CN220051199U - Grinding device is used in glasses processing - Google Patents

Abstract

The utility model relates to a polishing device for processing glasses, which comprises a processing box, wherein a limiting plate is connected to the processing box; the limiting plate is connected with two polishing assemblies in a sliding manner, and the polishing assemblies can polish the lens surface; the processing box is connected with a horizontal moving assembly, and the horizontal moving assembly can enable the two polishing assemblies to move horizontally in opposite directions; the processing box is connected with a fixing component, and the fixing component can fix the lens. According to the utility model, the lenses are quickly fixed through the fixing assembly, then the two polishing assemblies are driven to approach towards each other through the horizontal moving assembly, the two sides of the lenses are polished simultaneously, the gears are arranged at the same time of polishing the two sides of the lenses at one time, so that the lenses can be polished at one time, the polishing efficiency is greatly improved, and the polishing smoothness of the mirror surface can be improved through the spraying assembly.

Description

Grinding device is used in glasses processing

Technical Field

The utility model relates to the technical field of eyeglass processing, in particular to a polishing device for eyeglass processing.

Background

The glasses are composed of lenses and a glasses frame, are used for improving eyesight, protecting eyes or being used for decoration, the lenses need to be polished in the production and processing processes, the existing lens polishing device for the glasses processing needs to be used for taking down the lenses from the clamping equipment after one surface of the lenses is polished, and then clamping the lenses again after the lenses are turned over, so that the operation is complex, more time is consumed, and the polishing efficiency is greatly reduced.

Disclosure of Invention

The utility model aims to provide a polishing device for processing glasses, which solves the problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the polishing device for processing the glasses comprises a processing box, wherein a limiting plate is connected to the processing box; the limiting plate is connected with two polishing assemblies in a sliding manner, and the polishing assemblies can polish the lens surface; the processing box is connected with a horizontal moving assembly, and the horizontal moving assembly can enable the two polishing assemblies to move horizontally in opposite directions; the processing box is connected with a fixing component which can fix the lens; the fixed component is connected with a spraying component which can spray the mirror surface in the grinding process; the processing box is connected with a storage assembly, and the storage assembly can collect water after spraying.

Optionally, the polishing assembly comprises a shell, be connected with the mounting panel on the casing, rotate on the mounting panel and be connected with the driven shaft, fixedly connected with motor of polishing on the mounting panel, the output fixedly connected with drive gear of motor of polishing, be connected with driven gear on the driven shaft, drive gear is connected with driven gear, be connected with the mill of polishing on the driven shaft.

Optionally, the horizontal migration subassembly includes the removal motor of installing on the processing case and sets up the two-way threaded rod of rotating the connection on the processing case, the output of removal motor is connected with the two-way threaded rod, two-way threaded rod and casing threaded connection.

Optionally, the fixed subassembly is including installing the dead lever on processing case, fixedly connected with down the clamping jaw on the dead lever, it is connected with the clamping jaw to rotate on the dead lever, be connected with the extension spring between clamping jaw and the dead lever, all fixedly connected with fixture block on clamping jaw and the lower clamping jaw.

Optionally, the spraying assembly comprises a water suction pump arranged on the processing box, a water inlet pipe and a water drain pipe are connected to the water suction pump, and a spray head is connected to the water drain pipe.

Optionally, the storage component comprises a through hole formed in the processing box and a sliding rail arranged on the processing box, a sliding block is connected in the sliding rail in a sliding manner, and a water storage tank is connected to the sliding block.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, the lenses are quickly fixed through the fixing assembly, then the two polishing assemblies are driven to approach towards each other through the horizontal moving assembly, the two sides of the lenses are polished simultaneously, the gears are arranged at the same time of polishing the two sides of the lenses at one time, so that the lenses can be polished at one time, the polishing efficiency is greatly improved, and the polishing smoothness of the mirror surface can be improved through the spraying assembly.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a front elevational view of the structure of the present utility model;

FIG. 3 is a schematic view of the internal structure of the present utility model;

FIG. 4 is a schematic view of the internal structure of the housing of the present utility model;

fig. 5 is a schematic structural view of the fixing assembly of the present utility model.

100. A processing box; 110. a limiting plate; 200. a polishing assembly; 210. a housing; 220. a mounting plate; 230. a driven shaft; 240. polishing a motor; 250. a transmission gear; 260. a driven gear; 270. polishing the grinding disc; 300. a horizontal movement assembly; 310. a moving motor; 320. a two-way threaded rod; 400. a fixing assembly; 410. a fixed rod; 420. a lower jaw; 430. an upper clamping jaw; 440. a tension spring; 450. a clamping block; 500. a spraying assembly; 510. a water pump; 520. a water inlet pipe; 530. a drain pipe; 540. a spray head; 600. a receiving assembly; 610. a through hole; 620. a slide rail; 630. a slide block; 640. a water storage tank.

Detailed Description

In order to further describe the technical means and effects adopted by the present utility model for achieving the intended purpose, the following detailed description will refer to the specific implementation, structure, characteristics and effects according to the present utility model with reference to the accompanying drawings and preferred embodiments.

As shown in fig. 1 to 5, a polishing device for glasses processing includes a processing box 100, and a limiting plate 110 is connected to the processing box 100;

the limiting plate 110 is slidably connected with polishing assemblies 200, the number of the polishing assemblies 200 is two, the polishing assemblies 200 can polish the eye mirror surface, and specifically, the polishing assemblies 200 comprise a shell 210, a mounting plate 220 is connected to the shell 210, a driven shaft 230 is rotatably connected to the mounting plate 220, a polishing motor 240 is fixedly connected to the mounting plate 220, a transmission gear 250 is fixedly connected to the output end of the polishing motor 240, a driven gear 260 is connected to the driven shaft 230, the transmission gear 250 is connected with the driven gear 260, and a polishing disc 270 is connected to the driven shaft 230.

Through starting two motors 240 that polish, motor 240 drives drive gear 250 and rotates, and drive gear 250 can drive the multiunit driven gear 260 that is connected with it and rotate when rotating, and driven gear 260 can drive driven shaft 230 and rotate when rotating, further drives the epaxial 270 of polishing of driven and rotates, can realize once only polishing the two sides of spectacle lens through two polishing assemblies 200 that set up.

The machining box 100 is connected with a horizontal moving assembly 300, the horizontal moving assembly 300 can enable the two polishing assemblies 200 to move horizontally in opposite directions, and specifically, the horizontal moving assembly 300 comprises a moving motor 310 installed on the machining box 100 and a bidirectional threaded rod 320 rotatably connected to the machining box 100, an output end of the moving motor 310 is connected with the bidirectional threaded rod 320, and the bidirectional threaded rod 320 is in threaded connection with the casing 210.

By starting the horizontal motor 310 to drive the bidirectional threaded rod 320 to rotate, the bidirectional threaded rod 320 drives the two polishing assemblies 200 to approach or depart from each other, so that the polishing assemblies 200 can be moved to a polishing area.

The processing box 100 is connected with a fixing assembly 400, the fixing assembly 400 can fix lenses, and specifically, the fixing assembly 400 comprises a fixing rod 410 arranged on the processing box 100, a lower clamping jaw 420 is fixedly connected to the fixing rod 410, an upper clamping jaw 430 is rotatably connected to the fixing rod 410, a tension spring 440 is connected between the upper clamping jaw 430 and the fixing rod 410, and clamping blocks 450 are fixedly connected to the upper clamping jaw 430 and the lower clamping jaw 420.

By pulling the upper clamping jaw 430 upwards, the angle between the clamping jaws is increased, lenses are placed into clamping grooves of the upper clamping jaw 430 and the upper clamping block 450 of the lower clamping jaw 420, the upper clamping jaw 430 is loosened, the upper clamping jaw 430 is pulled to fix the lenses under the pulling force of the tension spring 440, and the structure can achieve rapid taking out and fixing of the lenses.

The fixed assembly 400 is connected with a spraying assembly 500, the spraying assembly 500 can spray the mirror surface in the grinding process, and specifically, the spraying assembly 500 comprises a water suction pump 510 installed on the processing box 100, the water suction pump 510 is connected with a water inlet pipe 520 and a water outlet pipe 530, and the water outlet pipe 530 is connected with a spray head 540.

The water is pumped in from the water inlet pipe 520 through the water suction pump 510 and is discharged into the water discharge pipe 530, the water is led into the spray nozzle 540 along the water discharge pipe 530, the spray nozzles 540 are arranged on the mirror surface through the spray nozzle 540, the spray nozzles 540 are arranged on two sides of the fixed rod 410, meanwhile, the spray nozzles 540 point to the mirror surface direction, the polishing process can be realized, the polished mirror surface can be smoother through the water injection, and the polishing quality is higher.

The processing box 100 is connected with a storage component 600, the storage component 600 can collect water after spraying, specifically, the storage component 600 comprises a through hole 610 formed in the processing box 100 and a sliding rail 620 arranged on the processing box 100, a sliding block 630 is connected in the sliding rail 620 in a sliding manner, and a water storage tank 640 is connected to the sliding block 630.

The sprayed water is collected at the bottom of the processing box 100, flows into the water storage tank 640 through the through hole 610, is collected by the water storage tank 640, and after polishing, the water storage tank 640 is pulled to be drawn out from the slide rail 620, and then the wastewater in the water storage tank 640 is treated.

The lens is quickly fixed through the fixing assembly 400, then the two polishing assemblies 200 are driven to be close to each other through the horizontal moving assembly 300, the two sides of the lens are polished simultaneously, the plurality of lenses can be polished once by arranging the plurality of gears while the two sides of the lens are polished once, the polishing efficiency is greatly improved, and meanwhile, the polishing smoothness rate of the lens can be improved through the spraying assembly 500.

The present utility model is not limited to the above embodiments, but is capable of modification and variation in detail, and other modifications and variations can be made by those skilled in the art without departing from the scope of the present utility model.

Claims (6)

1. The polishing device for processing the glasses is characterized by comprising a processing box (100), wherein the processing box (100) is connected with a limiting plate (110);

the limiting plate (110) is connected with polishing assemblies (200) in a sliding manner, the number of the polishing assemblies (200) is two, and the polishing assemblies (200) can polish the lens surface;

the processing box (100) is connected with a horizontal moving assembly (300), and the horizontal moving assembly (300) can enable the two polishing assemblies (200) to horizontally move in opposite directions;

the processing box (100) is connected with a fixing assembly (400), and the fixing assembly (400) can fix the lens;

the fixed component (400) is connected with a spraying component (500), and the spraying component (500) can spray the mirror surface in the grinding process;

the processing box (100) is connected with a storage assembly (600), and the storage assembly (600) can collect water after spraying.

2. The polishing device for eyeglass processing according to claim 1, wherein the polishing assembly (200) comprises a housing (210), a mounting plate (220) is connected to the housing (210), a driven shaft (230) is rotatably connected to the mounting plate (220), a polishing motor (240) is fixedly connected to the mounting plate (220), a transmission gear (250) is fixedly connected to an output end of the polishing motor (240), a driven gear (260) is connected to the driven shaft (230), the transmission gear (250) is connected to the driven gear (260), and a polishing disc (270) is connected to the driven shaft (230).

3. The polishing apparatus for eyeglass processing according to claim 2, wherein the horizontal moving assembly (300) comprises a moving motor (310) mounted on the processing box (100) and a bi-directional threaded rod (320) rotatably connected to the processing box (100), an output end of the moving motor (310) is connected to the bi-directional threaded rod (320), and the bi-directional threaded rod (320) is in threaded connection with the housing (210).

4. The polishing device for eyeglass processing according to claim 1, wherein the fixing assembly (400) comprises a fixing rod (410) mounted on the processing box (100), a lower clamping jaw (420) is fixedly connected to the fixing rod (410), an upper clamping jaw (430) is rotatably connected to the fixing rod (410), a tension spring (440) is connected between the upper clamping jaw (430) and the fixing rod (410), and clamping blocks (450) are fixedly connected to the upper clamping jaw (430) and the lower clamping jaw (420).

5. The polishing device for eyeglass processing according to claim 1, wherein the shower assembly (500) comprises a water pump (510) mounted on the processing box (100), the water pump (510) is connected with a water inlet pipe (520) and a water outlet pipe (530), and the water outlet pipe (530) is connected with a nozzle (540).

6. The polishing device for eyeglass processing according to claim 1, wherein the storage assembly (600) comprises a through hole (610) formed in the processing box (100) and a slide rail (620) formed in the processing box (100), a slide block (630) is slidably connected to the slide rail (620), and a water storage tank (640) is connected to the slide block (630).