CN115069632A - Optical lens piece surface cleaning device - Google Patents

Abstract

The present disclosure relates to cleaning devices, and particularly to a cleaning device for cleaning a surface of an optical lens. Provided is an optical lens surface cleaning device which can clean a plurality of optical lenses at the same time and has high cleaning efficiency. An optical lens surface cleaning device comprises a machine shell, a protective shell, a rotating shaft, a cleaning brush and the like; the rear portion of the upper side of the casing is connected with a protective casing, the top of the protective casing is rotatably connected with three rotating shafts, and the bottom ends of the rotating shafts are connected with cleaning brushes. Optical lens puts on the sliding plate, carries on spacingly through the spacing ring, then sprays water to optical lens on through the shower nozzle, conveniently cleans, and the sliding plate drives optical lens rearward movement back, and pivoted cleaning brush can carry out cleaning to optical lens, simultaneously, because this device is provided with three clean parts of group, can clean three optical lens simultaneously, has effectively improved clean efficiency.

Description

Optical lens piece surface cleaning device

Technical Field

The present disclosure relates to cleaning devices, and particularly to a cleaning device for cleaning a surface of an optical lens.

Background

Optical lenses have been widely used in the technical fields of digital cameras, projectors, video cameras, and the like. In the production and processing process or daily use process of the optical lens, the optical lens needs to be cleaned, so that the use is prevented from being influenced by stains.

Patent publication No. is CN 108889644A's patent has announced an optical lens piece cleaning device, and this cleaning device includes the clean case, be equipped with the motor cabinet in the clean case, be fixed with the motor on the motor cabinet, the output shaft of motor passes clean case one side is connected with the flywheel, the flywheel articulates there is the connecting rod, the connecting rod articulates there is first slider, the clean case both sides are equipped with the first spout and the second spout of symmetry, first slider passes first spout and is connected with clean frame one side, clean frame opposite side symmetric connection has the second slider, the cooperation of second slider is in the second spout. The invention has simple structure, reasonable design, low cost and good cleaning effect, is suitable for cleaning optical lenses and solves the problem of cleaning the optical lenses. However, the cleaning device can only clean one optical lens piece at a time, resulting in low cleaning efficiency.

Therefore, an optical lens surface cleaning device capable of cleaning a plurality of optical lenses simultaneously and having high cleaning efficiency is provided.

Disclosure of Invention

In order to overcome the defect that the existing cleaning device only can clean one optical lens piece at a time and has low cleaning efficiency, the technical problem to be solved is as follows: provided is an optical lens surface cleaning device which can clean a plurality of optical lenses at the same time and has high cleaning efficiency.

The utility model provides an optical lens piece surface cleaning device, which comprises a housing, the protecting crust, the apparatus further comprises a rotating shaft, the cleaning brush, drive assembly, placement machine constructs and water spray mechanism, casing upside rear portion is connected with the protecting crust, the top rotary type is connected with three pivot in the protecting crust, the pivot bottom all is connected with the cleaning brush, be equipped with drive assembly between protecting crust and the pivot, drive assembly is used for rotating for the pivot and provides power, casing upper portion is equipped with the placement machine who is used for placing optical lens piece, the protecting crust front side is equipped with the water spray mechanism that is used for carrying out the water spray to optical lens piece, the cleaning brush rotates and cleans optical lens piece.

Furthermore, the driving assembly comprises a mounting plate, a driving motor, belt pulleys and flat belts, the mounting plate is connected to the left portion of the upper side of the protective shell, the driving motor is connected to the mounting plate, an output shaft of the driving motor is connected with the leftmost rotating shaft, the belt pulleys are connected to the lower portions of the rotating shafts, the flat belts are sleeved among the three belt pulleys, the left rotating shaft rotates to be matched with the flat belts through the belt pulleys, and then the other two rotating shafts are driven to rotate.

Further, the placing mechanism comprises a sliding plate, a limiting ring and a pushing frame, the sliding plate used for placing the optical lens is connected to the upper portion of the machine shell in a sliding mode, the sliding plate moves backwards to drive the optical lens to move backwards to be cleaned, the three limiting rings used for limiting the optical lens are connected to the sliding plate at intervals, the bottom of the sliding plate is connected with the pushing frame, and the pushing frame extends out of the machine shell.

Further, the water spraying mechanism comprises an installation block, a round pipe, a spray head, a connecting pipe and a connector, the front side of the protective shell is evenly connected with the three installation blocks at intervals, the round pipe is connected to the installation block, the lower end of the round pipe is connected with the spray head used for spraying water for the optical lens, the connecting pipe is connected between the upper portions of the three round pipes, and the right portion of the connecting pipe is connected with the connector.

Further, still including being used for carrying out the water storage mechanism that supplies water for spraying water mechanism, water storage mechanism is including the mount pad, a water storage section of thick bamboo, L type pipe, the gasbag, first piston, first elastic component, the outlet duct, protective housing upside right part is connected with the mount pad, the mount pad in-connection has a water storage section of thick bamboo that is used for splendid attire water, be connected with L type pipe between water storage section of thick bamboo front side and the connector, water storage section of thick bamboo upside rear portion is connected with the gasbag, a sliding type is connected with first piston in the water storage section of thick bamboo, first piston removes forward and pushes into L type pipe with the water in the water storage section of thick bamboo, be connected with first elastic component between the rear side in first piston and the water storage section of thick bamboo, water storage section of thick bamboo rear side is connected with the outlet duct that has the valve.

Further, still including the pushing down mechanism who is used for automatic extrusion gasbag, pushing down mechanism is including the arc, the montant, the holding down plate, second elastic component and link, a water storage section of thick bamboo upside right side back is connected with the arc, the arc is located the gasbag right side, a water storage section of thick bamboo upside right side back is connected with the montant, the montant is located the arc right side, the sliding type is connected with the holding down plate on the montant, the holding down plate lapse can extrude the gasbag and aerify for a water storage section of thick bamboo, be connected with the second elastic component between holding down plate and the montant, holding down plate upper portion is connected with the link, the link lower part stretches into in the casing, the sliding plate lapse and link contact backward, and then extrusion link lapse.

Further, the cleaning device comprises an absorbing mechanism for absorbing dirt and sewage generated by cleaning, the absorbing mechanism comprises a rotating plate, a strip-shaped guide rail, a sliding block, a pushing block, a cylinder body, a hollow pipe, a trapezoidal cover, a discharging pipe, a second piston, a third elastic part, a round rod, a transverse plate and a connecting rod, the upper part of a rotating shaft on the leftmost side is connected with the rotating plate, the left part of the upper side of a protective shell is connected with the strip-shaped guide rail, the sliding block is connected in a sliding manner in the strip-shaped guide rail, the left side of the sliding block is connected with the pushing block, the rotating plate rotates to be in contact with the pushing block and further extrudes the pushing block to move backwards, the rear side of the protective shell is evenly connected with three cylinder bodies at intervals, the lower part of the front side of the cylinder body is connected with the hollow pipe with a one-way valve, the front ends of the sliding hollow pipes are all inserted into the protective shell, the trapezoidal cover is connected between the front ends of the three hollow pipes, the bottom of the cylinder body is connected with the discharging pipe with the one-way valve, and the second piston is connected in the cylinder body, the sewage that the second piston upwards slides and produces when will clean through the hollow tube inhales in the cylinder body, and the second piston slides downwards extrudes the discharging pipe with the sewage in the cylinder body, all is connected with the third elastic component between second piston and the adjacent cylinder body, and the second piston upside all is connected with the round bar, and the round bar upper end all passes adjacent cylinder body, is connected with the diaphragm between the three round bar upper end, and the rotary type is connected with the connecting rod between diaphragm left part and the slider.

Further, still including being used for the ejecting jack-up mechanism of the optical lens piece that will clean the completion, jack-up mechanism is including the push pedal, the guide arm, the mounting bracket, fourth elastic component and circular slab, front side upper portion is connected with the push pedal in the casing, sliding plate bottom bilateral symmetry is connected with the guide arm, slidingtype is connected with the mounting bracket between controlling two guide arms, push pedal rear portion and mounting bracket middle part contact, be connected with the fourth elastic component between mounting bracket and the guide arm, the fourth elastic component is in tensile state, the even interval in mounting bracket upper portion is connected with three circular slab, the circular slab is located spacing intra-annular, the circular slab rebound can be ejecting with spacing intra-annular optical lens piece.

The invention has the following advantages: 1. optical lens puts on the sliding plate, carries on spacingly through the spacing ring, then sprays water to optical lens on through the shower nozzle, conveniently cleans, and the sliding plate drives optical lens rearward movement back, and the pivoted cleaning brush can carry out cleaning to optical lens, simultaneously, because this device is provided with three clean parts of group, can clean three optical lens simultaneously, has effectively improved clean efficiency.

2. The air bag is pressed to enable the first piston to slide forwards, so that water in the water storage cylinder is squeezed into the L-shaped pipe, and water is supplied for spraying of the spray head.

3. The sliding plate slides backwards and is matched with the connecting frame, so that the lower pressing plate slides downwards to extrude the air bag, and thus, water can be automatically sprayed to the optical lens when the sliding plate drives the optical lens to move backwards to clean.

4. The second piston slides up and down and can continuously absorb sewage generated during cleaning, and the sewage is discharged out of the protective shell.

5. After cleaning, the mounting bracket moves forward and cooperates with the push pedal, and then makes the circular plate upward movement ejecting the optical lens in the limiting ring, and the staff can take conveniently.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a partial perspective view of the present invention.

Fig. 3 is a partial sectional structural schematic view of the present invention.

Fig. 4 is a schematic perspective view of a first placement mechanism of the present invention.

Fig. 5 is a schematic perspective view of a second placement mechanism of the present invention.

Fig. 6 is a schematic perspective view of the water spraying mechanism of the present invention.

Fig. 7 is a schematic perspective view of a water storage mechanism according to the present invention.

Fig. 8 is a schematic sectional view of a water storage mechanism according to the present invention.

Fig. 9 is a schematic perspective view of a first pressing mechanism according to the present invention.

Fig. 10 is a schematic perspective view of a second pressing mechanism according to the present invention.

Fig. 11 is a schematic perspective view of the suction mechanism of the present invention.

Fig. 12 is a partial sectional structural schematic view of the suction mechanism of the present invention.

Fig. 13 is a schematic perspective view of the jacking mechanism of the present invention.

Fig. 14 is a partial perspective view of the jacking mechanism of the present invention.

Labeled as: 1-a machine shell, 2-a protective shell, 3-a rotating shaft, 4-a cleaning brush, 5-a mounting plate, 6-a driving motor, 7-a belt pulley, 71-a flat belt, 8-a placement mechanism, 81-a sliding plate, 82-a spacing ring, 83-a pushing frame, 9-a water spraying mechanism, 91-a mounting block, 92-a round pipe, 93-a spray head, 94-a connecting pipe, 95-a connecting head, 10-a water storage mechanism, 101-a mounting seat, 102-a water storage cylinder, 103-an L-shaped pipe, 104-an air bag, 105-a first piston, 106-a first elastic piece, 107-an air outlet pipe, 11-a pressing mechanism, 111-an arc-shaped plate, 112-a vertical rod, 113-a pressing plate, 114-a second elastic piece, 115-a connecting frame, 12-a suction mechanism, 121-a rotating plate, 122-a strip-shaped guide rail, 123-a sliding block, 124-a pushing block, 125-a cylinder body, 126-a hollow tube, 127-a trapezoidal cover, 128-a discharge tube, 129-a second piston, 1291-a third elastic part, 1292-a round rod, 1293-a transverse plate, 1294-a connecting rod, 13-a jacking mechanism, 131-a push plate, 132-a guide rod, 133-a mounting frame, 134-a fourth elastic part and 135-a round plate.

Detailed Description

Although the present invention may be described with respect to particular applications or industries, those skilled in the art will recognize the broader applicability of the invention. Those of ordinary skill in the art will recognize techniques such as: terms such as above, below, upward, downward, and the like are used to describe the accompanying drawings and are not meant to limit the scope of the invention, which is defined by the appended claims. Such as: any numerical designation of first or second, and the like, is merely exemplary and is not intended to limit the scope of the invention in any way.

Example 1

The utility model provides an optical lens surface cleaning device, as shown in fig. 1-6, including casing 1, protecting crust 2, pivot 3, cleaning brush 4, drive assembly, place mechanism 8 and water spray mechanism 9, protecting crust 2 is installed through the bolt at casing 1 upside rear portion, the even interval rotary type in top is connected with three pivot 3 in the protecting crust 2, 3 bottom in the pivot all are connected with cleaning brush 4, cleaning brush 4 is used for cleaning optical lens, be equipped with drive assembly between protecting crust 2 and the pivot 3, drive assembly can rotate for pivot 3 and provide power, casing 1 upper portion is equipped with place mechanism 8, place mechanism 8 can place optical lens, 2 front sides in the protecting crust are equipped with water spray mechanism 9, water spray mechanism 9 can spray water to optical lens.

As shown in fig. 1-3, the driving assembly comprises a mounting plate 5, a driving motor 6, a belt pulley 7 and a flat belt 71, the mounting plate 5 is mounted on the left portion of the upper side of the protective shell 2 through a bolt, the driving motor 6 is bolted to the mounting plate 5, the driving motor 6 is used for automatically providing power for the cleaning brush 4, an output shaft of the driving motor 6 is connected with the leftmost rotating shaft 3, the belt pulley 7 is connected to the lower portion of each rotating shaft 3, and the flat belt 71 is sleeved among the three belt pulleys 7.

As shown in fig. 1, 4 and 5, the placing mechanism 8 includes a sliding plate 81, a limiting ring 82 and a pushing frame 83, the sliding plate 81 is slidably connected to the upper portion of the housing 1, the sliding plate 81 can place the optical lens, three limiting rings 82 are evenly connected to the sliding plate 81 at intervals, the limiting rings 82 can limit the optical lens, the pushing frame 83 is connected to the bottom of the sliding plate 81, and the pushing frame 83 extends out of the housing 1.

As shown in fig. 1 and 6, the water spraying mechanism 9 includes a mounting block 91, a circular tube 92, a nozzle 93, a connecting tube 94 and a connector 95, the front side of the protective shell 2 is uniformly welded with three mounting blocks 91 at intervals, the mounting blocks 91 are all connected with the circular tube 92, the lower end of the circular tube 92 is connected with the nozzle 93, the nozzle 93 can spray water for the optical lens, the connecting tube 94 is connected between the upper parts of the three circular tubes 92, and the right part of the connecting tube 94 is connected with the connector 95.

When the device is used, a worker connects an external pipeline to the connector 95, then places three optical lenses on the sliding plate 81, so that the optical lenses are positioned in the limiting ring 82, the optical lenses are limited by the limiting ring 82, after the optical lenses are placed, the worker opens the water source of the external pipeline, then the water of the external pipeline flows into the connecting pipe 94 through the connector 95, then enters the round pipe 92, and finally is sprayed onto the optical lenses through the spray head 93, so as to clean the optical lenses, after the water spraying is completed, the worker closes the water source of the external pipeline, at this time, the worker controls the pushing frame 83 to move backwards, the pushing frame 83 moves backwards to drive the sliding plate 81 to slide backwards, the sliding plate 81 slides backwards to drive the optical lenses to move backwards into the protective shell 2, after the optical lenses move backwards to the lower part of the cleaning brush 4, the staff starts driving motor 6, driving motor 6's output shaft rotates and drives leftmost pivot 3 and rotate, and then drive other two pivot 3 rotations through belt pulley 7 and flat belt 71 cooperation, pivot 3 rotates and drives cleaning brush 4 and rotate and clean optical lens, the optical lens is clean to be accomplished, the staff closes driving motor 6, then pulling propelling movement frame 83 moves forward, propelling movement frame 83 moves forward and drives sliding plate 81 and slide forward, and then drive optical lens and move forward, at this moment, the staff alright take out the optical lens who cleans the completion, and simultaneously, because this device is provided with three clean parts of group, can clean three optical lens simultaneously, cleaning efficiency has effectively been improved.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 7 and 8, the water spray device further includes a water storage mechanism 10, the water storage mechanism 10 can supply water for the water spray mechanism 9, the water storage mechanism 10 includes a mounting seat 101, a water storage cylinder 102, an L-shaped pipe 103, an air bag 104, a first piston 105, a first elastic member 106 and an air outlet pipe 107, the mounting seat 101 is mounted on the right portion of the upper side of the protective shell 2 through bolts, the water storage cylinder 102 is bolted in the mounting seat 101, the water storage cylinder 102 can contain water, the L-shaped pipe 103 is connected between the front side of the water storage cylinder 102 and the connector 95, the air bag 104 is connected to the rear portion of the upper side of the water storage cylinder 102, the first piston 105 is connected to the water storage cylinder 102 in a sliding manner, the first elastic member 106 is connected between the first piston 105 and the rear side of the water storage cylinder 102, the first elastic member 106 is an extension spring, and the air outlet pipe 107 with a valve is connected to the rear side of the water storage cylinder 102.

When the device is used, a worker fills water into the water storage cylinder 102, when the optical lens needs to be sprayed, the worker extrudes the air bag 104 to inflate the rear part of the water storage cylinder 102, the first piston 105 can be extruded to slide forwards along with the increase of the air in the water storage cylinder 102, the first elastic piece 106 deforms, the first piston 105 slides forwards to extrude the water in the water storage cylinder 102 into the L-shaped pipe 103, the water in the L-shaped pipe 103 enters the connecting pipe 94 through the connecting head 95 to spray the nozzle 93 for supplying water, when the water in the water storage cylinder 102 is empty, the worker opens the valve of the air outlet pipe 107, the air in the water storage cylinder 102 is discharged through the air outlet pipe 107, at the moment, under the reset action of the first elastic piece 106, the first piston 105 slides backwards to reset along with the connecting pipe, and when the air in the water storage cylinder 102 is discharged, the worker closes the valve of the air outlet pipe 107, and then water is again poured into the water storage cylinder 102 so as to perform one water spraying.

As shown in fig. 1, 9 and 10, the air bag pressing device further comprises a pressing mechanism 11, the pressing mechanism 11 can automatically press the air bag 104, the pressing mechanism 11 comprises an arc-shaped plate 111, a vertical rod 112, a pressing plate 113, a second elastic member 114 and a connecting frame 115, the arc-shaped plate 111 is welded on the right rear portion of the upper side of the water storage cylinder 102, the arc-shaped plate 111 is located on the right side of the air bag 104, the vertical rod 112 is welded on the right rear portion of the upper side of the water storage cylinder 102, the vertical rod 112 is located on the right side of the arc-shaped plate 111, the pressing plate 112 is slidably connected with the pressing plate 113, the pressing plate 113 slides downwards to contact with the air bag 104, the second elastic member 114 is connected between the pressing plate 113 and the vertical rod 112, the second elastic member 114 is a compression spring, the connecting frame 115 is welded on the upper portion of the pressing plate 113, the front end of the lower portion of the connecting frame 115 is obliquely arranged, the lower portion of the connecting frame 115 extends into the housing 1, and the sliding plate 81 slides backwards to contact with the connecting frame 115.

When the device is used, when the sliding plate 81 slides backwards to be in contact with the connecting frame 115, the sliding plate 81 continuously slides backwards to extrude the connecting frame 115 to move downwards, the connecting frame 115 moves downwards to drive the lower pressing plate 113 to slide downwards, the second elastic piece 114 deforms, the lower pressing plate 113 slides downwards to be matched with the arc-shaped plate 111 to extrude the air bag 104, so that the spray head 93 sprays water, after the optical lens is cleaned, the sliding plate 81 slides forwards to not extrude the connecting frame 115, the lower pressing plate 113 slides upwards to not extrude the air bag 104, the connecting frame 115 also moves upwards to reset under the reset action of the second elastic piece 114, and thus, the optical lens can be automatically sprayed with water when the sliding plate 81 drives the optical lens to move backwards to clean.

As shown in fig. 1, 11 and 12, the cleaning device further comprises an absorbing mechanism 12, the absorbing mechanism 12 can absorb dirt and sewage generated by cleaning, the absorbing mechanism 12 comprises a rotating plate 121, a bar-shaped guide rail 122, a sliding block 123, a pushing block 124, a cylinder body 125, a hollow tube 126, a trapezoidal cover 127, a discharge pipe 128, a second piston 129, a third elastic member 1291, a round rod 1292, a transverse plate 1293 and a connecting rod 1294, the upper portion of the leftmost rotating shaft 3 is connected with the rotating plate 121, the bar-shaped guide rail 122 is installed on the left portion of the upper side of the protective shell 2 through a bolt, the sliding block 123 is connected in the bar-shaped guide rail 122 in a sliding manner, the pushing block 124 is welded on the left side of the sliding block 123, the rotating plate 121 rotates to contact with the pushing block 124, the three cylinder bodies 125 are uniformly connected on the rear side of the protective shell 2 at intervals, the lower portion of the front side of the cylinder body 125 is connected with the hollow tube 126 with a one-way valve, the front ends of the hollow tubes 126 penetrate into the protective shell 2, the trapezoidal cover 127 is connected between the front ends of the three hollow tubes 126, the bottom of each cylinder 125 is connected with a discharge pipe 128 with a one-way valve, the cylinder 125 is internally connected with a second piston 129 in a sliding manner, a third elastic member 1291 is connected between each second piston 129 and the adjacent cylinder 125, each third elastic member 1291 is a compression spring, the upper side of each second piston 129 is connected with a round rod 1292, the upper ends of the round rods 1292 penetrate through the adjacent cylinder 125, a transverse plate 1293 is welded between the upper ends of the three round rods 1292, and a connecting rod 1294 is rotatably connected between the left part of the transverse plate 1293 and the sliding block 123.

When the device is used, the rotating shaft 3 at the leftmost side rotates to drive the rotating plate 121 to rotate, when the rotating plate 121 rotates to be in contact with the pushing block 124, the rotating plate 121 continues to rotate and extrude the pushing block 124 to move backwards, the pushing block 124 moves backwards to drive the sliding block 123 to slide backwards, the sliding block 123 slides backwards to pull the transverse plate 1293 to move upwards through the connecting rod 1294, the transverse plate 1293 moves upwards to drive the round rod 1292 to slide upwards, the round rod 1292 slides upwards to drive the second piston 129 to slide upwards, the third elastic member 1291 deforms, when the rotating plate 121 rotates to be separated from the pushing block 124, under the reset action of the third elastic member 1291, the second piston 129 slides downwards to reset, the second piston 129 slides downwards to drive the transverse plate 1293 to move downwards through the round rod 1292, the transverse plate 1293 moves downwards to push the sliding block 123 to slide forwards through the connecting rod 1294, the sliding block 123 slides forwards to drive the pushing block 124 to move forwards to reset, when the rotating plate 121 rotates to contact with the pushing block 124 again, the above actions are repeated to enable the second piston 129 to continuously slide up and down, the second piston 129 sucks sewage generated by cleaning into the cylinder 125 through the hollow pipe 126 and the trapezoidal cover 127 when sliding upwards, and the second piston 129 discharges the sewage in the cylinder 125 through the discharge pipe 128 when sliding downwards.

As shown in fig. 1, 13 and 14, the cleaning device further comprises a jacking mechanism 13, the jacking mechanism 13 can eject out the cleaned optical lens, the jacking mechanism 13 comprises a push plate 131, guide rods 132, a mounting bracket 133, a fourth elastic member 134 and a circular plate 135, the push plate 131 is welded on the upper portion of the front side in the housing 1, the rear portion of the push plate 131 is arranged in an inclined manner, the guide rods 132 are welded on the bottom of the sliding plate 81 in a bilateral symmetry manner, the mounting bracket 133 is connected between the left guide rod 132 and the right guide rod 132 in a sliding manner, the rear portion of the push plate 131 is in contact with the middle portion of the mounting bracket 133, the fourth elastic member 134 is connected between the mounting bracket 133 and the guide rods 132, the fourth elastic member 134 is an extension spring, the fourth elastic member 134 is in a stretching state, three circular plates 135 are welded on the upper portion of the mounting bracket 133 at uniform intervals, and the circular plates 135 are located in the limiting ring 82.

When the device is used, an optical lens needing to be cleaned is placed on the circular plate 135 by a worker, when the sliding plate 81 slides backwards, the sliding plate 81 drives the mounting frame 133 to move backwards through the guide rod 132, the mounting frame 133 does not need to be extruded by the push plate 131 any more after moving backwards, at this time, under the reset effect of the fourth elastic piece 134, the mounting frame 133 drives the circular plate 135 to move downwards so that the optical lens enters the limit ring 82, after the optical lens is cleaned, the sliding plate 81 slides forwards and drives the mounting frame 133 to move forwards through the guide rod 132, when the mounting frame 133 moves forwards to be in contact with the push plate 131, the mounting frame 133 continues to move forwards and can be extruded by the push plate 131 to slide upwards, the fourth elastic piece 134 deforms, the mounting frame 133 slides upwards to drive the circular plate 135 to move upwards to eject the optical lens in the limit ring 82, and the worker can take the optical lens conveniently.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (8)

1. The utility model provides an optical lens piece surface cleaning device, including casing (1), protecting crust (2), pivot (3), cleaning brush (4) and drive assembly, casing (1) upside rear portion is connected with protecting crust (2), top rotary type is connected with three pivot (3) in protecting crust (2), pivot (3) bottom all is connected with cleaning brush (4), be equipped with drive assembly between protecting crust (2) and pivot (3), drive assembly is used for rotating for pivot (3) and provides power, a serial communication port, still including placing mechanism (8) and water spray mechanism (9), casing (1) upper portion is equipped with placing mechanism (8) that are used for placing optical lens piece, protecting crust (2) front side is equipped with water spray mechanism (9) that are used for carrying out the water spray to optical lens piece, cleaning brush (4) rotate and clean optical lens piece.

2. The optical lens surface cleaning device according to claim 1, wherein the driving assembly comprises a mounting plate (5), a driving motor (6), belt pulleys (7) and a flat belt (71), the mounting plate (5) is connected to the left portion of the upper side of the protective shell (2), the driving motor (6) is connected to the mounting plate (5), an output shaft of the driving motor (6) is connected to the leftmost rotating shaft (3), the belt pulleys (7) are connected to the lower portion of the rotating shaft (3), the flat belt (71) is sleeved among the three belt pulleys (7), and the rotating shaft (3) on the left side is rotated to be matched with the flat belt (71) through the belt pulleys (7) so as to drive the other two rotating shafts (3) to rotate.

3. The optical lens surface cleaning device according to claim 1, wherein the placing mechanism (8) comprises a sliding plate (81), a limiting ring (82) and a pushing frame (83), the sliding plate (81) for placing the optical lens is slidably connected to the upper portion of the housing (1), the sliding plate (81) moves backwards to drive the optical lens to move backwards for cleaning, three limiting rings (82) for limiting the optical lens are evenly connected to the sliding plate (81) at intervals, the pushing frame (83) is connected to the bottom of the sliding plate (81), and the pushing frame (83) extends out of the housing (1).

4. The optical lens surface cleaning device according to claim 1, wherein the water spraying mechanism (9) comprises a mounting block (91), a round tube (92), a nozzle (93), a connecting tube (94) and a connector (95), the front side of the protective shell (2) is uniformly connected with three mounting blocks (91) at intervals, the round tube (92) is connected to the mounting blocks (91), the nozzle (93) for spraying water to the optical lens is connected to the lower end of the round tube (92), the connecting tube (94) is connected between the upper parts of the three round tubes (92), and the connector (95) is connected to the right part of the connecting tube (94).

5. The optical lens surface cleaning device according to claim 4, further comprising a water storage mechanism (10) for supplying water to the water spraying mechanism (9), wherein the water storage mechanism (10) comprises a mounting seat (101), a water storage cylinder (102), an L-shaped pipe (103), an air bag (104), a first piston (105), a first elastic member (106) and an air outlet pipe (107), the mounting seat (101) is connected to the right part of the upper side of the protective shell (2), the water storage cylinder (102) for containing water is connected in the mounting seat (101), the L-shaped pipe (103) is connected between the front side of the water storage cylinder (102) and the connector (95), the air bag (104) is connected to the rear part of the upper side of the water storage cylinder (102), the first piston (105) is connected in a sliding manner in the water storage cylinder (102), the first piston (105) moves forward to push the water in the water storage cylinder (102) into the L-shaped pipe (103), a first elastic part (106) is connected between the first piston (105) and the inner rear side of the water storage cylinder (102), and an air outlet pipe (107) with a valve is connected with the rear side of the water storage cylinder (102).

6. The optical lens surface cleaning device according to claim 5, further comprising a pressing mechanism (11) for automatically pressing the air bag (104), wherein the pressing mechanism (11) comprises an arc-shaped plate (111), a vertical rod (112), a pressing plate (113), a second elastic member (114) and a connecting frame (115), the arc-shaped plate (111) is connected to the right rear portion of the upper side of the water storage cylinder (102), the arc-shaped plate (111) is located on the right side of the air bag (104), the vertical rod (112) is connected to the right rear portion of the upper side of the water storage cylinder (102), the vertical rod (112) is located on the right side of the arc-shaped plate (111), the lower pressing plate (113) is slidably connected to the vertical rod (112), the pressing plate (113) slides downward to press the air bag (104) to inflate the water storage cylinder (102), the second elastic member (114) is connected between the pressing plate (113) and the vertical rod (112), the connecting frame (115) is connected to the upper portion of the pressing plate (113), the lower part of the connecting frame (115) extends into the machine shell (1), the sliding plate (81) slides backwards to be in contact with the connecting frame (115), and then the connecting frame (115) is pressed to move downwards.

7. The optical lens surface cleaning device according to claim 1, further comprising an absorbing mechanism (12) for absorbing stains and sewage generated by cleaning, wherein the absorbing mechanism (12) comprises a rotating plate (121), a strip-shaped guide rail (122), a sliding block (123), a pushing block (124), a cylinder body (125), a hollow tube (126), a trapezoidal cover (127), a discharge tube (128), a second piston (129), a third elastic member (1291), a round rod (1292), a transverse plate (1293) and a connecting rod (1294), the upper part of the rotating shaft (3) at the leftmost side is connected with the rotating plate (121), the left part of the upper side of the protective shell (2) is connected with the strip-shaped guide rail (122), the sliding block (123) is connected in the strip-shaped guide rail (122) in a sliding manner, the pushing block (124) is connected to the left side of the sliding block (123), the rotating plate (121) rotates to contact with the pushing block (124), and further presses the pushing block (124) to move backwards, the rear side of the protective shell (2) is uniformly connected with three cylinder bodies (125) at intervals, the lower parts of the front sides of the cylinder bodies (125) are connected with hollow pipes (126) with one-way valves, the front ends of the hollow pipes (126) penetrate into the protective shell (2), trapezoidal covers (127) are connected between the front ends of the three hollow pipes (126), the bottoms of the cylinder bodies (125) are connected with discharge pipes (128) with one-way valves, the cylinder bodies (125) are internally and slidably connected with second pistons (129), the second pistons (129) slide upwards to suck sewage generated during cleaning into the cylinder bodies (125) through the hollow pipes (126), the second pistons (129) slide downwards to extrude the sewage in the cylinder bodies (125) into the discharge pipes (128), third elastic pieces (1291) are connected between the second pistons (129) and the adjacent cylinder bodies (125), round rods (1292) are connected on the upper sides of the second pistons (129), and the upper ends of the round rods (1292) penetrate through the adjacent cylinder bodies (125), a transverse plate (1293) is connected between the upper ends of the three round rods (1292), and a connecting rod (1294) is rotatably connected between the left part of the transverse plate (1293) and the sliding block (123).

8. The optical lens surface cleaning device according to claim 3, further comprising a jacking mechanism (13) for ejecting out the cleaned optical lens, wherein the jacking mechanism (13) comprises a push plate (131), guide rods (132), a mounting frame (133), a fourth elastic member (134) and a circular plate (135), the push plate (131) is connected to the upper portion of the front side in the housing (1), the guide rods (132) are symmetrically connected to the bottom of the sliding plate (81) in the left-right direction, the mounting frame (133) is slidably connected between the left guide rod and the right guide rod (132), the rear portion of the push plate (131) is in contact with the middle portion of the mounting frame (133), the fourth elastic member (134) is connected between the mounting frame (133) and the guide rods (132), the fourth elastic member (134) is in a stretched state, the three circular plates (135) are uniformly connected to the upper portion of the mounting frame (133) at intervals, and the circular plate (135) is located in the limiting ring (82), the circular plate (135) moves upwards to eject the optical lens in the limiting ring (82).

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