CN112605805A - Polishing and blow-drying equipment for plastic molds - Google Patents

Polishing and blow-drying equipment for plastic molds Download PDF

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Publication number
CN112605805A
CN112605805A CN202110038104.1A CN202110038104A CN112605805A CN 112605805 A CN112605805 A CN 112605805A CN 202110038104 A CN202110038104 A CN 202110038104A CN 112605805 A CN112605805 A CN 112605805A
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CN
China
Prior art keywords
gear
fixedly connected
shaft
cavity
belt wheel
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Withdrawn
Application number
CN202110038104.1A
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Chinese (zh)
Inventor
张彤嘉
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Zhengzhou Wunai Trading Co ltd
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Zhengzhou Wunai Trading Co ltd
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Priority to CN202110038104.1A priority Critical patent/CN112605805A/en
Publication of CN112605805A publication Critical patent/CN112605805A/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24BMACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
    • B24B19/00Single-purpose machines or devices for particular grinding operations not covered by any other main group
    • B24B19/20Single-purpose machines or devices for particular grinding operations not covered by any other main group for grinding dies
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24BMACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
    • B24B19/00Single-purpose machines or devices for particular grinding operations not covered by any other main group
    • B24B19/22Single-purpose machines or devices for particular grinding operations not covered by any other main group characterised by a special design with respect to properties of the material of non-metallic articles to be ground
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24BMACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
    • B24B57/00Devices for feeding, applying, grading or recovering grinding, polishing or lapping agents
    • B24B57/02Devices for feeding, applying, grading or recovering grinding, polishing or lapping agents for feeding of fluid, sprayed, pulverised, or liquefied grinding, polishing or lapping agents
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F26DRYING
    • F26BDRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
    • F26B21/00Arrangements or duct systems, e.g. in combination with pallet boxes, for supplying and controlling air or gases for drying solid materials or objects
    • F26B21/001Drying-air generating units, e.g. movable, independent of drying enclosure

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Finish Polishing, Edge Sharpening, And Grinding By Specific Grinding Devices (AREA)
  • Moulds For Moulding Plastics Or The Like (AREA)

Abstract

The invention discloses a grinding, polishing and blow-drying device for plastic molds, which comprises a grinding shell, wherein a motor cavity is arranged in the grinding shell, the upper end of the motor cavity is fixedly connected with a motor, the lower end of the motor is in power connection with an output shaft, the periphery of the output shaft is fixedly connected with a driving belt wheel, the left side of the motor is provided with a large belt wheel shaft, the left side of the motor is provided with a left belt wheel shaft, the upper end of the left belt wheel shaft is rotatably connected to the inner wall of the upper side of the motor cavity, the periphery of the motor cavity is fixedly connected with a left belt wheel, and a transverse belt is connected between the left belt wheel and the driving belt wheel. The whole process does not need manual participation, and the efficiency is high.

Description

Polishing and blow-drying equipment for plastic molds
Technical Field
The invention relates to the technical field of plastic molds, in particular to a grinding, polishing and blow-drying device for a plastic mold.
Background
The processed surface of the plastic mould is rough, so the plastic mould which is just processed needs to be ground, the ground plastic mould needs to be put into polishing solution for soaking, so the surface of the plastic mould is smoother, redundant polishing solution of the plastic mould needs to be dried after soaking, the operation steps are generally carried out manually, and each step is carried out separately with lower efficiency.
Disclosure of Invention
In order to solve the problems, the embodiment designs a polishing and blow-drying device for plastic molds, which comprises a polishing shell, wherein a motor cavity is arranged in the polishing shell, the upper end of the motor cavity is fixedly connected with a motor, the lower end of the motor is in power connection with an output shaft, the periphery of the output shaft is fixedly connected with a driving belt wheel, the left side of the motor is provided with a large belt wheel shaft, the left side of the motor is provided with a left belt wheel shaft, the upper end of the left belt wheel shaft is rotatably connected to the inner wall of the upper side of the motor cavity, the periphery of the motor cavity is fixedly connected with a left belt wheel, a transverse belt is connected between the left belt wheel and the driving belt wheel, the lower side of the left belt wheel is provided with a right gear, the periphery of the right gear is fixedly connected to the periphery of the left belt wheel shaft, the lower side of the right gear, the left end of the right gear is connected with a left gear in a meshing manner, the lower end of the left gear is fixedly connected with a small rotating shaft, the outer periphery of the small rotating shaft is connected with a threaded cylinder in a threaded manner, the outer periphery of the threaded cylinder is movably connected with a rotating cylinder, the outer periphery of the rotating cylinder is fixedly connected with a small outer gear, the right end of the small outer gear is connected with the left end of the thick gear in a meshing manner, the lower end of the rotating cylinder is fixedly connected with a polishing disc, an upper gear is arranged on the upper side of a left belt wheel and is fixedly connected with the outer periphery of a left belt wheel shaft, the left end of the upper gear is connected with an external gear in a meshing manner, a swash plate gear is fixedly connected in the external gear, a rotating disc is fixedly connected in the swash plate gear, a gear cavity is arranged on the left side of the motor cavity, the, the end, far away from each other, of the array rotating shaft is rotatably connected to the inner wall of the rotating disc, an open slot with an opening on one side close to each other is arranged in the array rotating shaft, a moving shaft is slidably connected in the open slot, an array grinding disc is fixedly connected to one end, close to each other, of the moving shaft, a transmission cavity which is communicated up and down is arranged in the grinding shell, the array grinding disc is rotated in the transmission cavity, when a plastic mould is required to be ground, the motor is started to drive the output shaft to rotate, further the driving belt wheel is driven to rotate, further the transverse belt is driven to rotate, further the left belt wheel shaft is driven to rotate, further the right gear is driven to rotate, further the left gear is driven to rotate, further the small rotating shaft is driven to rotate, further the threaded cylinder is driven to reciprocate up, and then drive the polishing disc up-and-down reciprocating motion, the left band pulley axle rotates, and then drives the thick gear to rotate, and then drives the small outer gear to rotate, and then drives the rotating cylinder to rotate, and then drives the polishing disc to rotate, thereby playing the reciprocating motion up and down while the polishing disc rotates, thereby playing the function of polishing the upper surface of the plastic mold, when the left band pulley axle rotates, and then drives the upper gear to rotate, and then drives the external gear to rotate, and then drives the swash plate gear to rotate, and then drives the array helical gear to rotate, and then drives the array rotating shaft to rotate, and then drives the open slot to rotate, and then drives the moving shaft to rotate, and then drives the array polishing disc to rotate, thereby playing the role of polishing the outer surface of the plastic mold by the array polishing disc rotation.
Beneficially, a large pulley shaft is arranged on one side, close to each other, of the left pulley shaft and the motor, the upper end of the large pulley shaft is rotatably connected to the inner wall of the upper side of the motor cavity, a large pulley is fixedly connected to the periphery of the large pulley shaft, the periphery of the large pulley is connected to the inside of the transverse belt, a lower bevel gear is fixedly connected to the lower end of the large pulley shaft, the lower end of the lower bevel gear is in meshed connection with a rear bevel gear, the rear bevel gear is fixedly connected with a concentric front upper pulley shaft, the front end of the front upper pulley shaft is in meshed connection with the inner wall of the front side of the motor cavity, a front upper pulley is fixedly connected to the periphery of the front upper pulley shaft, a driving roller shaft is arranged on the lower side of the front upper pulley shaft, the rear end of the driving roller shaft is rotatably connected to the inner wall of the rear side of the motor cavity, a front, the front side of the front lower belt wheel is provided with a driving roller which is fixedly connected to the periphery of a driving roller shaft, the left side of the driving roller shaft is provided with a driven roller, the lower side of the array grinding disc is provided with a conveying cavity with a right opening and an upward opening, the driven roller is rotatably connected to the front inner wall and the rear inner wall of the conveying cavity, the driven roller and the periphery of the driving roller are connected with a conveying belt, when the output shaft rotates, the driving roller is further driven to rotate, the transverse belt is further driven to rotate, the large belt wheel shaft is further driven to rotate, the lower bevel gear is further driven to rotate, the rear bevel gear is further driven to rotate, the front upper belt wheel shaft is further driven to rotate, the front upper belt wheel is further driven to rotate, the inclined belt is further driven to rotate, the front lower belt wheel is further driven to rotate, and then the driving roller is driven to rotate, and the conveying belt is driven to rotate, so that the polished plastic mould is conveyed to the next soaking step.
Beneficially, a connecting column is fixedly connected to the upper end of the rotating disc, a big gear is fixedly connected to the upper end of the connecting column, a big helical gear is connected to the right end of the big gear in a meshed manner, a concentric inner rotating shaft is fixedly connected to the big helical gear, the right end of the inner rotating shaft is rotatably connected to the inner wall of the right side of the gear cavity, a left helical gear is fixedly connected to the left end of the inner rotating shaft, a front helical gear is connected to the left end of the left helical gear in a meshed manner, a concentric right large gear shaft is fixedly connected to the front helical gear, the rear end of the right large gear shaft is rotatably connected to the inner wall of the rear side of the gear cavity, a right large gear is fixedly connected to the periphery of the right large gear shaft, a left large gear is connected to the left large gear in a meshed manner, a concentric left large gear shaft is fixedly connected to the left, when the rotating disc rotates, the connecting column is driven to rotate, the big gear and the small gear are driven to rotate, the inner rotating shaft is driven to rotate, the left helical gear is driven to rotate, the front helical gear is driven to rotate, the right big gear shaft is driven to rotate, the right big gear is driven to rotate, the left big gear is driven to reversely rotate, the left big gear shaft is driven to reversely rotate, the transmission roller is driven to rotate on one side close to each other, and therefore the function of downward transmission of plastic molds is achieved.
Beneficially, an immersion shell is arranged at the lower right side of the conveying cavity, an immersion cavity with an upward opening is arranged in the immersion shell, a lower valve is fixedly connected to the lower end of the immersion shell, a waterproof chute is arranged on the inner wall of the rear side of the immersion cavity, a floating plate is connected in the immersion cavity in a sliding manner, a lower sliding rod is fixedly connected to the rear end of the floating plate, the lower sliding rod is connected in the waterproof chute in a sliding manner, the waterproof chute can enable the lower sliding rod to slide in the Liang face and prevent liquid in the immersion cavity from leaking, a connecting rod is fixedly connected to the rear end of the lower sliding rod, an upper trapezoidal block is fixedly connected to the front end of the connecting rod, a lower trapezoidal block is connected to the lower end of the upper trapezoidal block in a contact manner, a sliding rod is fixedly connected to the front end of the lower trapezoidal block, a sliding rod support is slidably connected to the periphery of the sliding rod, the movable ring is connected with a connecting shaft in a rotating manner, a fan rotating shaft is arranged on the lower side of the output shaft and is concentric with the output shaft, the front upper belt wheel shaft is connected in the grinding shell in a rotating manner, fan blades are fixedly connected to the lower end of the fan rotating shaft, after the polishing in the soaking cavity is finished, the lower valve is opened at the moment so as to play a role in discharging polishing liquid, the floating plate is reduced by liquid, the floating plate further moves downwards, the lower sliding rod further moves downwards, the connecting rod further moves downwards, the upper trapezoidal block further moves downwards, the lower trapezoidal block further moves forwards, the sliding rod further moves forwards, the movable ring further moves forwards, the connecting shaft is further driven to move forwards, and the connecting shaft, the fan rotating shaft and the output shaft are in a concentric connection state, the output shaft rotates to drive the connecting shaft to rotate, further drive the fan rotating shaft to rotate, further drive the fan blades to rotate, and further play a role in drying the plastic mold soaked in the soaking cavity.
Beneficially, motor chamber upside is equipped with the stock solution chamber, stock solution chamber upper end is equipped with the replenishment passageway, stock solution chamber right side downside is equipped with the supplementary pipe that link up, the replenishment pipe upside has linked firmly the ooff valve, the replenishment passageway has played the replenishment the function of the soak in the stock solution chamber, when needs to soak in the chamber replenishment polishing solution, start this moment the ooff valve, and then will the soak in the stock solution chamber passes through the replenishment pipe and the ooff valve is discharged in the soakage chamber to play the replenishment the polishing solution's in the soakage chamber effect.
The invention has the beneficial effects that: can be automatic with plastic mold income to the surface to plastic mold polishes the processing, puts into the soaks the intracavity with plastic mold after polishing, will pour the polishing solution automatically and soak, will get rid of the soak after soaking finishes, and will start the fan at this moment and weather the processing, the overall process does not need artifical the participation, and is efficient.
Drawings
In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.
The invention is further illustrated with reference to the following figures and examples.
FIG. 1 is a schematic view of the overall structure of a grinding, polishing and blow-drying device for plastic molds according to the present invention.
Fig. 2 is a schematic view of the structure a-a in fig. 1.
Fig. 3 is an enlarged schematic view of B in fig. 1.
Fig. 4 is a schematic view of the structure of C-C in fig. 1.
Fig. 5 is a schematic diagram of the structure of D-D in fig. 1.
Detailed Description
The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.
The grinding, polishing and blow-drying equipment for the plastic mold comprises a grinding shell 11, wherein a motor cavity 72 is arranged in the grinding shell 11, the upper end of the motor cavity 72 is fixedly connected with a motor 15, the lower end of the motor 15 is in power connection with an output shaft 16, the periphery of the output shaft 16 is fixedly connected with a driving pulley 17, the left side of the motor 15 is provided with a large pulley shaft 20, the left side of the motor 15 is provided with a left pulley shaft 60, the upper end of the left pulley shaft 60 is rotatably connected to the inner wall of the upper side of the motor cavity 72, the periphery of the motor cavity 72 is fixedly connected with a left pulley 59, a transverse belt 65 is connected between the left pulley 59 and the driving pulley 17, the lower side of the left pulley 59 is provided with a right gear 36, the periphery of the right gear 36 is fixedly connected to the periphery of the left pulley shaft 60, the lower side of the right gear 36 is provided with a, the left end of the right gear 36 is connected with a left gear 37 in a meshing manner, the lower end of the left gear 37 is fixedly connected with a small rotating shaft 69, the outer periphery of the small rotating shaft 69 is connected with a threaded cylinder 66 in a threaded manner, the outer periphery of the threaded cylinder 66 is rotatably connected with a rotating cylinder 67, the outer periphery of the rotating cylinder 67 is fixedly connected with a small outer gear 68, the right end of the small outer gear 68 is connected with the left end of the thick gear 71 in a meshing manner, the lower end of the rotating cylinder 67 is fixedly connected with a polishing disc 40, the upper side of the left belt wheel 59 is provided with an upper gear 61, the upper gear 61 is fixedly connected with the outer periphery of the left belt wheel shaft 60, the left end of the upper gear 61 is connected with an external gear 48 in a meshing manner, the external gear 48 is fixedly connected with a swash plate gear 49, the swash plate gear 49 is fixedly connected with a rotating disc 50, the left side of a motor cavity, the array helical gear 47 is fixedly connected with a concentric array rotating shaft 46, one end of the array rotating shaft 46, which is far away from each other, is rotatably connected to the inner wall of the rotating disc 50, an open slot 45 with an opening at one side close to each other is arranged in the array rotating shaft 46, a moving shaft 44 is slidably connected in the open slot 45, one end of the moving shaft 44, which is close to each other, is fixedly connected with an array grinding disc 43, a vertically through transmission cavity 42 is arranged in the grinding shell 11, the array grinding disc 43 rotates in the transmission cavity 42, when a plastic mold needs to be ground, the motor 15 is started at the moment, the output shaft 16 is further driven to rotate, the driving belt wheel 17 is further driven to rotate, the transverse belt 65 is further driven to rotate, the left belt wheel 59 is further driven to rotate, the left belt wheel shaft 60 is further driven to rotate, the right gear 36 is further driven to rotate, thereby driving the small rotating shaft 69 to rotate, further driving the threaded cylinder 66 to reciprocate up and down, further driving the rotating cylinder 67 to reciprocate up and down, further driving the polishing disc 40 to reciprocate up and down, further driving the left pulley shaft 60 to rotate, further driving the thick gear 71 to rotate, further driving the small outer gear 68 to rotate, further driving the rotating cylinder 67 to rotate, further driving the polishing disc 40 to rotate, thereby reciprocating up and down while rotating the polishing disc 40, thereby performing a function of polishing the upper surface of the plastic mold, when the left pulley shaft 60 rotates, further driving the upper gear 61 to rotate, further driving the external gear 48 to rotate, further driving the swash plate gear 49 to rotate, further driving the array helical gear 47 to rotate, further driving the array rotating shaft 46 to rotate, further driving the open slot 45 to rotate, and then the moving shaft 44 is driven to rotate, and the array grinding disc 43 is driven to rotate, so that the effect of grinding the outer surface of the plastic mold by rotating the array grinding disc 43 is achieved.
Beneficially, a large pulley shaft 20 is arranged on one side of the left pulley shaft 60 and the motor 15 close to each other, the upper end of the large pulley shaft 20 is rotatably connected to the inner wall of the upper side of the motor cavity 72, a large pulley 12 is fixedly connected to the periphery of the large pulley shaft 20, the periphery of the large pulley 12 is connected to the inside of the cross belt 65, a lower bevel gear 81 is fixedly connected to the lower end of the large pulley shaft 20, the lower end of the lower bevel gear 81 is connected with a rear bevel gear 80 in a meshing manner, the rear bevel gear 80 is fixedly connected with a concentric front upper pulley shaft 26, the front end of the front upper pulley shaft 26 is connected to the inner wall of the front side of the motor cavity 72 in a meshing manner, a front upper pulley 27 is fixedly connected to the periphery of the front upper pulley shaft 26, a driving roller shaft 34 is arranged on the lower side of the front upper pulley shaft 26, the rear end of the driving roller shaft 34 is rotatably connected to the inner, an inclined belt 33 is connected between the front lower belt wheel 79 and the front upper belt wheel 27, a driving roller 35 is arranged on the front side of the front lower belt wheel 79, the driving roller 35 is fixedly connected to the periphery of the driving roller shaft 34, a driven roller 39 is arranged on the left side of the driving roller shaft 34, a conveying cavity 41 with a right opening and an upward opening is arranged on the lower side of the array grinding disc 43, the driven roller 39 is rotatably connected to the front inner wall and the rear inner wall of the conveying cavity 41, a conveying belt 38 is connected to the peripheries of the driven roller 39 and the driving roller 35, when the output shaft 16 rotates, the driving belt wheel 17 is driven to rotate, the transverse belt 65 is driven to rotate, the large belt wheel shaft 20 is driven to rotate, the lower bevel gear 81 is driven to rotate, the rear bevel gear 80 is driven to rotate, the front upper belt wheel shaft 26 is driven to rotate, and the front upper belt wheel, and then the inclined belt 33 is driven to rotate, and further the front lower belt wheel 79 is driven to rotate, so that the driving roller shaft 34 is driven to rotate, and further the driving roller 35 is driven to rotate, and further the conveying belt 38 is driven to rotate, so that the effect of conveying the polished plastic mold to the next soaking step is achieved.
Beneficially, the upper end of the rotating disc 50 is fixedly connected with a connecting column 51, the upper end of the connecting column 51 is fixedly connected with a big pinion 52, the right end of the big pinion 52 is connected with a big helical gear 57 in a meshing manner, the big helical gear 57 is fixedly connected with a concentric inner rotating shaft 82, the right end of the inner rotating shaft 82 is rotatably connected with the inner wall of the right side of the gear cavity 58, the left end of the inner rotating shaft 82 is fixedly connected with a left helical gear 63, the left end of the left helical gear 63 is connected with a front helical gear 64 in a meshing manner, the front helical gear 64 is fixedly connected with a concentric right bull gear shaft 56, the rear end of the right bull gear shaft 56 is rotatably connected with the inner wall of the rear side of the gear cavity 58, the periphery of the right bull gear shaft 56 is fixedly connected with a right bull gear 62, the left end of the right bull gear 62 is connected with a left bull gear 53 in a meshing manner, the left bull gear, one side that transmission cylinder 55 is close to each other rotates in the array mill 43, works as when the rolling disc 50 rotates, and then drives spliced pole 51 rotates, and then drives big pinion 52 rotates, and then drives big pinion 57 rotates, and then drives interior pivot 82 rotates, and then drives left helical gear 63 rotates, and then drives preceding helical gear 64 rotates, and then drives right bull gear 56 rotates, and then drives right bull gear 62 rotates, and then drives left bull gear 53 antiport, and then drives left bull gear 54 antiport, thereby drive one side that lateral direction is close to each other on transmission cylinder 55 rotates, thereby has realized the function of downward transmission plastic mold.
Beneficially, an immersing shell 32 is arranged at the lower right side of the conveying cavity 41, an immersing cavity 31 with an upward opening is arranged in the immersing shell 32, a lower valve 30 is fixedly connected to the lower end of the immersing shell 32, a waterproof chute 29 is arranged on the inner wall of the rear side of the immersing cavity 31, a floating plate 28 is slidably connected in the immersing cavity 31, a lower sliding rod 78 is fixedly connected to the rear end of the floating plate 28, the lower sliding rod 78 is slidably connected in the waterproof chute 29, the waterproof chute 29 enables the lower sliding rod 78 to slide on the rear surface and simultaneously prevent the liquid in the immersing cavity 31 from leaking, a connecting rod 77 is fixedly connected to the rear end of the lower sliding rod 78, an upper trapezoidal block 75 is fixedly connected to the front end of the connecting rod 77, a lower trapezoidal block 76 is connected to the lower trapezoidal block 75 in a contact manner, a sliding rod 74 is fixedly connected to the front end of the lower trapezoidal block 76, a sliding rod support 73 is slidably connected to the periphery of the sliding rod 74, the upper end of, the front end of the sliding rod 74 is fixedly connected with a moving ring 22, the moving ring 22 is rotatably connected with a connecting shaft 21, the lower side of the output shaft 16 is provided with a fan rotating shaft 23, the fan rotating shaft 23 is concentric with the output shaft 16, the front upper pulley shaft 26 is rotatably connected in the grinding shell 11, the lower end of the fan rotating shaft 23 is fixedly connected with a fan blade 25, after the inside of the soaking cavity 31 is polished, the lower valve 30 is opened to play a role in discharging polishing liquid, the floating plate 28 is reduced by the liquid to further move downwards, the lower sliding rod 78 is further driven to move downwards, the connecting rod 77 is further driven to move downwards, the upper trapezoidal block 75 is further driven to move downwards, the lower trapezoidal block 76 is further driven to move forwards, the sliding rod 74 is further driven to move forwards, the moving ring 22 is further driven to move forwards, and the connecting shaft 21 is further driven to move forwards, therefore, the connecting shaft 21, the fan rotating shaft 23 and the output shaft 16 are in a concentric connection state, the output shaft 16 rotates to drive the connecting shaft 21 to rotate, the fan rotating shaft 23 is driven to rotate, the fan blades 25 are driven to rotate, and therefore the effect of drying the plastic mold soaked in the soaking cavity 31 is achieved.
Beneficially, motor chamber 72 upside is equipped with stock solution chamber 13, stock solution chamber 13 upper end is equipped with supplementary passageway 14, stock solution chamber 13 right side downside is equipped with the supplementary pipe 19 that link up, supplementary pipe 19 upside is linked firmly ooff valve 18, supplementary passageway 14 has played the function of replenishing the soak in the stock solution chamber 13, when needs to when replenishing the polishing solution in the soakage chamber 31, start at this moment ooff valve 18, and then will the soak in the stock solution chamber 13 is passed through supplementary pipe 19 and ooff valve 18 is discharged in the soakage chamber 31 to play the effect of replenishing the polishing solution in the soakage chamber 31.
The following describes in detail the use steps of a sanding, polishing and blow-drying apparatus for plastic molds according to the present disclosure with reference to fig. 1 to 5:
in the initial state, the connecting shaft 21 is not concentrically connected with the output shaft 16 and the fan rotating shaft 23;
when the plastic mold needs to be polished, the motor 15 is started, so as to drive the output shaft 16 to rotate, further drive the driving pulley 17 to rotate, further drive the transverse belt 65 to rotate, further drive the left pulley 59 to rotate, further drive the left pulley shaft 60 to rotate, further drive the right gear 36 to rotate, further drive the left gear 37 to rotate, further drive the small rotating shaft 69 to rotate, further drive the threaded cylinder 66 to reciprocate up and down, further drive the rotating cylinder 67 to reciprocate up and down, further drive the polishing disc 40 to reciprocate up and down, further drive the left pulley shaft 60 to rotate, further drive the thick gear 71 to rotate, further drive the small outer gear 68 to rotate, further drive the rotating cylinder 67 to rotate, further drive the polishing disc 40 to rotate, further achieve the up and down reciprocating movement while the polishing disc 40 rotates, thereby achieving the function of polishing the upper surface of the plastic mold, when the left pulley shaft 60 rotates, further drive the upper gear 61 to rotate, thereby driving the external gear 48 to rotate, further driving the swash plate gear 49 to rotate, further driving the array helical gear 47 to rotate, further driving the array rotating shaft 46 to rotate, further driving the open slot 45 to rotate, further driving the moving shaft 44 to rotate, further driving the array grinding disc 43 to rotate, thereby playing a role of polishing the outer surface of the plastic mold by the array grinding disc 43 to rotate, when the output shaft 16 rotates, further driving the driving pulley 17 to rotate, further driving the cross belt 65 to rotate, further driving the large pulley shaft 20 to rotate, further driving the lower bevel gear 81 to rotate, further driving the rear bevel gear 80 to rotate, further driving the front upper pulley shaft 26 to rotate, further driving the front upper pulley 27 to rotate, further driving the helical belt 33 to rotate, further driving the front lower pulley 79 to rotate, further driving the driving roller 34 to rotate, further driving the driving roller 35 to rotate, further driving the conveying belt 38 to, thereby playing a role of transferring the ground plastic mold to the next soaking step, when the rotating disc 50 rotates, further driving the connecting column 51 to rotate, further driving the big and small gears 52 to rotate, further driving the big bevel gear 57 to rotate, further driving the inner rotating shaft 82 to rotate, further driving the left bevel gear 63 to rotate, further driving the front bevel gear 64 to rotate, further driving the right big gear shaft 56 to rotate, further driving the right big gear 62 to rotate, further driving the left big gear 53 to reversely rotate, further driving the left big gear shaft 54 to reversely rotate, thereby driving the sides of the transferring roller 55 which are close to each other to rotate, thereby realizing a function of transferring the plastic mold downwards, when the inside of the soaking cavity 31 is polished, at the moment, the lower valve 30 is opened to play a role of discharging polishing liquid, and the floating plate 28 for reducing liquid further moves downwards, further driving the lower slide bar 78 to move downwards, and further drives the connecting rod 77 to move downwards, and further drives the upper trapezoidal block 75 to move downwards, and further drives the lower trapezoidal block 76 to move forwards, and further drives the sliding rod 74 to move forwards, and further drives the moving ring 22 to move forwards, and further drives the connecting shaft 21 to move forwards, so that the connecting shaft 21, the fan rotating shaft 23 and the output shaft 16 are in a concentric connection state, the output shaft 16 rotates, and further drives the connecting shaft 21 to rotate, and further drives the fan rotating shaft 23 to rotate, and further drives the fan blades 25 to rotate, thereby playing a role in drying the plastic mold soaked in the soaking cavity 31, when polishing liquid needs to be replenished into the soaking cavity 31, the switch valve 18 is started at the moment, and further the soaking liquid in the liquid storage cavity 13 is discharged into the soaking cavity 31 through the replenishing pipe 19 and the switch valve 18, thereby playing a role in replenishing the polishing liquid in the soaking cavity 31.
The invention has the beneficial effects that: the invention can automatically take in the plastic mould, and polish the outer surface of the plastic mould, the plastic mould is placed in the soaking cavity after polishing, the polishing solution is automatically poured into the soaking cavity for soaking, the soaking solution is removed after soaking, and the fan is started to blow and dry at the moment, so that the whole process does not need manual participation, and the efficiency is high.
The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. The utility model provides a polishing of plastic mold weathers equipment, includes the shell of polishing, its characterized in that: a motor cavity is arranged in the polishing shell, a motor is fixedly connected to the upper end of the motor cavity, an output shaft is in power connection with the lower end of the motor, a driving belt wheel is fixedly connected to the periphery of the output shaft, a large belt wheel shaft is arranged on the left side of the motor, a left belt wheel shaft is arranged on the left side of the motor, the upper end of the left belt wheel shaft is rotatably connected to the inner wall of the upper side of the motor cavity, a left belt wheel is fixedly connected to the periphery of the motor cavity, a transverse belt is connected between the left belt wheel and the driving belt wheel, a right gear is arranged on the lower side of the left belt wheel, the periphery of the right gear is fixedly connected to the periphery of the left belt wheel shaft, a thick gear is arranged on the lower side of the right gear, the periphery of the left belt wheel shaft is fixedly connected to a left gear in a meshing manner, a small rotating shaft is, the periphery of the rotating cylinder is fixedly connected with a small outer gear, the right end of the small outer gear is connected to the left end of the thick gear in a meshed manner, the lower end of the rotating cylinder is fixedly connected with a polishing disc, the upper side of the left belt wheel is provided with an upper gear, the upper gear is fixedly connected to the periphery of the left belt wheel shaft, the left end of the upper gear is connected with an external gear in a meshed manner, the internal of the external gear is fixedly connected with a swash plate gear, the internal of the swash plate gear is fixedly connected with a rotating disc, the left side of the motor cavity is provided with a gear cavity, the rotating disc is rotatably connected into the gear cavity, the lower end of the swash plate gear is connected with four annular array bevel gears in a meshed manner, the array bevel gears are fixedly connected with concentric array rotating shafts, one ends of the array rotating shafts, which are far away from each, the array grinding disc is fixedly connected to one end, close to each other, of the moving shaft, a transmission cavity which is communicated up and down is arranged in the grinding shell, and the array grinding disc rotates in the transmission cavity.
2. The grinding, polishing and blow-drying apparatus for plastic molds according to claim 1, wherein: a large pulley shaft is arranged on one side of the left pulley shaft, which is close to the motor, the upper end of the large pulley shaft is rotatably connected to the inner wall of the upper side of the motor cavity, a large pulley is fixedly connected to the periphery of the large pulley shaft, the periphery of the large pulley is connected to the inside of the transverse belt, a lower bevel gear is fixedly connected to the lower end of the large pulley shaft, the lower end of the lower bevel gear is connected with a rear bevel gear in a meshed manner, the rear bevel gear is fixedly connected with a concentric front upper pulley shaft, the front end of the front upper pulley shaft is connected to the inner wall of the front side of the motor cavity in a meshed manner, a front upper pulley is fixedly connected to the periphery of the front upper pulley shaft, a driving roller shaft is arranged on the lower side of the front upper pulley shaft, the rear end of the driving roller shaft is rotatably connected to the inner wall of the rear side of the motor cavity, the front lower belt wheel front side is provided with a driving roller which is fixedly connected to the periphery of a driving roller shaft, a driven roller is arranged on the left side of the driving roller shaft, a conveying cavity with a right opening and an upward opening is formed in the lower side of the array grinding disc, the driven roller is rotatably connected to the front inner wall and the rear inner wall of the conveying cavity, and a conveying belt is connected to the periphery of the driven roller and the driving roller.
3. The grinding, polishing and blow-drying apparatus for plastic molds according to claim 1, wherein: the upper end of the rotating disc is fixedly connected with a connecting column, the upper end of the connecting column is fixedly connected with a big gear and a small gear, the right ends of the big gear and the small gear are connected with a big helical gear in a meshing way, the big helical gear is fixedly connected with a concentric inner rotating shaft, the right end of the inner rotating shaft is rotatably connected on the inner wall of the right side of the gear cavity, the left end of the inner rotating shaft is fixedly connected with a left helical gear, the left end of the left helical gear is connected with a front helical gear in a meshing way, the front bevel gear is fixedly connected with a concentric right large gear shaft, the rear end of the right large gear shaft is rotatably connected on the inner wall of the rear side of the gear cavity, the periphery of the right gearwheel shaft is fixedly connected with a right gearwheel, the left end of the right gearwheel is engaged and connected with a left gearwheel, the left gearwheel is fixedly connected with a concentric left gearwheel shaft, the front ends of the left gearwheel shaft and the right gearwheel shaft are fixedly connected with a transmission roller, and one side of the transmission roller, which is close to each other, rotates in the array millstone.
4. The grinding, polishing and blow-drying apparatus for plastic molds according to claim 3, wherein: the right lower side of the conveying cavity is provided with a soaking shell, a soaking cavity with an upward opening is arranged in the soaking shell, the lower end of the soaking shell is fixedly connected with a lower valve, the inner wall of the rear side of the soaking cavity is provided with a waterproof chute, a floating plate is connected in the soaking cavity in a sliding manner, the rear end of the floating plate is fixedly connected with a lower sliding rod, the lower sliding rod is connected in the waterproof chute in a sliding manner, the rear end of the lower sliding rod is fixedly connected with a connecting rod, the front end of the connecting rod is fixedly connected with an upper trapezoidal block, the lower end of the upper trapezoidal block is connected with a lower trapezoidal block in a contact manner, the front end of the lower trapezoidal block is fixedly connected with a sliding rod, the periphery of the sliding rod is connected with a sliding rod support in a sliding manner, the upper end of the sliding rod support is fixedly connected on the inner wall of the upper side of, the front upper belt wheel shaft is rotatably connected in the grinding shell, and the lower end of the fan rotating shaft is fixedly connected with fan blades.
5. The grinding, polishing and blow-drying apparatus for plastic molds according to claim 4, wherein: the motor cavity upside is equipped with the stock solution chamber, stock solution chamber upper end is equipped with the replenishment passageway, stock solution chamber right side downside is equipped with the replenishment pipe that link up, replenishment pipe upside has linked firmly the ooff valve.
CN202110038104.1A 2021-01-12 2021-01-12 Polishing and blow-drying equipment for plastic molds Withdrawn CN112605805A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202110038104.1A CN112605805A (en) 2021-01-12 2021-01-12 Polishing and blow-drying equipment for plastic molds

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202110038104.1A CN112605805A (en) 2021-01-12 2021-01-12 Polishing and blow-drying equipment for plastic molds

Publications (1)

Publication Number Publication Date
CN112605805A true CN112605805A (en) 2021-04-06

Family

ID=75254612

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202110038104.1A Withdrawn CN112605805A (en) 2021-01-12 2021-01-12 Polishing and blow-drying equipment for plastic molds

Country Status (1)

Country Link
CN (1) CN112605805A (en)

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Application publication date: 20210406

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