lever 2-7 is rotatably connected with a connecting rod 2-8, the connecting rod 2-8 is rotatably connected with a lifting frame 2-9, the double-head motor shaft 2-2, the notch gear 2-3, the toggle gear 2-4, the lower part and the lower part, Two toggle gear shafts 2-5, two disks 2-6, two disk deflector rods 2-7 and two connecting rods 2-8 are symmetrically arranged, a lifting frame 2-9 is in large friction sliding connection with a support 1-2, a servo motor 2-10 is connected with an electric cylinder 2-11, the electric cylinder 2-11 is connected with the lifting frame 2-9, the telescopic rod part of the electric cylinder 2-11 is connected with an electric cylinder plate 2-12, the electric cylinder plate 2-12 is connected with a sliding plate 2-13, the sliding plate 2-13 is in sliding connection with the lifting frame 2-9, the sliding plate 2-13 is connected with a fixed cylinder 2-14, the fixed cylinder 2-14 is connected with a fixed cylinder clamp 2-15, a clamping plate 2-16 is in sliding connection with the fixed cylinder 2-14, and the clamping plate 2-16 is connected with a push-out column 2-17, the heating thread cylinders 2-18 are in threaded connection with the fixed cylinders 2-14, the heating thread cylinders 2-18 have a heating function, the heating thread cylinders 2-18 are connected with the fusion cutting knives 2-19, the fusion cutting knives 2-19 can be applied to different shapes according to practical application, and the cutting assembly performs batch hot cutting on plates into preset shapes of molds and then discharges the plates to an inclined plate to slide down to complete cutting.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1-12, and the embodiment further describes the first embodiment, wherein the powdering assembly 3 comprises a processing box 3-1, a motor II 3-2, a roller shaft 3-3, a roller I3-4, a roller II 3-5, a slider 3-6, a slider chute 3-7, a spring III 3-8, a spring fixing plate 3-9, a pulley I3-10, a belt 3-11, a pulley II 3-12, a hammer shaft 3-13 and a hammer 3-14, the processing box 3-1 is connected with a bottom plate 1-1, the motor II 3-2 is connected with the roller shaft 3-3, the roller shaft 3-3 is rotatably connected with the processing box 3-1, the roller shaft 3-3 is connected with a roller I3-4, the two ends of the roller II 3-5 are respectively connected with two sliding blocks 3-6, the sliding blocks 3-6 are slidably connected with sliding block chutes 3-7, the sliding block chutes 3-7 are positioned on the side wall of the treatment box 3-1, the two ends of the spring III 3-8 are respectively connected with the sliding blocks 3-6 and spring fixing plates 3-9, the spring III 3-8 is in a compressed state, the spring fixing plate 3-9 is connected with the treatment box 3-1, the roller shaft 3-3 is connected with a belt wheel I3-10, the belt wheel I3-10 is connected with two belt wheels II 3-12 through a belt 3-11, the diameter of the belt wheel I3-10 is larger than that of the belt wheel II 3-12, the two belt wheels II 3-12 are respectively connected with two hammer breaking shafts 3-13, the hammer breaking shafts 3-13 are rotatably connected with the treatment box 3-1, the two hammer shafts 3-13 are connected with the hammers 3-14, the hammers 3-14 on the two hammer shafts 3-13 are respectively arranged in a staggered mode, and the powdering assembly is used for powdering the waste materials, so that the waste materials are convenient to recycle.

The invention relates to integrated equipment for cutting and processing powder of an acrylic plate, which has the working principle that: the acrylic plate to be cut is placed on the supporting cover 1-6, the rotating rod 1-10 is rotated according to the size of the acrylic plate, and the rotating rod 1-10 drives the rotating disc 1-8 to rotate. The rotary table 1-8 drives the suction pipe 1-7 to slide in the suction pipe sliding groove 1-17 through the chute 1-9, the four suction pipes 1-7 drive the four supporting covers 1-6 to be away from each other at the same time, the four supporting covers 1-6 are adjusted to be respectively positioned at the middle points of the four sides of the acrylic plate, the rotary table 1-8 drives the ratchets 1-11 to rotate, the ratchets 1-11 drive the inclined planes of the limiting clamps 1-12 to slide on the inclined planes of the ratchets 1-11, the rotary rod 1-10 is loosened after the position is adjusted, the plane of the limiting clamp 1-12 is contacted with the plane of the ratchets 1-11, the ratchets 1-11 cannot be reset, the suction pipe 1-7 drives the spring II 1-19 to compress, the suction pipe 1-7 drives the sealing plate 1-18 to slide in the suction pipe sliding groove 1-17 to enable the suction pipe sliding groove 1-17 to only keep one hole of the suction pipe 1-7, after the adjustment is finished, the motors I1-21 are started, the motors I1-21 drive the shafts I1-22 to rotate, the shafts I1-22 drive the blades 1-23 to rotate, the blades 1-23 drive gas to be exhausted through the ventilation openings 1-5 on the blade covers 1-4, the air suction channels 1-20, the suction pipes 1-7 and the support covers 1-6 reduce the air pressure, the support covers 1-6 are made of soft rubber, the support covers 1-6 tightly suck the acrylic plates to enable the acrylic plates to be incapable of moving, cutting work is started, the double-head motor 2-1 drives the double-head motor shaft 2-2 to rotate, the double-head motor shaft 2-2 drives the notch gear 2-3 to rotate, the notch gear 2-3 drives the toggle gear 2-4 to rotate, the toggle gear 2-4 drives the toggle gear shaft 2-5 to rotate, a gear shaft 2-5 is shifted to drive a disc 2-6 to rotate, the disc 2-6 drives a lifting frame 2-9 to slide up and down on a support 1-2 through a disc shifting lever 2-7 and a connecting rod 2-8, the lifting frame 2-9 drives a sliding plate 2-13 to slide down, the sliding plate 2-13 drives a fixed cylinder 2-14 to slide down, the fixed cylinder 2-14 drives a fixed cylinder clamp 2-15, a clamping plate 2-16, a push-out column 2-17, a heating thread cylinder 2-18 and a fusion cutting knife 2-19 to slide, the push-out column 2-17 cannot continue to move down after contacting with an acrylic plate, the clamping plate 2-16 at the upper end of the push-out column 2-17 does not move, the fixed cylinder 2-14, the fixed cylinder clamp 2-15, the heating thread cylinder 2-18 and the fusion cutting knife 2-19 continue to move down, the heating thread cylinders 2-18 are electrified to heat for the fusion cutting knives 2-19 to supply heat, the fusion cutting knives 2-19 fuse and cut the corresponding parts of the acrylic plates into the shape consistent with the shape of the fusion cutting knives 2-19 and then move upwards, the acrylic plates are pushed out to the inclined plates 1-27 under the action of the gravity of the pushing columns 2-17 and slide down along the inclined plates 1-27 to finish the collection, the inclined plates 1-27 can be provided with running water to facilitate the cooling of the acrylic plates to prevent adhesion, the notch gears 2-3 are consistent with the teeth number of the toggle gears 2-4, when the notch of the notch gears 2-3 moves to the position above the toggle gears 2-4, the toggle gears 2-4 cannot rotate, the lifting frames 2-9 stop moving, the lifting frames 2-9 are in sliding connection with the columns 1-2 under the large friction force, the lifting frames 2-9 cannot fall off, and the lifting frames 2-9 are just positioned at the uppermost end or the lowermost end, setting a program for the servo motors 2-10 through programming, when the lifting frame 2-9 is positioned at the top end, controlling the electric cylinders 2-11 to advance a preset distance by the servo motors 2-10, driving the electric cylinder plates 2-12 to advance by the electric cylinders 2-11, driving the sliding plates 2-13 to advance a preset distance by the electric cylinder plates 2-12, continuously cutting the acrylic plates after the cutting knife 2-19 is switched, thus finishing the cutting of the acrylic plates, enabling the cutting knife 2-19 to be applied to different shapes according to practical application, being capable of quickly producing shaped acrylic plates in large batch, and turning off the motor I after the cutting is finished

1-21, pulling out a handle 1-16, keeping a ratchet 1-11 from being limited, resetting a suction pipe 1-7 and a rotary table 1-8 under the resetting action of a spring II 1-19 to finish the cutting, adding the waste left after the cutting into a space between a roller I3-4 and a roller II 3-5, starting a motor II 3-2, driving a roller shaft 3-3 to rotate by the motor II 3-2, driving the roller I3-4 to rotate by the roller shaft 3-3, driving the waste to move downwards by the roller I3-4, applying pressure to the waste by driving the roller II 3-5 by a slide block 3-6 under the elastic force of the spring III 3-8 to convey the inner part of the waste downwards, driving a belt wheel I3-10 to rotate by the roller shaft 3-3, 10 to drive two belt wheels II 3-12 to rotate in an accelerating way through a driving belt 3-11, the two belt wheels II 3-12 drive the two hammer shafts 3-13 to rotate, the two hammer shafts 3-13 are connected with the hammers 3-14, the hammers 3-14 on the two hammer shafts 3-13 are respectively arranged in a staggered mode, and the hammers 3-14 hammer the fragile waste materials into powder in a staggered mode, so that the powdering treatment is completed, and the subsequent recovery is waited.

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.