CN211217794U - Novel cleaning equipment for optical lens - Google Patents

Abstract

The utility model discloses a novel cleaning device for optical lenses, which comprises a cleaning device body, a fixing unit, an air drying unit, an upper water feeding unit, a lower water feeding unit and an ultrasonic generating unit; cleaning the equipment body: the cleaning equipment body comprises an air drying chamber, a motor chamber, a cleaning tank and an outer box body, wherein the top end of the outer box body is hinged with a tank cover, the cleaning tank is positioned in the middle of the outer box body and is connected with the outer box body through four partition plates, a liquid level sensor is arranged on the left side surface of the cleaning tank, two air drying chambers are arranged and are respectively positioned on the front side and the rear side of the cleaning tank, an air drying unit is arranged in the air drying chamber, the motor chamber is positioned on the right side of the cleaning tank, and a fixing unit is arranged in; a water feeding and discharging unit: the water feeding and discharging unit is arranged at the bottom end of the outer box body; the utility model provides a novel cleaning equipment for optical lens piece can all-round thorough washing optical lens piece, and has the air-dry function.

Description

Novel cleaning equipment for optical lens

Technical Field

The utility model relates to a lens cleaning equipment technical field specifically is a novel cleaning equipment for optical lens piece.

Background

The optical lens is made of optical glass, the scratch resistance of the lens is good, it is difficult to scratch, the refractive index is high, suitable for the eye slice, the optical lens mainly uses the ultrasonic cleaner while washing, its principle is to convert the electric energy into high-frequency mechanical oscillation through the ultrasonic transducer and spread to the medium cleaning solvent, the ultrasonic wave radiates forward with the same density in the cleaning liquid, make the liquid flow and produce several tens of thousands of tiny bubbles, these bubbles form, grow in the negative pressure area that the ultrasonic wave propagates longitudinally, and close rapidly in the positive pressure area, in this kind of process called "cavitation" effect, the bubble closes and can form the instantaneous high pressure over 1000 atmospheres, impact the surface of the things continuously, make the dirt in the surface of things and chink peel off rapidly, thus achieve the goal of surface cleaning of things, the ultrasonic cleaner in the prior art has only cleaned the lens, the cleaning machine does not have an air drying function, only one surface of the lens can be cleaned due to the limitation of fixed installation, and the cleaning machine has the problem of incomplete cleaning.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide a novel cleaning equipment for optical lens piece, can all-round thorough washing optical lens piece, have the air-dry function, can effectively solve the problem in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: a novel cleaning device for optical lenses comprises a cleaning device body, a fixing unit, an air drying unit, an upper water supply unit, a lower water supply unit and an ultrasonic generating unit;

cleaning the equipment body: the cleaning equipment body comprises an air drying chamber, a motor chamber, a cleaning tank and an outer box body, wherein the top end of the outer box body is hinged with a tank cover, the cleaning tank is positioned in the middle of the outer box body and is connected with the outer box body through four partition plates, a liquid level sensor is arranged on the left side surface of the cleaning tank, two air drying chambers are arranged and are respectively positioned on the front side and the rear side of the cleaning tank, an air drying unit is arranged in the air drying chamber, the motor chamber is positioned on the right side of the cleaning tank, and a fixing unit is arranged in;

a water feeding and discharging unit: the water feeding and discharging unit is arranged at the bottom end of the outer box body;

an ultrasonic wave generation unit: the ultrasonic generating unit is arranged at the bottom of the cleaning tank;

the cleaning tank is characterized by further comprising an air outlet, a lens frame and a single chip microcomputer, wherein the air outlet is formed in the front side face and the rear side face of the cleaning tank, the water level in the cleaning tank is lower than the air outlet, the lens frame is installed on the fixed unit, the single chip microcomputer is installed on the front side face of the outer tank body, and the input end of the single chip microcomputer is electrically connected with an external power supply and the output end of the liquid level sensor.

Further, fixed unit includes servo motor and mount pad, servo motor installs on the right side inner wall of outer box, the mount pad is installed on servo motor's output shaft, and rotates with the right side inner wall of washing tank and be connected, the left side inner wall of washing tank rotates and is connected with a second mount pad, is equipped with screw rod and nut on the mount pad, servo motor's input is connected with the output electricity of singlechip, through the fixed lens frame of mount pad to under servo motor's drive, realize rotation function, can the all-round no dead angle wash the lens.

Further, the lens frame comprises a rectangular frame and a lens barrel, the lens barrel passes through the straight rod mounting seat and is arranged in the rectangular frame, mounting plates are arranged at two ends of the rectangular frame, pin shaft holes corresponding to the screw rods are formed in the mounting plates, the lens frame is mounted on the mounting seats, the lens barrel is adopted to fix the lens, two sides of the lens can be cleaned, the pin shaft holes are mounted on the screw rods, nuts are fastened, and the installation mode is simple and convenient to operate.

Further, air-dry the unit and include fan, gas-supply pipe and nozzle, the bottom at the air-dry room is installed to the fan, the air outlet and the gas-supply pipe intercommunication of fan, the tip and the nozzle intercommunication of gas-supply pipe, the outer wall at the washing tank is installed to the nozzle, and corresponds with the position of venthole, the air intake has been seted up to the leading flank and the trailing flank of outer box, air intake department is equipped with the filter disc, and the air intake communicates with the income tuber pipe of fan, the input of fan is connected with the output electricity of singlechip, utilizes the fan to produce the air current, air-dries the optical lens, helps accelerating lens cleaning efficiency.

Further, the ultrasonic wave generating unit includes vibration steel sheet and ultrasonic transducer, the vibration steel sheet passes through the bolt and installs the bottom at the washing tank, ultrasonic transducer is equipped with three groups, and parallel mount is on the vibration steel sheet, and ultrasonic transducer's input is connected with the output electricity of singlechip, and ultrasonic transducer drives the vibration steel sheet and produces the vibration, sends the bubble, constantly strikes the article surface, makes the dirt in the surface of article and the gap peel off rapidly to reach the purification purpose.

Further, go up the water supply unit and include water pump, inlet tube, outlet pipe and raceway, the water pump is installed in the bottom of outer box, the water inlet and the inlet tube intercommunication of water pump, the delivery port and the raceway intercommunication of water pump, the bottom of outlet pipe mount pad washing tank is equipped with the valve on the outlet pipe, the input of water pump is connected with the output electricity of singlechip, can realize intaking and the play water of equipment, guarantees the normal function of equipment.

The washing tank is characterized by further comprising an overflow chamber, the overflow chamber is located on the left side of the washing tank, two overflow pipes are arranged on the inner wall of the washing tank and communicated with the overflow chamber, the bottom end of the overflow chamber is communicated with a water outlet pipe through a water pipe, and the overflow chamber is used for guiding water to the overflow chamber when the water level overflows, so that the water level is prevented from reaching the position of the air outlet hole.

Further, level sensor's height is higher than the lens frame, the height of warning pipe is not less than level sensor, the height of venthole is higher than the warning pipe, and height limitation satisfies that the lens just can all submerge in the aquatic, and the water level does not get into in the venthole simultaneously, helps the normal operation of equipment, prevents to intake in the nozzle.

Compared with the prior art, the beneficial effects of the utility model are that: this novel cleaning equipment for optical lens piece has following benefit:

1. the servo motor and the mounting seat are arranged, the fixing mode is simple, the lens frame can be cleaned without dead corners after being mounted, and the cleaning effect is good;

2. the air drying unit is arranged, has an air drying function, drives air to flow by using the fan, dries the lens in air, and is matched with the servo motor for use, so that two sides of the lens on the lens frame can be dried quickly in air;

3. be provided with the excessive chamber, can effectually prevent that the phenomenon of water level too high from taking place, the protection air-dries the equipment and does not receive the influence of water.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic top view of the present invention;

fig. 3 is a schematic view of the bottom view of the present invention.

In the figure: 1 single chip microcomputer, 2 water pipes, 3 cleaning equipment bodies, 31 air drying chambers, 32 motor chambers, 33 cleaning tanks, 34 outer boxes, 4 fixing units, 41 servo motors, 42 mounting seats, 5 air drying units, 51 fans, 52 air conveying pipes, 53 nozzles, 6 water feeding and discharging units, 61 water pumps, 62 water inlet pipes, 63 water outlet pipes, 7 ultrasonic generating units, 71 vibrating steel plates, 72 ultrasonic transducers, 8 air outlet holes, 9 lens frames, 10 liquid level sensors, 11 water overflowing chambers, 12 water overflowing pipes and 13 air inlets.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: a novel cleaning device for optical lenses comprises a cleaning device body 3, a fixing unit 4, an air drying unit 5, an upper water feeding unit 6, a lower water feeding unit 6 and an ultrasonic generating unit 7;

cleaning the apparatus body 3: the cleaning equipment body 3 comprises an air drying chamber 31, a motor chamber 32, a cleaning tank 33 and an outer box 34, wherein the top end of the outer box 34 is hinged with a tank cover, the equipment can be sealed when cleaning, the cleaning tank 33 is positioned in the middle of the outer box 34 and is connected with the outer box 34 through four clapboards, the bottoms of the four clapboards are respectively provided with a bottom plate to form a sealed cavity, a liquid level sensor 10 is arranged on the left side surface of the cleaning tank 33, the liquid level sensor 10 can transmit liquid level information to the single chip microcomputer 1, the water level height is detected, two air drying chambers 31 are arranged and are respectively positioned on the front side and the rear side of the cleaning tank 33, an air drying unit 5 is arranged in the air drying chamber 31, the air drying unit 5 comprises a fan 51, an air conveying pipe 52 and a nozzle 53, the fan 51 is arranged at the bottom end of the air drying chamber 31, an air outlet of the fan 51, and is corresponding to the position of the air outlet hole 8, the bottom end of the nozzle 53 should be obliquely arranged, prevent internal water inflow, if necessary, a protective cover can be added at the position of the air outlet hole 8, the front side surface and the rear side surface of the outer box 34 are provided with air inlets 13, the air inlets 13 are provided with filter sheets, prevent external dust particles from entering, the air inlets 13 are communicated with an air inlet pipe of the fan 51, when in work, the fan 51 sucks air from the air inlets 13, the air is sent to the nozzle 53 by the air pipe 52 after entering the fan 51 and is blown out along the air outlet hole 8, the motor chamber 32 is positioned at the right side of the cleaning tank 33, the motor chamber 32 is internally provided with the fixing unit 4, the fixing unit 4 is used for fixing the position of the lens frame 9, the fixing unit 4 comprises the servo motor 41 and the mounting seat 42, the servo motor 41 is arranged on the inner wall at the right side of the outer box 34, the mounting seat 42, the servo motor 41 can drive the mounting seat 42 to rotate after being started, the inner wall of the left side of the cleaning tank 33 is connected with a second mounting seat 42 in a rotating mode, a screw rod and a nut are arranged on the mounting seat 42, when the cleaning tank works, the lens frame 9 is mounted on the screw rod and fixed through the nut, then the output shaft of the servo motor 41 rotates to drive the mounting seat 42 to rotate, the lens frame 9 is further driven to rotate, lenses are cleaned in an all-dimensional mode, the lens frame 9 consists of a rectangular frame and lens cylinders, the lens cylinders are mounted in the rectangular frame through straight rods, the lenses are mounted inside the lens cylinders, mounting plates are arranged at two ends of the rectangular frame, pin shaft holes corresponding to the screw rods are formed in the mounting plates, the screw rods penetrate the pin shaft holes, the nuts are tightened, and the;

water feeding and discharging unit 6: go up and down water unit 6 and install the bottom at outer box 34, go up and down water unit 6 and include water pump 61, inlet tube 62, outlet pipe 63 and raceway 2, water pump 61 installs the bottom at outer box 34, the water inlet and the inlet tube 62 of water pump 61 communicate, the delivery port and the raceway 2 of water pump 61 communicate, the bottom of outlet pipe 63 mount pad washing tank 33, be equipped with the valve on the outlet pipe 63, be used for controlling the drainage, can select the solenoid valve, realize the automatic function of draining, in operation, water pump 61 inhales water from the outside, and flow into inside washing tank 33 through raceway 2, and cooperate with level sensor 10, make water level control at certain height;

ultrasonic wave generation unit 7: the ultrasonic wave generating unit 7 is arranged at the bottom of the cleaning tank 33, the ultrasonic wave generating unit 7 comprises a vibration steel plate 71 and ultrasonic transducers 72, the vibration steel plate 71 is arranged at the bottom end of the cleaning tank 33 through bolts, the vibration steel plate 71 can improve the vibration quantity, three groups of the ultrasonic transducers 72 are arranged and are arranged on the vibration steel plate 71 in parallel, the ultrasonic transducers 72 drive the vibration steel plate 71 to vibrate when in work, so that liquid flows to generate tens of thousands of tiny bubbles, the bubbles form and grow in a negative pressure area in which ultrasonic waves are longitudinally transmitted, and are rapidly closed in a positive pressure area to continuously impact the surface of a lens, so that dirt on the surface of an object and in gaps is rapidly peeled off, and the purpose of purifying the surface of the;

wherein, the washing tank also comprises an air outlet hole 8, a lens frame 9 and a singlechip 1, the air outlet hole 8 is arranged on the front side surface and the back side surface of the washing tank 33 and used for guiding and blowing wind to the lens area, the water level in the washing tank 33 is lower than the air outlet hole 8, the lens frame 9 is arranged on the fixed unit 4, the singlechip 1 is arranged on the front side surface of the outer box body 34, the input end of the singlechip 1 is electrically connected with the output end of an external power supply and a liquid level sensor 10, the output end of the singlechip 1 is electrically connected with the servo motor 41, the fan 51, the ultrasonic transducer 72 and the input end of the water pump 61, the washing tank also comprises an overflow chamber 11, the overflow chamber 11 is arranged on the left side of the washing tank 33, the inner wall of the washing tank 33 is provided with two overflow pipes 12, the overflow pipes 12 are communicated with the overflow chamber 11, the bottom end of the overflow chamber 11 is communicated, the water level in the cleaning tank 33 is kept unchanged, the height of the liquid level sensor 10 is higher than that of the lens frame 9, the height of the overflow pipe 12 is not lower than that of the liquid level sensor 10, the height of the air outlet hole 8 is higher than that of the overflow pipe 12, and the air outlet hole 8 is protected from being filled with water easily.

When in use: putting the lens into a lens barrel, installing the lens frame 9 on the installation seat 42, starting the water pump 61, sucking water from an external water source by the water pump 61, flowing into the water pump 61 through the water inlet pipe 62, flowing into the cleaning tank 33 from the water pipe 2, reaching the water level to the liquid level sensor 10, receiving a signal of the liquid level sensor 10 by the singlechip 1, turning off the water pump 61, starting the ultrasonic transducer 72, driving the vibration steel plate 71 to vibrate by the ultrasonic transducer 72, so that the liquid flows to generate tens of thousands of tiny bubbles, the bubbles form and grow in a negative pressure area where ultrasonic waves are longitudinally propagated, and rapidly close in a positive pressure area, continuously impact the surface of the lens, rapidly peel off dirt on the surface of an object and in a gap, simultaneously starting the servo motor 41, rotating an output shaft of the servo motor 41, driving the installation seat 42 to rotate, further driving the lens frame 9 to rotate, and performing omnibearing cleaning on the lens, after the cleaning is finished, the valve is opened to drain water, then the fan 51 is started, the fan 51 sucks gas from the air inlet 13, the gas flow enters the fan 51 and is sent to the nozzle 53 by the gas pipe 52, and is blown out along the air outlet 8, the lens frame 9 keeps a vertical state under the action of the servo motor 41, and the two surfaces of the lens are air-dried.

It should be noted that the specific model of the single chip microcomputer 1 disclosed in this embodiment is siemens S7-200, the servo motor 41 is preferably an 80ST-MO2430 model motor manufactured by jinweida motor ltd, the ultrasonic transducer 72 is preferably an ultrasonic transducer of 4AH3540 model number 3540C deep and long by guangdong svett intelligent science and technology ltd, the water pump 61 is preferably a WCB-50P model water pump of kurui brand, the fan 51 is preferably a 2EB1410-7AA11 model, and the single chip microcomputer 1 controls the servo motor 41, the fan 51, the ultrasonic transducer 72 and the water pump 61 to work by a method commonly used in the prior art.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. A novel cleaning equipment for optical lens piece which characterized in that: comprises a cleaning equipment body (3), a fixing unit (4), an air drying unit (5), an upper and lower water unit (6) and an ultrasonic generating unit (7);

cleaning apparatus body (3): the cleaning equipment body (3) comprises an air drying chamber (31), a motor chamber (32), a cleaning groove (33) and an outer box body (34), wherein a box cover is hinged to the top end of the outer box body (34), the cleaning groove (33) is located in the middle of the outer box body (34) and is connected with the outer box body (34) through four partition plates, a liquid level sensor (10) is installed on the left side face of the cleaning groove (33), the two air drying chambers (31) are respectively located on the front side and the rear side of the cleaning groove (33), an air drying unit (5) is arranged in the air drying chamber (31), the motor chamber (32) is located on the right side of the cleaning groove (33), and a fixing unit (4) is installed in the motor chamber (32);

water supply and drainage unit (6): the water feeding and discharging unit (6) is arranged at the bottom end of the outer box body (34);

ultrasonic wave generation unit (7): the ultrasonic generating unit (7) is arranged at the bottom of the cleaning tank (33);

wherein, still include venthole (8), lens frame (9) and singlechip (1), leading flank and the trailing flank of washing tank (33) are seted up in venthole (8), the water level in washing tank (33) is less than venthole (8), lens frame (9) are installed on fixed unit (4), the leading flank at outer box (34) is installed in singlechip (1), and the input and the external power source of singlechip (1) and level sensor (10) output electricity are connected.

2. The novel cleaning apparatus for optical lenses according to claim 1, characterized in that: fixed unit (4) include servo motor (41) and mount pad (42), servo motor (41) are installed on the right side inner wall of outer box (34), install on the output shaft of servo motor (41) mount pad (42), and rotate with the right side inner wall of washing tank (33) and be connected, the left side inner wall of washing tank (33) rotates and is connected with second mount pad (42), is equipped with screw rod and nut on mount pad (42), the input of servo motor (41) is connected with the output electricity of singlechip (1).

3. The cleaning apparatus for a novel optical lens according to claim 2, characterized in that: the lens frame (9) is composed of a rectangular frame and a lens barrel, the lens barrel passes through the straight rod mounting seat and is arranged in the rectangular frame, mounting plates are arranged at two ends of the rectangular frame, pin shaft holes corresponding to the screw rods are arranged on the mounting plates, and the lens frame (9) is mounted on the mounting seat (42).

4. The novel cleaning apparatus for optical lenses according to claim 1, characterized in that: air-dry unit (5) and include fan (51), gas-supply pipe (52) and nozzle (53), the bottom in air-dry room (31) is installed in fan (51), the air outlet and gas-supply pipe (52) intercommunication of fan (51), the tip and the nozzle (53) intercommunication of gas-supply pipe (52), the outer wall in washing tank (33) is installed in nozzle (53), and corresponds with the position of venthole (8), air intake (13) have been seted up to the leading flank and the trailing flank of outer box (34), air intake (13) department is equipped with the filter disc, and air intake (13) communicate with the income tuber pipe of fan (51), the input of fan (51) is connected with the output electricity of singlechip (1).

5. The novel cleaning apparatus for optical lenses according to claim 1, characterized in that: ultrasonic wave generating unit (7) include vibrating steel plate (71) and ultrasonic transducer (72), vibrating steel plate (71) pass through the bolt and install the bottom in washing tank (33), ultrasonic transducer (72) are equipped with three groups, and parallel mount is on vibrating steel plate (71), and the input of ultrasonic transducer (72) is connected with the output electricity of singlechip (1).

6. The novel cleaning apparatus for optical lenses according to claim 1, characterized in that: go up water unit (6) and include water pump (61), inlet tube (62), outlet pipe (63) and raceway (2), the bottom at outer box (34) is installed in water pump (61), and the water inlet and inlet tube (62) intercommunication of water pump (61), the delivery port and raceway (2) intercommunication of water pump (61), the bottom of outlet pipe (63) mount pad washing tank (33), be equipped with the valve on outlet pipe (63), the input of water pump (61) is connected with the output electricity of singlechip (1).

7. The novel cleaning apparatus for optical lenses according to claim 6, characterized in that: the washing device is characterized by further comprising an overflow chamber (11), wherein the overflow chamber (11) is located on the left side of the washing tank (33), two overflow pipes (12) are arranged on the inner wall of the washing tank (33), the overflow pipes (12) are communicated with the overflow chamber (11), and the bottom end of the overflow chamber (11) is communicated with the water outlet pipe (63) through a water pipe.

8. The cleaning apparatus for a novel optical lens according to claim 7, characterized in that: the height of the liquid level sensor (10) is higher than that of the lens frame (9), the height of the overflow pipe (12) is not lower than that of the liquid level sensor (10), and the height of the air outlet hole (8) is higher than that of the overflow pipe (12).

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