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The utility model relates to an optical lens polishing technology, particularly related to optical glass edge grinding equipment with a fully automated structure

by:ChangHui     2020-06-19
Technical background: optical lens is one of the important parts through the refraction of light imaging, commonly used in cameras, microscopes and other optical devices, in the process of optical glass processing, and in order to suit the installation structure, need to the edge of the lens edge grinding processing. Existing technology optical glass edge grinding operation completely by artificial manual operation, manual take put the lens collision chuck adverse, edge grinding operation need edge grinding oil deal damage to workers, homework monotonous, unable to retain staff. Expensive and artificial cost, low efficiency, poor consistency, quality is not stable, the defective rate is high, so how to develop a kind of edge grinding effect is good, high work efficiency, reduce the labor intensity of optical lens edging vertical structure of fully automated equipment, is currently the problems urgently to be solved in this technical field personnel technical implementation elements: in order to overcome the shortage of the existing technology, the utility model is put forward optical glass edge grinding with full automation equipment structure, it can solve the technical background of the traditional optical lenses need manual edge grinding, homework action is monotonous and low efficiency, poor consistency, unstable quality and high failure rate. In order to achieve the above purpose, adopted by the technical scheme of the utility model is: optical glass edge grinding with full automation equipment structure, including shell, protect door, described and fixed in the shell at the bottom of the pedestal, described in the protection door is fixed on the shell described, also includes two motors, two transverse expansion mechanism, vacuum pump, airway, suction cups, silicone pad, longitudinal extension institutions, as well as described in the grinding wheel inside the shell, bottom fixed longitudinal extension agencies described in mentioned in the bottom of the shell, the upper end of longitudinal extension mechanism, the grinding wheel fixed connection with stated, described two motor fixed described shell wall respectively, two horizontal telescopic mechanism are described in described inside the shell, and two fixed end of transverse expansion mechanism is described respectively with two motor output shaft fixed connection, described chuck fixed in two transverse expansion mechanism described a free end, described the silicone pad fixed in two transverse expansion mechanism described the free end of another described vacuum pump shell outer wall fixed in stated, described with the vacuum pump described by airway described chuck connected. As the technical scheme of further improvement, also including the flow of water inside the tube and shell is described in nozzle, and the reinforcing plate, described the water pipe through the sidewalls of the shell is described, the above mentioned in the water pipe is located in the inside of the shell side flow nozzle fixed connection with stated, as described in reinforcing plate fixed in the inner shell is described in the above the bottom of the water pipe, and the reinforcing plate is described and the inside wall of the described shell fixed connection. Described as the technical scheme of further improvement, transverse expansion mechanism is configured to electric telescopic rod, described in the longitudinal extension mechanism configured for hydraulic lever. Described as a further improvement, solution to the configured to silicon carbide grinding wheel grinding wheel. Described as the technical scheme of improvement, the water nozzle configuration to high pressure water nozzle. Described as the technical solution to further improve, protect door set to Windows. Described as the technical scheme of improvement, at the bottom of the shell side walls opened for the outflow of liquid waste liquid flow exports. Compared with the existing technology, the utility model beneficial effect is that the utility model proposed by optical glass edge grinding with full automation equipment structure, reasonable design, strong practicability, adopts the automatic processing and edge grinding machine replace traditional manual processing, high efficiency, good consistency, and processing the lenses are of good quality. Figure 1 illustrated instructions for the utility model implementation example of the optical glass edge grinding with structure of fully automated equipment structure diagram. Figure 2 for the utility model implementation example of the optical glass edge grinding with the appearance of the fully automated equipment structure diagram. Figure: 1 - Shell, 2 - 3 - liquid flow The water pipe, 4 - Reinforcing plate, 5 - Water nozzle, 6 - Airway, 7 - Vacuum pump, 8 - Motor, September Bearing, 10 - Transverse expansion mechanism, 11 - Chuck, 12 - The silicone mat, 13 - Longitudinal extension agencies, 14 - Grinding wheel, 15 Protect door, 16 - To the window. Concrete implementation way of combining the appended drawings of this utility model under the specific implementation ways for further instructions. In this to be sure, for the implementation of instructions used to help understand the way of the utility model, but it doesn't constitute a limit of this utility model. In addition, the following describes the implementation of this practical new type methods involved in the technical characteristics, as long as they are not conflict between each other mutual combination. As shown in figure 1 and figure 2, the optical glass edge grinding with structure of fully automated equipment, including 1, protect door 15, and fixed on the shell shell 1 at the bottom of the pedestal 9, 15 fixed on the shell protection door, more specifically, protection have to Windows 16 15 set on the door, so that it can be very clearly observed machine running situation, include at least two electrical 8, at least two horizontal telescopic mechanism 10, vacuum pump, airway 6, 7, 11 sucker, 12, 13, longitudinal extension institutions and silica gel pad in the grinding wheel 14 inside the shell 1, 13 bottom longitudinal extension mechanism fixed on the bottom of the shell 1, longitudinal extension agencies with the top of the 13 14 fixed connection with the grinding wheel, more specifically, longitudinal extension mechanism for hydraulic rod, 13 14 for silicon carbide grinding wheel, grinding wheel two motor fixed respectively by the external wall of 1, 8 concrete external wall can be a shell around 1 on both sides of the wall, two horizontal telescopic institutions are located inside the shell 1 10, and two horizontal telescopic mechanism 10 fixed end 8, respectively, with two motor output shaft fixed connection, chuck 11 fixed in two transverse expansion mechanism of 10 free end of a silicone pad 12 fixed in two transverse expansion mechanism of another 10 free end, 7 fixed in external wall of the shell 1 vacuum pump, vacuum pump 7 by airway 6 and 11 sucker connected. Further, including water pipe 3, 1 nozzle and flow within the 5 in the shell, and strengthen the board 4, water pipe 3 1 through the shell side, the water pipe in 3 shell 1 internal to the flow nozzle at the end of the 5 fixed connection, reinforcing plate fixed in 4 is located in the bottom of the shell 1 internal flow tube 3 and reinforcing plate is connected to the inside wall of the fixed shell 1, shell 1 side walls opened for the outflow of liquid waste liquid flow export 2, more specifically, water nozzle 5 to high pressure water nozzle, water pipe 3 to timely and edge grinding edge grinding waste oil to clean off. Working principle: open to protect the door, will need to polishing of optical lenses at the end of the left side wall pressure suction cup 11, 7 start the vacuum pump at the same time, make the suction cup 11 absorb optical lenses, launched two transverse expansion at the same time institutions after the switch of 10, two horizontal telescopic mechanism 10 elongation of telescopic end, to make the silicone pad 12 pressed the optical lens right side wall, then start the longitudinal extension agencies 13 switch, make the expansion end of the 13 elongation longitudinal extension mechanism, drives the grinding wheel 14 move up, until the top of the grinding wheel 14 come in contact with the circumference of variable precision of optical lenses, 8 after the start at the same time two motor and water pipe 3 switch, two motors to drive the two 8 horizontal telescopic mechanism rotation 10, two horizontal telescopic mechanism 10 turns optical lenses, optical lenses and grinding wheel friction, make the optical glass edge grinding, and approved by the water pipe 3, the condensate water nozzle jet, 5 of the optical lens cooling cooling, after processing of waste liquid by liquid flow out. Combined with the appended drawings above illustrates in detail the implementation methods of this utility model, but the utility model is not limited to describe the implementation of the way. For the purpose of this technical personnel in the field of, in principle and spirit is not out of the utility model, the implementation approach to a variety of changes, modification, replacement and variant, within the scope of protection is still in the utility model.
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