CN219787771U - Automatic feeding mechanism of optical lens piece excircle polishing equipment - Google Patents

Abstract

The utility model belongs to the technical field of optical lens processing, in particular to an automatic feeding mechanism of optical lens excircle polishing equipment, which comprises a conveyor base and a feeding hopper for discharging, wherein an inner cavity of the feeding hopper is funnel-shaped, and a feeding device is arranged on the upper surface of the conveyor base. This automatic feeding mechanism of optical lens excircle equipment of polishing through setting up at traditional feeder hopper surface mounting feeding device, utilizes the unloading dish in the feeding device to the feeder hopper in incline the lens raw materials to reduce the flow of lens raw materials through the feed opening, utilize to install the unloading dish activity, make when the conveyer belt operates, the inboard supporting wheel of conveyer belt drives the cam through the driving gear and rotates, and then the arch through the cam surface carries out the jacking to the push rod of unloading dish below, and then drives the unloading dish and together inclines and shake, and then avoid the feed opening to block up, promote the even ejection of compact of feed opening, avoid the feeder hopper to block up, thereby make have the characteristics of the automatic feeding of equipment of polishing of being convenient for.

Description

Automatic feeding mechanism of optical lens piece excircle polishing equipment

Technical Field

The utility model relates to the technical field of optical lens processing, in particular to an automatic feeding mechanism of optical lens excircle polishing equipment.

Background

The optical glass is prepared by mixing high-purity oxides of silicon, boron, sodium, potassium, zinc, lead, magnesium, calcium, barium and the like according to a specific formula, melting the mixture in a platinum crucible at high temperature, uniformly stirring the mixture by using ultrasonic waves, and removing bubbles; then slowly cooling for a long time to prevent internal stress from being generated on the glass block, measuring the cooled glass block by an optical instrument, and checking whether the purity, the transparency, the uniformity, the refractive index and the dispersion rate are in accordance with the specifications, and heating and forging the qualified glass block to form an optical lens blank.

The automatic feeding mechanism (publication number: CN 212892725U) for optical lens processing is disclosed on Chinese patent website, although the problems that the traditional optical lens adopts a method of manual feeding and conveying in the processing process to feed, the labor cost is increased, the manual feeding and feeding speed is not easy to control and the feeding efficiency is low due to the fact that the feeding is performed for a long time are solved, the following problems still exist:

during the use, a large amount of lens raw materials are emptyd in to the feeder hopper for the inner chamber of feeder hopper is blocked by the lens raw materials, has hindered the unloading of feeder hopper, and when the lens raw materials in getting into the feeder hopper reduces, although avoid the inner chamber of feeder hopper to block up, but need the artifical frequent lens raw materials of pouring into in the feeder hopper, and then all be inconvenient for use.

Disclosure of Invention

Based on the technical problem that the conventional optical lens excircle polishing equipment is inconvenient to automatically feed, the utility model provides an automatic feeding mechanism of the optical lens excircle polishing equipment.

The utility model provides an automatic feeding mechanism of optical lens excircle polishing equipment, which comprises a conveyor base and a feeding hopper for discharging, wherein an inner cavity of the feeding hopper is funnel-shaped, a feeding device is arranged on the upper surface of the conveyor base, one end of the feeding device is close to the upper surface of the feeding hopper, and when the conveyor base operates, lens raw materials are slowly fed into the feeding device through a vibrating box feeding hopper.

Preferably, the conveyer seat comprises a top plate and a bottom plate, the lower surface of the top plate is fixedly connected with a supporting column, the upper surface of the bottom plate is fixedly connected with the lower surface of the supporting column, the feeding device comprises a feeding disc, a feeding opening is formed in one end of the feeding disc, the upper surface of the feeding opening is in a trapezoid shape, and the tail end of the feeding opening is located right above the feeding hopper.

Through above-mentioned technical scheme, utilize the feed opening to be the shrink form for the flow that the lens raw materials in the feed tray outwards emptys reduces, avoids the lens raw materials to slide in a large number and leads to the feeder hopper to block up.

Preferably, the middle part fixedly connected with articulated pole of lower surface of unloading dish, the both ends of articulated pole are all rotated and are connected with the bracing piece, the lower surface of bracing piece and the last fixed surface of roof are connected, the lower surface one end fixedly connected with spring of unloading dish, the lower fixed surface of spring is connected with the ejector pin, the lower surface of ejector pin and the last fixed surface of roof are connected.

Through above-mentioned technical scheme, be the wane form after utilizing articulated pole to connect the unloading dish to be convenient for empty the unloading dish to one end.

Preferably, the lower surface fixedly connected with universal bulb of unloading dish, universal bulb's loose end surface fixedly connected with push rod, the upper surface fixedly connected with gag lever post of roof, the jack has all been seted up to the upper surface of gag lever post and the upper surface of roof, two the jack aligns, the inner wall and the surface sliding connection of push rod of jack.

Through above-mentioned technical scheme, the diameter that utilizes gag lever post surface jack is greater than the diameter of push rod to the push rod of being convenient for inclines in the gag lever post.

Preferably, the upper surface of bottom plate and the upper surface fixed connection of feeder hopper, the transport groove has been seted up to the upper surface of bottom plate, the feeder hopper is located directly over the transport groove one end, the lower surface fixed connection of bottom plate has driving motor, driving motor's output shaft surface mounting has the drive wheel, the surface transmission of drive wheel is connected with the conveyer belt, the upper end of conveyer belt is located the inboard of transport groove.

Through above-mentioned technical scheme, the one end that utilizes the conveyer belt passes through from the lower extreme of feeder hopper to be convenient for receive the lens raw materials of feeder hopper lower extreme roll-off.

Preferably, the inner wall of the conveying belt is in transmission connection with a supporting wheel, a rotating shaft of the supporting wheel is in transmission connection with an output shaft of the driving motor through a transmission mechanism, and a driving gear is fixedly connected to the surface of one supporting wheel through the rotating shaft.

Through the technical scheme, the transmission mechanism is used for connecting the output shaft of the driving motor with the rotating shaft of the supporting wheel, so that auxiliary transmission is conveniently carried out on the conveying belt, and the transmission mechanism consists of two transmission wheels, wherein the transmission belt is connected with the outer surfaces of the two transmission wheels in a transmission way.

Preferably, the upper surface fixedly connected with extrusion box of bottom plate, the inner wall of extrusion box rotates and is connected with drive gear, drive gear's surface and the surface engagement of driving gear, drive gear's surface fixedly connected with cam, the slot has been seted up to extrusion box's upper surface, the lower extreme of push rod stretches into the inboard of extrusion box through the slot.

Through above-mentioned technical scheme, utilize the arch of cam surface to carry out the jacking to the lower extreme of push rod to be convenient for carry out the jacking through the one end of push rod to the unloading dish, and then be convenient for promote the unloading dish to carry out the unloading.

The beneficial effects of the utility model are as follows:

through setting up at traditional feeder hopper surface mounting feed device, utilize the unloading dish in the feed device to the feeder hopper fall down the lens raw materials inwards, and reduce the flow of lens raw materials through the feed opening, utilize to move the installation with the unloading dish, make when the conveyer belt operates, the inboard supporting wheel of conveyer belt drives the cam through the driving gear and rotate, and then carry out the jacking to the push rod of unloading dish below through the arch on cam surface, and then drive the unloading dish and together slope and shake, and then avoid the feed opening to block up, promote the even ejection of compact of feed opening, avoid the feeder hopper to block up, thereby make have the characteristics of the automatic feeding of polishing equipment of being convenient for.

Drawings

Fig. 1 is a schematic diagram of an automatic feeding mechanism of an optical lens excircle polishing device;

fig. 2 is a perspective view of a hinge rod structure of an automatic feeding mechanism of an optical lens excircle polishing device;

fig. 3 is a perspective view of a bottom plate structure of an automatic feeding mechanism of an optical lens excircle polishing device;

fig. 4 is a perspective view of a conveyor belt structure of an automatic feeding mechanism of an optical lens excircle polishing device;

fig. 5 is a cross-sectional view of an extrusion box structure of an automatic feeding mechanism of an optical lens excircle polishing device.

In the figure: 1. a feed hopper; 2. a feeding device; 21. a blanking disc; 22. a feed opening; 23. a hinge rod; 24. a support rod; 25. a spring; 26. a push rod; 27. universal ball head; 28. a push rod; 29. a limit rod; 210. a driving motor; 211. a driving wheel; 212. a conveyor belt; 213. a support wheel; 214. a drive gear; 215. extruding the box; 216. a transmission gear; 217. a cam; 3. a top plate; 4. a bottom plate; 5. and (5) supporting the column.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1-5, an automatic feeding mechanism of an optical lens excircle polishing device comprises a conveyor base and a feeding hopper 1 for discharging, wherein an inner cavity of the feeding hopper 1 is funnel-shaped, a feeding device 2 is mounted on the upper surface of the conveyor base, one end of the feeding device 2 is close to the upper surface of the feeding hopper 1, and when the conveyor base runs, lens raw materials are slowly fed into the feeding device 2 through a vibrating box in the feeding hopper 1.

In order to carry out movable mounting to unloading dish 21, including roof 3 and bottom plate 4 at the conveyer frame, the lower fixed surface of roof 3 is connected with support column 5, the upper surface of bottom plate 4 and the lower fixed surface of support column 5 are connected, feeding device 2 includes unloading dish 21, unloading mouth 22 has been seted up to the one end of unloading dish 21, the upper surface of unloading mouth 22 is the terrace form, the end of unloading mouth 22 is located directly over feeder hopper 1, utilize unloading mouth 22 to be the shrink form for the outside flow that emptys of lens raw materials in the unloading dish 21 reduces, avoid the lens raw materials to drop by a large amount and lead to feeder hopper 1 to block up, the lower surface middle part fixedly connected with articulated lever 23 of unloading dish 21, the both ends of articulated lever 23 all rotate and are connected with bracing piece 24, the lower surface of bracing piece 24 and the upper surface fixed connection of roof 3.

In order to limit the deflection amplitude of the blanking disc 21, one end of the lower surface of the blanking disc 21 is fixedly connected with a spring 25, the lower surface of the spring 25 is fixedly connected with a push rod 26, the lower surface of the push rod 26 is fixedly connected with the upper surface of the top plate 3, and the blanking disc 21 is in a wane shape after being connected with the blanking disc 21 by utilizing a hinging rod 23, so that the blanking disc 21 can be conveniently dumped to one end, the lower surface of the blanking disc 21 is fixedly connected with a universal ball head 27, the movable end surface of the universal ball head 27 is fixedly connected with a push rod 28, the upper surface of the top plate 3 is fixedly connected with a limiting rod 29, the upper surface of the limiting rod 29 and the upper surface of the top plate 3 are respectively provided with a jack, the two jacks are aligned, the inner wall of each jack is in sliding connection with the surface of the push rod 28, and the diameter of the jack on the surface of the limiting rod 29 is larger than that of the push rod 28 is convenient for the push rod 28 to incline in the limiting rod 29.

In order to be convenient for carry the lens raw materials, the upper surface at bottom plate 4 and the upper surface fixed connection of feeder hopper 1, the transport tank has been seted up to the upper surface of bottom plate 4, feeder hopper 1 is located directly over the transport tank one end, the lower surface fixed connection of bottom plate 4 has driving motor 210, driving motor 210's output shaft surface mounting has drive wheel 211, the surface transmission of drive wheel 211 is connected with conveyer belt 212, the upper end of conveyer belt 212 is located the inboard of transport tank, utilize the one end of conveyer belt 212 to pass through from the lower extreme of feeder hopper 1, thereby be convenient for receive the lens raw materials of feeder hopper 1 lower extreme roll-off, conveyer belt 212 inner wall transmission is connected with supporting wheel 213, the pivot of supporting wheel 213 passes through drive mechanism transmission with driving motor 210's output shaft and is connected.

Through setting up at traditional feeder hopper 1 surface mounting feed device 2, utilize the unloading dish 21 in the feed device 2 to the feeder hopper 1 in incline the lens raw materials to reduce the flow of lens raw materials through feed opening 22, utilize with unloading dish 21 movable mounting, make when conveyer belt 212 operates, the inboard supporting wheel 213 of conveyer belt 212 drives the cam 217 rotatory through driving gear 214, and then carry out the jacking through the arch of cam 217 surface to the push rod 28 of unloading dish 21 below, and then drive unloading dish 21 and together incline and shake, and then avoid feed opening 22 to block up, promote the even ejection of compact of feed opening 22, avoid feeder hopper 1 to block up, thereby make have the characteristics of the automatic feeding of polishing equipment of being convenient for.

In order to lift up the blanking disc 21, a driving gear 214 is fixedly connected to the surface of one supporting wheel 213 through a rotating shaft, an output shaft of a driving motor 210 and the rotating shaft of the supporting wheel 213 are connected through a transmission mechanism, so that auxiliary transmission is conveniently performed on a conveying belt 212, the transmission mechanism consists of an outer surface transmission connecting transmission belt of two transmission wheels, an extrusion box 215 is fixedly connected to the upper surface of a bottom plate 4, a transmission gear 216 is rotatably connected to the inner wall of the extrusion box 215, the surface of the transmission gear 216 is meshed with the surface of the driving gear 214, a cam 217 is fixedly connected to the surface of the transmission gear 216, a slot is formed in the upper surface of the extrusion box 215, the lower end of a push rod 28 stretches into the inner side of the extrusion box 215 through the slot, the lower end of the push rod 28 is lifted up by utilizing the protrusion of the surface of the cam 217, so that one end of the blanking disc 21 is conveniently lifted up through the push rod 28, and the blanking disc 21 is conveniently promoted.

Working principle:

when the device is used, lens raw materials are tilted inwards of the blanking disc 21, the blanking disc 21 is tilted and limited by the spring 25 and the ejector rod 26, the driving motor 210 is started, the driving motor 210 drives the conveying belt 212 to operate through the driving wheel 211, the supporting wheel 213 rotates together through the transmission mechanism and drives the driving gear 214 and the transmission gear 216 to rotate, the transmission gear 216 drives the cam 217 to rotate, meanwhile, the surface protrusion of the cam 217 lifts the lower end of the push rod 28, the upper end of the push rod 28 lifts one end of the blanking disc 21 through the universal ball head 27, the blanking disc 21 is tilted, the spring 25 is stretched, and the lens raw materials in the blanking disc 21 slide down to the surface of the blanking opening 22;

after the protrusion on the surface of the cam 217 slides over the lower end of the push rod 28, the lifted end of the blanking disc 21 is reset and vibrated under the action of the spring 25, and the lens raw material accumulated on the surface of the blanking opening 22 is shaken off and enters the feeding hopper 1, and the lens raw material in the feeding hopper 1 slides down to the surface of the conveying belt 212.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (7)

1. The utility model provides an automatic feeding mechanism of optical lens piece excircle equipment of polishing, includes conveyer frame and the feeder hopper (1) that are used for the unloading, the inner chamber hopper-shaped of feeder hopper (1), its characterized in that: the upper surface mounting of conveyer frame has throw material device (2), the one end of throw material device (2) is close to the upper surface of feeder hopper (1), works as the conveyer frame operation, throw material device (2) and slowly throw in lens raw materials in through vibrations case feeder hopper (1).

2. The automatic feeding mechanism of the optical lens excircle polishing equipment according to claim 1, wherein: the conveyer seat comprises a top plate (3) and a bottom plate (4), wherein the lower surface of the top plate (3) is fixedly connected with a support column (5), the upper surface of the bottom plate (4) is fixedly connected with the lower surface of the support column (5), the feeding device (2) comprises a feeding disc (21), a feeding opening (22) is formed in one end of the feeding disc (21), the upper surface of the feeding opening (22) is in a trapezoid shape, and the tail end of the feeding opening (22) is located right above the feeding hopper (1).

3. The automatic feeding mechanism of the optical lens excircle polishing equipment according to claim 2, wherein: the utility model discloses a lower surface middle part fixedly connected with articulated rod (23) of unloading dish (21), the both ends of articulated rod (23) all rotate and are connected with bracing piece (24), the lower surface of bracing piece (24) is fixedly connected with upper surface of roof (3), the lower surface one end fixedly connected with spring (25) of unloading dish (21), the lower surface fixedly connected with ejector pin (26) of spring (25), the lower surface of ejector pin (26) is fixedly connected with the upper surface of roof (3).

4. The automatic feeding mechanism of the optical lens excircle polishing equipment according to claim 2, wherein: the blanking device is characterized in that a universal ball head (27) is fixedly connected to the lower surface of the blanking disc (21), a push rod (28) is fixedly connected to the movable end surface of the universal ball head (27), a limiting rod (29) is fixedly connected to the upper surface of the top plate (3), inserting holes are formed in the upper surface of the limiting rod (29) and the upper surface of the top plate (3), the two inserting holes are aligned, and the inner wall of each inserting hole is in sliding connection with the surface of the push rod (28).

5. The automatic feeding mechanism of the optical lens excircle polishing equipment according to claim 4, wherein: the upper surface of bottom plate (4) and the upper surface fixed connection of feeder hopper (1), the transport groove has been seted up to the upper surface of bottom plate (4), feeder hopper (1) are located directly over the transport groove one end, the lower fixed surface of bottom plate (4) is connected with driving motor (210), the output shaft surface mounting of driving motor (210) has drive wheel (211), the surface transmission of drive wheel (211) is connected with conveyer belt (212), the upper end of conveyer belt (212) is located the inboard of transport groove.

6. The automatic feeding mechanism of the optical lens excircle polishing equipment according to claim 5, wherein: the inner wall of the conveying belt (212) is in transmission connection with a supporting wheel (213), a rotating shaft of the supporting wheel (213) is in transmission connection with an output shaft of the driving motor (210) through a transmission mechanism, and a driving gear (214) is fixedly connected to the surface of one supporting wheel (213) through the rotating shaft.

7. The automatic feeding mechanism of the optical lens excircle polishing equipment according to claim 6, wherein: the upper surface fixedly connected with extrusion box (215) of bottom plate (4), the inner wall of extrusion box (215) rotates and is connected with drive gear (216), the surface of drive gear (216) and the surface engagement of driving gear (214), the fixed surface of drive gear (216) is connected with cam (217), the slot has been seted up to the upper surface of extrusion box (215), the inboard that extrusion box (215) was stretched into through the slot in the lower extreme of push rod (28).