CN217262795U - Blue glass's of optics beveling machine - Google Patents

Abstract

The utility model relates to a technical field of optical glass processing equipment, it relates to a blue glass's of optics machine of falling limit, which comprises a frame, transmission assembly in the frame, the subassembly of polishing of transmission assembly both sides, be equipped with diverging device on transmission assembly's the discharge end, diverging device includes the support body, transmission group, capacity adjusting subassembly and inductor, the support body includes upper bracket and lower carriage, upper bracket and lower carriage swing joint, the upper bracket is opened and is equipped with the vallecular cavity, transmission group includes motor, drive belt and drive wheel, the vallecular cavity open-ended both sides are arranged in to capacity adjusting subassembly, capacity adjusting subassembly includes the translation cylinder, keep off the material group and arrange in on the terminal surface of upper bracket, the output of translation cylinder is connected and is kept off the material group, the utility model discloses it is rational in infrastructure simple, the practicality is strong, the transportation is stable.

Description

Blue glass's of optics beveling machine

Technical Field

The utility model relates to a technical field of optical glass processing equipment, more specifically say, it relates to a blue glass's of optics machine of falling limit.

Background

The optical blue glass is the basis of the photoelectric technology industry, and the optical glass used as the optoelectronic base material is widely applied to three fields of optical transmission, optical storage and photoelectric display.

The blue glass of optics is after the shaping, need polish the chamfer to its border, it is realized through current beveling machine, the structure of current beveling machine specifically has the frame, transmission assembly in the frame, the subassembly of polishing in transmission assembly both sides, the blue glass of optics is taken in the frame activity by transmission assembly, when its activity, can be polished the chamfer to its terminal surface by the upper and lower polisher in its both sides, can enter into another transmission device and send it to other process equipment such as polishing after the discharge port output of transmission assembly when the blue glass of optics glass.

In the above process, the optical blue glass may generate some defective products after being polished by the polishing machine, and the defective products are cracks in the optical blue glass during polishing, and the cracks cannot be seen through the inspection machine. The defective products are removed in the sampling inspection mode, the optical blue glass is taken manually and then sent to the inspection machine, the efficiency is low, the optical blue glass in the batch is inconvenient to determine, and a device capable of sending the polished optical blue glass to the inspection machine is needed.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a rational in infrastructure simple, the practicality is strong, transports a stable chamfering machine of optical blue glass.

In order to achieve the above purpose, the utility model provides a following technical scheme:

an edge chamfering machine for optical blue glass comprises a frame, a transmission assembly on the frame, polishing assemblies on two sides of the transmission assembly, a flow dividing device arranged on the discharge end of the transmission assembly, wherein the flow dividing device comprises a frame body, a transmission group, a capacity adjusting assembly and an inductor,

the frame body comprises an upper frame and a lower frame which are movably connected, the lower frame is provided with a screw rod and a stepping motor, the lower end of the upper frame is provided with a slide block which is connected with the screw rod in a sliding way,

the middle part of the upper frame is provided with a groove cavity for installing a transmission group, the transmission group comprises a motor, a transmission belt and a transmission wheel, the transmission belt is sleeved on the transmission wheel and is driven by the motor to control the rotation, the transmission belt and the transmission wheel are arranged in the groove cavity to rotate relative to the groove cavity,

the capacity adjusting assembly is arranged at two sides of the opening of the groove cavity and comprises a translation cylinder and a material blocking group, the material blocking group is arranged on the end surface of the upper frame, the output end of the translation cylinder is connected with the material blocking group,

keep off the material group and include bottom plate and bumping post, the bumping post has a plurality of and rotates with the bottom plate to be connected.

The utility model discloses further set up to: the inductor comprises a bracket and an inductive element, the inductive element is arranged above the transmission belt,

the support includes the base of being connected with the upper rack and the extension rod of base swing joint, and induction element arranges the one end of extension rod in, the base middle part has the guide arm, and the cover is equipped with the adapter on the guide arm, and the extension rod runs through the adapter, has the screw rod of its and guide arm elasticity of control on the adapter.

The utility model discloses further set up to: the auxiliary assembly is further arranged on the upper frame and comprises a portal frame, a lifting air cylinder and a pressing wheel assembly, the lifting air cylinder is fixed on the portal frame, the output end of the lifting air cylinder is connected onto the pressing wheel assembly and controls the pressing wheel assembly to lift, and the pressing wheel assembly is arranged above the butt joint of the conveying end of the conveying assembly and the feeding end of the transmission assembly.

The utility model discloses further set up to: the pinch roller assembly comprises a rod body and a plurality of rollers rotatably connected with the rod body, and the rod body is connected with the lifting cylinder.

The utility model discloses further set up to: the bottom plate is connected with a plurality of straight rods, the blocking columns are sleeved on the straight rods and rotate relative to the straight rods, and rubber sleeves are arranged on the outer end faces of the blocking columns.

Contrast prior art not enough, the beneficial effects of the utility model are that:

through installing diverging device in transmission assembly's output rear to come to carry to the detection machine of sampling the optics blue glass after polishing, improved the efficiency of production and processing greatly.

Drawings

Fig. 1 is a schematic top view of the present invention;

fig. 2 is a schematic view of the structure of the flow divider of the present invention;

fig. 3 is a structural sectional view of the bumping post of the present invention.

Detailed Description

Embodiments of the present invention are further described with reference to fig. 1 to 3.

The embodiment has the specific structure that: the grinding device comprises a rack 1, a transmission assembly on the rack 1, grinding assemblies on two sides of the transmission assembly, and a flow dividing device arranged at a discharge end of the transmission assembly.

The transmission component is a transmission belt 2 arranged on the frame 1 and a motor driving the transmission belt 2 to move, and the optical blue glass is transmitted to one direction on the transmission belt 2;

the subassembly of polishing is two sets of polisher 3 that are the upper and lower relation, and polisher 3 is 45 jiaos of inclining and installs in frame 1, goes up polisher 3 and follows the chamfer of polishing to the up end off-plate of the blue glass of optics, and lower polisher 3 follows the chamfer of polishing to the lower extreme off-plate of the blue glass of optics.

In the process that the blue learning glass is conveyed by the conveying belt 2, the blue learning glass passes through the grinding chamfers of the two groups of upper and lower grinding machines 3.

The shunt device comprises a frame body, a transmission set, a capacity adjusting assembly and an inductor.

A frame body: the device comprises an upper frame 41 and a lower frame 42, wherein the upper frame 41 is movably connected with the lower frame 42, the lower frame 42 is provided with a screw rod 44 and a stepping motor 43, and the lower end of the upper frame 41 is provided with a sliding block 45 which is in sliding connection with the screw rod 44.

The middle part of the upper frame 41 is provided with a slot cavity 40 for mounting a transmission set, the transmission set comprises a motor, a transmission belt 11 and a transmission wheel, the transmission belt 11 is sleeved on the transmission wheel and is driven by the motor to control rotation, and the transmission belt 11 and the transmission wheel are arranged in the slot cavity 40 and rotate relative to the slot cavity 40.

The drive train, capacity modulation assembly and sensor are all mounted on the upper frame 41. The upper frame 41 is movable relative to the lower frame 42 for the purpose of bringing the optical blue glass to the inspection machine. When the optical blue glass enters the transmission set, the motor on the lower frame 42 controls the upper frame 41 to move, so that the transmission set of the upper frame 41 is connected with the transmission line of the detection machine.

The capacity adjusting assembly is arranged on two sides of the opening of the groove cavity 40 and comprises a translation cylinder 51 and a material blocking group 52, the material blocking group 52 is arranged on the end face of the upper frame 41, and the output end of the translation cylinder 51 is connected with the material blocking group 52.

The material blocking group 52 comprises a bottom plate 521 and a plurality of blocking columns 5a, and the blocking columns 5a are rotatably connected with the bottom plate 521. The bottom plate 521 is connected with a plurality of straight rods 502, the blocking column 5a is sleeved on the straight rods 502, the blocking column 5a rotates relative to the straight rods 502, and the outer end face of the blocking column 5a is provided with a rubber sleeve. The graphite sleeve 503 can be sleeved on the inner wall of the retaining column, the graphite sleeve 503 has a lubricating effect, and the inner wall of the retaining column 5a is in contact with the graphite sleeve, so that the friction force is reduced.

The purpose of the capacity adjustment assembly is to receive optical blue glass of different specifications, which is controlled by two translation cylinders 51 for the spacing between the two. Then, the quantity of the optical blue glass entering the transmission belt 11 is controlled by matching with the sensor, so that different quantities of optical blue glass can be selected to be transported to a detector for detection, and the sampling effect is improved.

When the blue glass of optics is transported by the conveyer belt, it can contact with bumping post 5a, sets up bumping post 5a into the part that can move about its activity relatively, has ensured the stability of transportation, utilizes rubber sleeve and the contact of the blue glass of optics moreover, through flexible contact, reduces the rigidity and influences its characteristic, improves the precision of detection data.

The inductor comprises a support and an inductive element 6a, the inductive element 6a being placed above the drive belt 11. The sensing element 6a can sense the quantity of the optical blue glass entering the capacity adjusting assembly, then transmit data to a computer, and then realize that the feeding hole at the front end of the transmission assembly is not loaded any more and the quantity of the optical blue glass is loaded. Thereby sending the batch of any optically blue glass to the inspection machine.

The bracket comprises a base 61 connected with the upper frame 41 and an extension rod 63 movably connected with the base 61, the sensing element 6a is arranged at one end of the extension rod 63, a guide rod 62 is arranged in the middle of the base 61, an adapter 64 is sleeved on the guide rod 62, the extension rod 63 penetrates through the adapter 64, and a screw rod for controlling the tightness of the adapter and the guide rod 62 is arranged on the adapter 64. The adapter is U-shaped.

Due to the arrangement of the adapter 64, the position of the sensing element 6a can be adjusted, and sensing under different conditions can be guaranteed.

Still be equipped with the auxiliary assembly on upper bracket 41, the auxiliary material subassembly includes portal frame 71, lift cylinder 72 and pinch roller set 73, and lift cylinder 72 is fixed on portal frame 71, and on pinch roller set 73 spare was connected to lift cylinder 72's output, and control pinch roller set 73 spare goes up and down, and pinch roller set 73 spare is arranged in the top of transmission assembly material conveying end and transmission set feed end butt joint department. The pressing wheel assembly 73 includes a rod body connected to the lifting cylinder 72 and a plurality of rollers 721 rotatably connected to the rod body.

The roller 73 is in contact with the optical blue glass by the roller 721 to improve the stability of the belt passing from the belt 2 of the conveyor assembly to the upper frame 41.

The above is only the preferred embodiment of the present invention, and is not intended to limit the present invention, and the skilled in the art can carry out the common changes and replacements within the technical solution of the present invention.

Claims (5)

1. The utility model provides an optics blue glass's beveling machine, includes the frame, the transmission assembly in the frame, the subassembly of polishing in transmission assembly both sides, characterized by: a shunt device is arranged at the discharge end of the transmission component and comprises a frame body, a transmission group, a capacity adjusting component and an inductor,

the frame body comprises an upper frame and a lower frame which are movably connected, the lower frame is provided with a screw rod and a stepping motor, the lower end of the upper frame is provided with a slide block which is connected with the screw rod in a sliding way,

the middle part of the upper frame is provided with a groove cavity for installing a transmission group, the transmission group comprises a motor, a transmission belt and a transmission wheel, the transmission belt is sleeved on the transmission wheel and is driven by the motor to control the rotation, the transmission belt and the transmission wheel are arranged in the groove cavity to rotate relative to the groove cavity,

the capacity adjusting assembly is arranged at two sides of the opening of the groove cavity and comprises a translation cylinder and a material blocking group, the material blocking group is arranged on the end surface of the upper frame, the output end of the translation cylinder is connected with the material blocking group,

keep off the material group and include bottom plate and bumping post, the bumping post has a plurality of and rotates with the bottom plate to be connected.

2. The machine for chamfering optical blue glass according to claim 1, wherein: the inductor comprises a bracket and an inductive element, the inductive element is arranged above the transmission belt,

the support includes the base of being connected with the upper rack and the extension rod of base swing joint, and induction element arranges the one end of extension rod in, the base middle part has the guide arm, and the cover is equipped with the adapter on the guide arm, and the extension rod runs through the adapter, has the screw rod of its and guide arm elasticity of control on the adapter.

3. The chamfering machine for optical blue glass according to claim 2, wherein: still be equipped with the auxiliary assembly on the upper bracket, the auxiliary assembly includes portal frame, lift cylinder and pinch roller group, and the lift cylinder is fixed on the portal frame, and on the pinch roller subassembly was connected to the output of lift cylinder, and control pinch roller subassembly goes up and down, and the pinch roller subassembly is arranged in the transmission assembly material conveying end and is organized the top of feed end butt joint department with the transmission.

4. The machine for chamfering blue glass according to claim 3, wherein: the pinch roller assembly comprises a rod body and a plurality of rollers rotatably connected with the rod body, and the rod body is connected with the lifting cylinder.

5. The machine for chamfering optical blue glass according to claim 3, wherein: the bottom plate is connected with a plurality of straight rods, the blocking columns are sleeved on the straight rods and rotate relative to the straight rods, and rubber sleeves are arranged on the outer end faces of the blocking columns.

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