CN115070131A - Cutting device is used in diffuser plate processing - Google Patents
Cutting device is used in diffuser plate processing Download PDFInfo
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- CN115070131A CN115070131A CN202211010414.3A CN202211010414A CN115070131A CN 115070131 A CN115070131 A CN 115070131A CN 202211010414 A CN202211010414 A CN 202211010414A CN 115070131 A CN115070131 A CN 115070131A
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23D—PLANING; SLOTTING; SHEARING; BROACHING; SAWING; FILING; SCRAPING; LIKE OPERATIONS FOR WORKING METAL BY REMOVING MATERIAL, NOT OTHERWISE PROVIDED FOR
- B23D79/00—Methods, machines, or devices not covered elsewhere, for working metal by removal of material
Abstract
The invention relates to the technical field of diffuser plate processing, in particular to a cutting device for diffuser plate processing, which comprises a hydraulic lifting mechanism, a cutting mechanism and a plate surface transmission mechanism, wherein the hydraulic lifting mechanism comprises a first top plate and a second top plate which are vertically distributed, and hydraulic parts which are respectively arranged at the tops of the first top plate and the second top plate. Put the thing base through setting up placing the diffuser plate, and be used for vertical lift's rack spare in the both sides installation of putting thing base top, and put the mid-mounting protective housing of thing base bottom surface, the while is used for guiding the cutting chain to carry out the axostylus axostyle of vertical cutting at protective housing's inside movable mounting, place behind the pulley top of different positions when the diffuser plate, the diffuser plate can receive a plurality of friction increasing wheels that the circumference distributes and carry out irregular transmission this moment, the diffuser plate that is located a plurality of pulley tops at this moment can avoid the tradition directly to place on the workstation, it is too big to lead to the diffuser plate to remove resistance during the cutting, cause the irregular problem to appear in the cutting shape.
Description
Technical Field
The invention relates to the technical field of diffuser plate processing, in particular to a cutting device for diffuser plate processing.
Background
The diffuser plate is a thin plate that causes interference to light, and the diffuser plate may be made of glass, Polystyrene (PS), Polycarbonate (PC), Polyethylene (PE), polypropylene (PP), polyvinyl chloride (PVC), polyethylene terephthalate (PET), acryl (PMMA), acrylic acid (MMA), or the like, according to different applications, so that the diffuser plates made of different materials have a great difference in light dispersion capability.
When the diffuser plate that different materials made is carrying out appointed specification cutting and is handled, need the shape of carving cutting on former diffusion face, then recycle cutting equipment and cut the diffusion face of drawing the shape and handle, but when the diffuser plate of cutting dysmorphism structure, traditional cutting equipment is difficult to carry out the circumference cutting to the diffuser plate is whole, in case the negative pressure will be strong between the diffuser plate is whole and the workstation surface, will lead to the cutting of diffuser plate to appear being interrupted, and then lead to the diffuser plate to cut efficiency reduction according to the shape.
According to the above description, how to solve the problem that the diffusion plate can be circumferentially and circularly cut with small friction force on the surface of the worktable as a whole and provide rotational kinetic energy to the diffusion plate as a whole is the technical difficulty to be solved by the present invention.
Disclosure of Invention
The present invention has been made to solve one of the technical problems occurring in the prior art or the related art.
Therefore, the technical scheme adopted by the invention is as follows:
a cutting device for machining a diffusion plate comprises a hydraulic lifting mechanism, a cutting mechanism and a plate surface transmission mechanism, wherein the hydraulic lifting mechanism comprises a first top plate and a second top plate which are vertically distributed, a hydraulic part respectively arranged at the tops of the first top plate and the second top plate, a clamp arranged at the top of the first top plate, a motor positioned at the inner side of the clamp, a driving disc arranged at the outer end of the motor, a vertical chain linked with a shaft lever at the outer end of the motor and a cutting chain connected in a ring groove at the outer side of the driving disc, the cutting mechanism comprises two transmission assemblies movably arranged on the first top plate and the second top plate, a tooth condition positioned at the outer part of the transmission assemblies, a placement base arranged at the bottom end of a rack piece, a plurality of pulleys movably arranged in a groove at the top of the placement base, a protective shell arranged at the middle part of the bottom surface of the placement base and a shaft lever movably arranged in the protective shell and positioned at the bottom of the inner side of the cutting chain, the plate surface transmission mechanism comprises a main cushion block and a plurality of auxiliary cushion blocks which are arranged in the first top plate or the second top plate, a driving shaft rod which is movably arranged in the main cushion block, supports which are arranged outside the main cushion block and the auxiliary cushion blocks, linkage gear rods which are movably arranged on the inner sides of two adjacent supports, stability augmentation assemblies which are arranged in the main cushion block and the auxiliary cushion blocks, chain assemblies which are positioned outside the stability augmentation assemblies, bearings which are arranged at the bottoms of the stability augmentation assemblies and suspension wheel assemblies which are arranged on the bearings, wherein each stability augmentation assembly comprises an elastic telescopic rod and a positioning pull rod which penetrates through the main cushion block or the auxiliary cushion block, and each suspension wheel assembly comprises a mandrel which is arranged on the bearing, an internal magnetic ring and an external magnetic ring which are arranged outside the mandrel, a rocker which is movably arranged at the outer end of the gear shaft, and a rocker which is movably arranged at the outer end of the gear shaft, The friction-increasing wheel is arranged outside the external magnetic ring, the limiting clamping plates are clamped on two sides of the suspension wheel assembly in a matching mode, the screw caps are connected to two ends of the mandrel in a threaded mode, and the protective outer sleeve is arranged at the outer end of the mandrel.
The present invention in a preferred example may be further configured to: the first top plate and the second top plate are integrally T-shaped, the outer walls of the annular ends at the bottoms of the first top plate and the second top plate are provided with uniformly distributed screw holes, and the screw holes outside the first top plate and the second top plate are in threaded connection with a plurality of fixing nuts.
Through adopting above-mentioned technical scheme, utilize a plurality of fixation nuts with the fixed centre gripping of main cushion and a plurality of vice cushion in the annular of first roof and second roof bottom, vertical hydraulic pressure promotes or the hydraulic part that descends this moment can control first roof, second roof and drive main cushion and a plurality of vice cushion and carry out synchronous vertical drawing.
The present invention in a preferred example may be further configured to: the middle part of the shaft lever at the inner end of the motor is welded with an I-shaped bearing, and the I-shaped bearing welded at the inner end of the motor and the bearing at the middle part of the driving shaft lever are symmetrically distributed along the vertical direction.
By adopting the technical scheme, the I-shaped bearing is welded in the middle of the shaft lever at the inner end of the motor, and the transmission of the vertical chain is combined with the I-shaped bearing, so that the vertical chain can drive the whole driving shaft lever to perform transverse transmission at the same rotating speed.
The present invention in a preferred example may be further configured to: the length of the inner diameter of the driving disc is three times that of an I-shaped bearing in the motor, an annular gasket is welded in the middle of the shaft rod, and the length of the inner diameter of the annular gasket is one fourth of that of the driving disc.
Through adopting above-mentioned technical scheme, utilize the internal diameter length of setting up the driving-disc to the biggest part among the device, when the driving-disc receives the transmission of motor inner end axostylus axostyle, combine the joint drive between driving-disc and the annular packing ring in the middle part of the axostylus axostyle to this can make the cutting chain be in high-speed rotatory state and carry out vertical cutting.
The present invention in a preferred example may be further configured to: the gear shaft is formed by combining a gear piece, a circular gasket and a transverse guide rod, and the inner end of the transverse guide rod is respectively matched with a transverse hole in the outer portion of the first top plate or the second top plate.
Through adopting above-mentioned technical scheme, utilize the rack of the vertical state of a department side wall mounting of rectangle spout in the tooth condition, combine the inside rack of rack spare to the meshing transmission of gear spare in the gear shaft, when control horizontal guide arm rotated, the whole quick adjustment tooth condition of transmission assembly and put the thing base and carry out the regulation of vertical height this moment, the elasticity state that the thing base still need adjust the cutting chain is put according to co-altitude this moment to this guarantees that the cutting chain maintains the constant voltage ring and cuts the state.
The present invention in a preferred example may be further configured to: two grooves distributed circumferentially are formed in two sides of the top of the storage base, and the top of the pulley penetrates through the outer portions of the grooves.
Through adopting above-mentioned technical scheme, utilize and offer evenly distributed and retrain the recess that the pulley carries out free rotation at the top of putting the thing base to offer the notch that runs through at the middle part of putting the thing base, combine to put the spacing guide of thing base middle part notch to the cutting chain, with this safe cutting that can make things convenient for the diffuser plate.
The present invention in a preferred example may be further configured to: the support is composed of a pull rod and a circular ring-shaped ferrule, and the outer end of the pull rod is respectively matched and penetrated into a circular groove hole outside the main cushion block or the auxiliary cushion block.
By adopting the technical scheme, the transverse linkage rack bar is movably pulled by the support, and the deflection gears at the two ends of the linkage rack bar are combined to be linked with the meshing of the transmission bearings in the chain assembly, so that the circumferentially distributed suspension wheel assemblies can realize the same-rotating-speed supercharging rotation.
The present invention in a preferred example may be further configured to: the telescopic link comprises flexible female pole, flexible sub-pole and spring, and the bottom welding of flexible sub-pole has spacing restraint to carry out the sleeve pipe of horizontal rotation in the bearing.
Through adopting above-mentioned technical scheme, the utilization adopts flexible female pole, flexible sub-pole and the spring constitution of elastic extension with the telescopic link to utilize the activity restraint of location pull rod bottom to flexible sub-pole, the drive bearing is connected to the location pull rod top in the cooperation chain subassembly simultaneously, with this can make suspension wheel subassembly elasticity pressure boost transmission period, can also maintain invariable vertical transmission power.
The present invention in a preferred example may be further configured to: the chain assembly consists of a chain and a transmission bearing positioned on the inner side of the chain.
Through adopting above-mentioned technical scheme, utilize the top and the bottom that set up transverse distribution respectively at the chain inboard to combine bearing and location pull rod to draw two drive bearing's spacing respectively to this can make chain in the chain subassembly maintain invariable transmission state.
By adopting the technical scheme, the invention has the beneficial effects that:
1. according to the invention, the storage base for placing the diffusion plate is arranged, the rack pieces for vertical lifting are arranged on two sides of the top of the storage base, the protective shell is arranged in the middle of the bottom surface of the storage base, the shaft rod for guiding the cutting chain to vertically cut is movably arranged in the protective shell, when the diffusion plate is placed at the tops of the pulleys at different positions, the diffusion plate can be irregularly driven by the plurality of friction increasing wheels distributed circumferentially, and the diffusion plate positioned at the tops of the plurality of pulleys can avoid the problem that the diffusion plate is irregular in cutting shape due to overlarge moving resistance during cutting because the diffusion plate is directly placed on a workbench in the prior art.
2. According to the invention, the driving shaft lever for transverse transmission is arranged, the two linkage gear rods which are symmetrically distributed are assembled outside the deflection gears at the two ends of the driving shaft lever in a meshing manner, the telescopic rods which can carry out vertical elastic pressurization on the suspension wheel assemblies are arranged at the bottoms of the main cushion block and the auxiliary cushion block, and the positioning pull rod is combined to carry out vertical positioning transmission on the chain assembly, so that the suspension wheel assemblies distributed on the circumference can rotate elastically integrally, and the chain assembly can rotate vertically constantly.
3. According to the invention, the inner side of the friction-increasing wheel is provided with the two built-in magnetic rings and the two external magnetic rings which are overlapped and in a magnetic repulsion state, the two limiting clamping plates for reducing friction resistance are movably assembled at the two sides of the built-in magnetic rings and the external magnetic rings, and the friction-increasing wheel is combined to be made of a rubber material, and when the friction-increasing wheel is externally provided with the uniformly distributed arc-shaped bulges to face the large friction force of the surface of the diffusion plate for pressurization transmission, the diffusion plate with a well-drawn shape can be kept at a constant transmission speed for moving during transmission and cutting, so that the problem that the diffusion plate is unstable in movement and causes different cutting specifications of the diffusion plate can be avoided.
Drawings
FIG. 1 is a schematic diagram of one embodiment of the present invention;
FIG. 2 is a schematic bottom view of one embodiment of the present invention;
FIG. 3 is a schematic diagram of a dispersion of one embodiment of the present invention;
FIG. 4 is a schematic partial dispersion view of FIG. 3 in accordance with one embodiment of the present invention;
FIG. 5 is a schematic diagram of the dispersion of FIG. 2 according to one embodiment of the present invention;
FIG. 6 is an internal schematic view of FIG. 5 according to an embodiment of the present invention;
FIG. 7 is a schematic diagram of the dispersion and linkage of FIG. 6 according to an embodiment of the present invention;
FIG. 8 is a schematic diagram of the dispersion of FIG. 7 according to one embodiment of the present invention;
FIG. 9 is a schematic diagram of the internal dispersion of FIG. 8 according to one embodiment of the present invention.
Reference numerals are as follows:
100. a hydraulic lifting mechanism; 110. a first top plate; 120. a second top plate; 130. a hydraulic part; 140. clamping and buckling; 150. a motor; 160. cutting the chain; 170. a drive disc; 180. vertical chains;
200. a cutting mechanism; 210. tooth condition; 220. a transmission assembly; 221. a gear shaft; 222. a rocker; 230. a placement base; 240. a pulley; 250. a protective housing; 260. a shaft lever;
300. a board surface transmission mechanism; 310. a main cushion block; 320. a secondary cushion block; 330. a drive shaft; 340. a support; 350. a linkage rack bar; 360. a stability augmentation component; 361. a telescopic rod; 362. positioning the pull rod; 370. a chain assembly; 380. a bearing; 390. a suspension wheel assembly; 391. a mandrel; 392. a magnetic ring is arranged inside; 393. an external magnetic ring; 394. a friction increasing wheel; 395. a limiting clamp plate; 396. a nut; 397. a protective outer sleeve.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be noted that the embodiments of the present invention and features of the embodiments may be combined with each other without conflict.
The following describes a cutting device for processing a diffusion plate according to some embodiments of the present invention with reference to the accompanying drawings.
The first embodiment is as follows:
referring to fig. 1 to 9, the cutting apparatus for processing a diffuser plate according to the present invention includes a hydraulic lifting mechanism 100, a cutting mechanism 200, and a plate surface transmission mechanism 300, wherein the cutting mechanism 200 is installed on the hydraulic lifting mechanism 100, and the plate surface transmission mechanism 300 is installed in the hydraulic lifting mechanism 100.
The hydraulic lifting mechanism 100 comprises a first top plate 110, a second top plate 120, a hydraulic part 130, a clamp 140, a motor 150, a cutting chain 160, a driving disk 170 and a vertical chain 180, the cutting mechanism 200 comprises a rack member 210, a transmission assembly 220, a placement base 230, a pulley 240, a protective housing 250 and a shaft 260, the transmission assembly 220 further comprises a gear shaft 221 and a rocker 222, the plate surface transmission mechanism 300 comprises a main cushion block 310, an auxiliary cushion block 320, a driving shaft 330, a bracket 340, a linkage rack bar 350, a stability enhancement assembly 360, a chain assembly 370, a bearing 380 and a suspension wheel assembly 390, the stability enhancement assembly 360 further comprises a telescopic rod 361 and a positioning pull rod 362, and the suspension wheel assembly 390 further comprises a mandrel 391, an internal magnetic ring 392, an external magnetic ring 393, a friction enhancement wheel 394, a limit clamp plate 395, a nut 396 and a protective outer sleeve 397.
Specifically, two hydraulic components 130 are respectively installed on the top of the first top plate 110 and the second top plate 120, the clip 140 is installed on the top of the first top plate 110, the motor 150 is located on the inner side of the clip 140, the driving disc 170 is installed on the outer end of the motor 150, the vertical chain 180 is linked on a shaft rod of the outer end of the motor 150, the cutting chain 160 is connected in a ring groove of the outer side of the driving disc 170, the two transmission components 220 are movably installed on the first top plate 110 and the second top plate 120, the rack component 210 is located on the outer side of the transmission components 220, the placing base 230 is installed at the bottom end of the rack component 210, the plurality of pulleys 240 are movably installed in a groove of the top of the placing base 230, the protective shell 250 is installed in the middle of the bottom surface of the placing base 230, the shaft rod 260 is movably installed in the protective shell 250 and at the bottom of the inner side of the cutting chain 160, the gear shaft 221 is movably installed in a transverse hole of the outer side of the first top plate 110 and the second top plate 120, the rocker 222 is movably installed at the outer end of the gear shaft 221, the main cushion block 310 and the plurality of auxiliary cushion blocks 320 are arranged in the first top plate 110 or the second top plate 120, the driving shaft 330 is movably arranged in the main cushion block 310, the brackets 340 are arranged outside the main cushion block 310 and the auxiliary cushion blocks 320, the linkage toothed bar 350 is movably arranged inside two adjacent brackets 340, the stability-enhancing component 360 is arranged in the main cushion block 310 and the auxiliary cushion blocks 320, the chain component 370 is positioned outside the stability-enhancing component 360, the bearing 380 is arranged at the bottom of the stability-enhancing component 360, the suspension wheel component 390 is arranged on the bearing 380, the positioning pull rod 362 penetrates into the main cushion block 310 or the auxiliary cushion blocks 320, the mandrel 391 is arranged on the bearing 380, the internal magnetic ring 392 and the external magnetic ring 393 are assembled outside the mandrel 391, the friction-enhancing wheel 394 is arranged outside the external magnetic ring, the limiting clamping plates 395 are adapted to be clamped on two sides of the suspension wheel component 390, two nuts 396 are respectively screwed at two ends of the mandrel 391, and the protective outer cover 397 is arranged at the outer end of the mandrel 391.
Two limiting clamping plates 395 which are used for reducing friction resistance are movably assembled on two sides of an internal magnetic ring 392 and an external magnetic ring 393, the friction-increasing wheel 394 is made of rubber materials, when arc-shaped bulges which are uniformly distributed are arranged outside the friction-increasing wheel 394 and face the surface of a diffusion plate for large friction force pressurization transmission, the diffusion plate with a drawn shape can keep constant transmission speed for moving during transmission and cutting, simultaneously, two linkage gear rods 350 which are symmetrically distributed are assembled outside deflection gears at two ends of a driving shaft rod 330 in an engaged mode, telescopic rods 361 which can carry out vertical elastic pressurization on a suspension wheel assembly 390 are installed at the bottoms of a main cushion block 310 and an auxiliary cushion block 320, in addition, a shaft rod 260 which is used for guiding a cutting chain 160 to carry out vertical cutting is movably installed inside a protective shell 250, and after the diffusion plate is placed at the tops of pulleys 240 at different positions, the diffusion plate can be irregularly transmitted by the plurality of friction-increasing wheels 394 which are distributed circumferentially, the diffusion plate positioned at the top of the pulleys 240 can avoid the problem that the diffusion plate is not regular in cutting shape due to excessive moving resistance during cutting because the diffusion plate is directly placed on a workbench in the prior art.
Example two:
referring to fig. 5 and 6, on the basis of the first embodiment, the first top plate 110 and the second top plate 120 are integrally T-shaped, the outer walls of the annular ends at the bottoms of the first top plate 110 and the second top plate 120 are provided with uniformly distributed screw holes, the screw holes outside the first top plate 110 and the second top plate 120 are in threaded connection with a plurality of fixing nuts, an i-shaped bearing is welded in the middle of a shaft rod inside the motor 150, the i-shaped bearing welded in the inner end of the motor 150 and a bearing in the middle of the driving shaft rod 330 are symmetrically distributed in the vertical direction, the inner diameter length of the driving disk 170 is three times that of the i-shaped bearing inside the motor 150, an annular washer is welded in the middle of the shaft rod 260, and the inner diameter length of the annular washer is one quarter of that of the driving disk 170.
The main cushion block 310 and the auxiliary cushion blocks 320 are fixedly clamped in the annular grooves at the bottoms of the first top plate 110 and the second top plate 120 by utilizing a plurality of fixing nuts, at the moment, the first top plate 110 and the second top plate 120 can be controlled by the hydraulic part 130 for vertical hydraulic lifting or descending to drive the main cushion block 310 and the auxiliary cushion blocks 320 to synchronously and vertically stretch, the vertical chain 180 is driven by the I-shaped bearing, at the moment, the vertical chain 180 can drive the whole driving shaft rod 330 to perform transverse transmission at the same rotating speed, the inner diameter length of the driving disk 170 is set to be the largest part in the device, and when the driving disk 170 is driven by the shaft rod at the inner end of the motor 150, the driving disk 170 and the annular gaskets at the middle part of the shaft rod 260 are combined to perform vertical cutting by combining the combined transmission between the driving disk 170 and the annular gaskets at the middle part of the shaft rod 260, so that the cutting chain 160 can be in a high-speed rotating state.
Example three:
referring to fig. 3 and 4, in the first embodiment, the gear shaft 221 is formed by combining a gear member, a circular gasket and a horizontal guide rod, the inner end of the horizontal guide rod is respectively adapted to the horizontal hole outside the first top plate 110 or the second top plate 120, two sides of the top of the placement base 230 are provided with a plurality of grooves circumferentially distributed, and the top of the pulley 240 penetrates to the outside of the grooves.
Utilize the rack of a department's side wall mounting vertical state of rectangular spout in tooth condition 210, combine the inside rack of tooth condition 210 to the meshing transmission of gear spare in the gear shaft 221, when control horizontal guide arm is rotatory, transmission assembly 220 whole can quick adjustment tooth condition 210 and put thing base 230 and carry out the regulation of vertical height this moment, still need adjust the elasticity state of cutting chain 160 according to the thing base 230 of putting of co-altitude, guarantee that cutting chain 160 maintains the constant voltage ring and cut the state with this, the notch that runs through is seted up at the middle part of putting thing base 230 simultaneously, combine to put the spacing guide of thing base 230 middle part notch to cutting chain 160, and then can make things convenient for the safe cutting of diffuser plate.
Example four:
referring to fig. 7-9, in the first embodiment, the bracket 340 is composed of a pull rod and a circular ring, the outer end of the pull rod is respectively adapted to penetrate into a circular groove hole outside the main pad 310 or the auxiliary pad 320, the telescopic rod 361 is composed of a telescopic female rod, a telescopic sub-rod and a spring, the bottom end of the telescopic sub-rod is welded with a sleeve pipe limited and constrained by a bearing 380 to rotate transversely, and the chain assembly 370 is composed of a chain and a transmission bearing located inside the chain.
The two deflection gears at the two ends of the linkage toothed bar 350 are combined to perform meshing linkage on the transmission bearings in the chain assembly 370, the bottom end of the positioning pull rod 362 is used for movably restraining the telescopic sub-bar, meanwhile, the transmission bearings in the chain assembly 370 are matched with the top end of the positioning pull rod 362 and connected with the transmission bearings in the chain assembly 370, the transmission bearings in transverse distribution are respectively arranged at the top and the bottom of the inner side of the chain, the combination bearing 380 and the positioning pull rod 362 are respectively used for limiting and drawing the two transmission bearings, so that the chain in the chain assembly 370 can be kept in a constant transmission state, the circumferentially distributed suspension wheel assemblies 390 are enabled to rotate at the same rotating speed in a pressurizing manner, and further, the chain in the chain assembly 370 can be kept in a constant vertical transmission force during elastic pressurizing transmission.
The working principle and the using process of the invention are as follows: an operator needs to adjust the rocker 222 to rotate counterclockwise in advance, at this time, the rocker 222 drives the gear shaft 221 to transmit downward along the tooth opening inside the tooth condition 210, and then places the diffuser plate on the top of the rack member 210, according to the shape and specification to be cut, when the diffuser plate needs to be cut into a circular structure, the operator needs to place the diffuser plate right above the pulleys 240 distributed circumferentially, and then adjust the transmission assembly 220 to rotate clockwise, at this time, the transmission assembly 220 drives the placement base 230 and the diffuser plate placed on the top thereof to attach and press against the bottoms of the two sets of plate surface transmission mechanisms 300 distributed circumferentially, and then appropriately controls the hydraulic members 130 to descend vertically, when the two hydraulic members 130 drive the first top plate 110 and the second top plate 120 to pressurize vertically after the height of the cutting mechanism 200 is adjusted, at this time, the operator can start and operate the motor 150 to rotate, the cutting chain 160 vertically distributed outside the driving disc 170 and the shaft rod 260 can be circularly cut at high speed along the vertical state by using the combined transmission of the shaft rod at the inner end of the motor 150 to the driving disc 170, and the vertical chain 180 linked in the middle of the shaft rod at the inner end of the motor 150 is used to drive the driving shaft rod 330, at this time, the deflection gear at the outer end of the driving shaft rod 330 can be meshed with and drive two adjacent linkage gear rods 350 to perform rotary transmission, and the transmission of the rotating shaft at the top end of the inner side of the chain assembly 370 is combined with the transmission of the outer end of the linkage gear rods 350, so that the whole suspension wheel assemblies 390 can be subjected to constant-pressure transmission at the same rotating speed by the plurality of chain assemblies 370, at this time, the diffusion plate tightly attached to the right below the friction increasing wheel 394 can be driven circumferentially, at this time, when the diffusion plate placed on the tops of the plurality of pulleys 240 is subjected to rotary transmission by the friction increasing wheel 394, the outer edge of the diffuser plate may be cut vertically along a cutting chain 160.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.
Claims (9)
1. A cutting device for machining a diffusion plate is characterized by comprising a hydraulic lifting mechanism (100), a cutting mechanism (200) and a plate surface transmission mechanism (300);
the hydraulic lifting mechanism (100) comprises a first top plate (110) and a second top plate (120) which are vertically distributed, a hydraulic part (130) respectively installed at the tops of the first top plate (110) and the second top plate (120), a clamp buckle (140) installed at the top of the first top plate (110), a motor (150) located on the inner side of the clamp buckle (140), a driving disc (170) installed at the outer end of the motor (150), a vertical chain (180) linked to a shaft rod at the outer end of the motor (150) and a cutting chain (160) connected to a ring groove on the outer side of the driving disc (170);
the cutting mechanism (200) is arranged on the hydraulic lifting mechanism (100) and comprises two transmission assemblies (220) movably arranged on a first top plate (110) and a second top plate (120), a tooth condition (210) positioned outside the transmission assemblies (220), an object placing base (230) arranged at the bottom end of the tooth condition (210), a plurality of pulleys (240) movably arranged in a groove at the top of the object placing base (230), a protective shell (250) arranged in the middle of the bottom surface of the object placing base (230) and a shaft rod (260) movably arranged in the protective shell (250) and positioned at the bottom of the inner side of the cutting chain (160);
the transmission assembly (220) comprises a gear shaft (221) movably mounted in transverse holes at the outer sides of the first top plate (110) and the second top plate (120) and a rocker (222) movably mounted at the outer end of the gear shaft (221);
the plate surface transmission mechanism (300) is arranged in the hydraulic lifting mechanism (100) and comprises a main cushion block (310) and a plurality of auxiliary cushion blocks (320) which are arranged in a first top plate (110) or a second top plate (120), a driving shaft rod (330) movably arranged in the main cushion block (310), brackets (340) arranged outside the main cushion block (310) and the auxiliary cushion blocks (320), linkage gear rods (350) movably arranged at the inner sides of two adjacent brackets (340), a stability augmentation component (360) arranged in the main cushion block (310) and the auxiliary cushion blocks (320), a chain component (370) positioned outside the stability augmentation component (360), a bearing (380) arranged at the bottom of the stability augmentation component (360) and a suspension wheel component (390) arranged on the bearing (380);
the stability augmentation component (360) comprises an elastic telescopic rod (361) and a positioning pull rod (362) penetrating into the main cushion block (310) or the auxiliary cushion block (320);
the suspension wheel assembly (390) comprises a mandrel (391) arranged on a bearing (380), an internal magnetic ring (392) and an external magnetic ring (393) which are assembled outside the mandrel (391), a friction increasing wheel (394) arranged outside the external magnetic ring (393), limiting clamping plates (395) which are clamped at two sides of the suspension wheel assembly (390) in a matching mode, screw caps (396) connected to two ends of the mandrel (391) in a threaded mode and a protective outer sleeve (397) arranged at the outer end of the mandrel (391).
2. The cutting device for machining the diffusion plate as claimed in claim 1, wherein the first top plate (110) and the second top plate (120) are integrally T-shaped, the outer walls of the annular ends of the bottoms of the first top plate (110) and the second top plate (120) are provided with uniformly distributed screw holes, and a plurality of fixing nuts are connected to the screw holes outside the first top plate (110) and the second top plate (120) in a threaded manner.
3. The cutting device for machining a diffusion plate according to claim 1, wherein an i-shaped bearing is welded to the middle of the shaft at the inner end of the motor (150), and the i-shaped bearing welded to the inner end of the motor (150) and the bearing at the middle of the driving shaft (330) are symmetrically distributed in the vertical direction.
4. The cutting device for machining a diffusion plate as claimed in claim 1, wherein the length of the inner diameter of the driving plate (170) is three times that of an i-shaped bearing in the motor (150), an annular washer is welded to the middle of the shaft (260), and the length of the inner diameter of the annular washer is one fourth of that of the driving plate (170).
5. The cutting device for machining a diffusion plate as claimed in claim 1, wherein the gear shaft (221) is formed by combining a gear member, a circular washer and a transverse guide rod, and inner ends of the transverse guide rod are respectively fitted into transverse holes formed in the outer portions of the first top plate (110) or the second top plate (120).
6. The cutting device for machining a diffusion plate according to claim 1, wherein two grooves are circumferentially distributed on two sides of the top of the placement base (230), and the top of the pulley (240) penetrates through the grooves.
7. The cutting device for machining a diffusion plate according to claim 1, wherein the bracket (340) is composed of a pull rod and a circular ring-shaped collar, and the outer end of the pull rod is respectively fitted into a circular groove hole formed in the outer portion of the main block (310) or the sub block (320).
8. The cutting device for machining the diffusion plate as claimed in claim 1, wherein the telescopic rod (361) is composed of a telescopic female rod, a telescopic sub-rod and a spring, and a sleeve pipe limiting and constrained by a bearing (380) to rotate transversely is welded at the bottom end of the telescopic sub-rod.
9. The cutting device for machining a diffusion plate according to claim 1, wherein the chain assembly (370) is composed of a chain and a driving bearing located inside the chain.
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CN202211010414.3A CN115070131A (en) | 2022-08-23 | 2022-08-23 | Cutting device is used in diffuser plate processing |
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CN202211010414.3A CN115070131A (en) | 2022-08-23 | 2022-08-23 | Cutting device is used in diffuser plate processing |
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CN113072296A (en) * | 2021-03-26 | 2021-07-06 | 刘剑锋 | Device for cutting round glass |
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CN113292238A (en) * | 2021-06-04 | 2021-08-24 | 江苏立晶工业科技有限公司 | High borosilicate glass product circular cutting device |
CN114455823A (en) * | 2021-12-23 | 2022-05-10 | 吉海涟 | Industry laser cuts circular glass device |
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