CN117046799B

CN117046799B - Automatic conveying equipment suitable for optical lens production

Info

Publication number: CN117046799B
Application number: CN202311310768.4A
Authority: CN
Inventors: 陈骏; 陈国清
Original assignee: Jiangsu Youchuang Infrared Technology Co ltd
Current assignee: Jiangsu Youchuang Infrared Technology Co ltd
Priority date: 2023-10-11
Filing date: 2023-10-11
Publication date: 2023-12-19
Anticipated expiration: 2043-10-11
Also published as: CN117046799A

Abstract

The invention belongs to the technical field of optical lens production, and particularly relates to automatic conveying equipment suitable for optical lens production; comprising the following steps: the device comprises a bracket, wherein a square frame is fixedly arranged on the bracket, a feed inlet is formed in the top of one end of the square frame, and a discharge outlet is formed in the top of the other end of the square frame; further comprises: cleaning the transportation unit; according to the invention, the cleaning and transporting units are arranged at the two ends and inside of the square frame, and can be used for transporting the optical lenses by taking water flow as power and cleaning the optical lenses in the transportation process; on one hand, the transportation is realized, the optical lens is directly transported to the next working procedure, and on the other hand, the cleaning is simultaneously completed in the transportation process, so that the independent cleaning working procedure is avoided, the production time is saved, and the production efficiency is increased; and water is used as power, and one water is used for both cleaning and providing power.

Description

Automatic conveying equipment suitable for optical lens production

Technical Field

The invention belongs to the technical field of optical lens production, and particularly relates to automatic conveying equipment suitable for optical lens production.

Background

The optical lens is a lens made of a transparent material for adjusting a light propagation path so as to realize focusing and optical imaging of light; optical lenses are commonly used in optical instruments such as eyeglasses, cameras, telescopes, etc. to correct vision problems, improve visual experience, or perform optical magnification;

in the process of producing the optical lens, the optical lens needs to be cleaned, and when the optical lens is cleaned by using the traditional method, a cleaning step is required to be independently set, namely, a cleaning process exists, the production time of the whole optical lens is definitely occupied, and the efficiency of producing the optical lens is affected by the cleaning process.

In view of the above, the present invention solves the above-mentioned problems by providing an automated conveying apparatus suitable for optical lens production.

Disclosure of Invention

In order to make up for the deficiency of the prior art, the cleaning process is completed at the same time when the optical lens is transported, so as to reduce the production time; the invention provides automatic conveying equipment suitable for optical lens production.

The technical scheme adopted for solving the technical problems is as follows: an automated conveyance device suitable for optical lens production, comprising: the device comprises a bracket, wherein a square frame is fixedly arranged on the bracket, a feed inlet is formed in the top of one end of the square frame, and a discharge outlet is formed in the top of the other end of the square frame; the automated conveying equipment suitable for optical lens production further comprises: the cleaning and transporting unit is arranged at the two ends and inside of the square frame, can transport the optical lenses by taking water flow as power and can clean the optical lenses in the transporting process; on one hand, the transportation is realized, the optical lens is directly transported to the next working procedure, and on the other hand, the cleaning is simultaneously completed in the transportation process, so that the independent cleaning working procedure is avoided, the production time is saved, and the production efficiency is increased; and water is used as power, and one water is used for both cleaning and providing power;

in this application, optical lens is put into from the feed inlet through artifical or manipulator, takes out from the discharge gate.

Preferably, the cleaning and transporting unit includes: the first frame is fixedly arranged at two ends of the square frame; the bottom of each first frame is fixedly provided with a water storage barrel, and each water storage barrel is communicated with the inside of the first frame; the bottom of one side of each water storage cylinder, which is close to each other, is fixedly connected with a communicating pipe; the rotary belt is rotatably connected with the inside of each first frame, a rotary belt is sleeved between the two rotary shafts, and a plurality of driving plates are fixedly connected to the rotary belt; the water storage barrel is fixedly provided with a water pump, and a water outlet of the water pump is communicated with the end part of the impact frame at the corresponding side; the top of the impact frame is provided with a plurality of impact holes.

Preferably, the impact holes below the rotating belt are arranged obliquely.

Preferably, the impact hole located at one side close to the water pump and not located below the rotating belt is vertically arranged.

Preferably, each driving plate is provided with a plurality of square holes, and each square hole is arranged close to the rotating belt; a baffle is connected inside each driving plate in a sliding manner and corresponds to the position of each square hole, two sides of each square hole are provided with slide ways, one end, close to the rotating belt, of each baffle is fixedly connected with a first plate, and two ends of the first plate are positioned in the slide ways; a first space is formed in the driving plate and located on two sides of each baffle, annular blocks are distributed in each first space up and down, a gravity block is arranged between the two annular blocks, the top and the bottom of each gravity block are fixedly connected with traction ropes, and each traction rope is fixedly connected with the upper side and the lower side of the end part of the corresponding first plate through a pulley block;

the first frame is communicated with the inside of the square frame and the water storage cylinder; the optical lenses can be arranged on the rotating belt in one row or a plurality of rows, and the optical lenses are arranged between two adjacent driving plates; the water pump pumps water into the impact frame, and then the impact driving plate is sprayed out of the impact hole to enable the rotating belt to rotate, so that transportation is realized; the impact holes are uniformly distributed at the top of the impact frame, so that a plurality of driving plates can be impacted, and the force is increased to ensure that the rotating belt can be driven; the impact hole below the rotating belt is obliquely arranged towards the driving plate, and the rotating belt can be rotated to drive the optical lens to move from the feeding hole to the discharging hole; the water level in the whole device is higher than the upper surface of the rotating belt, so that the lens can be submerged in water in the transportation process, the cleaning process is realized, the impact hole which is positioned at one side close to the water pump and is not positioned below the rotating belt is vertically arranged, so that water sprayed out of the impact hole can be vertically upwards, namely, water is supplemented at one side of the material outlet, water above the rotating belt flows from the material outlet to the material inlet, the transportation direction of the optical lens is opposite, the scouring effect on the lens is increased, and the cleaning effect is further increased; the square hole is adjacent to the rotating belt, the baffle plate can cover the square hole, the annular block plays a limiting role, and through the arrangement of the gravity block and the traction rope, when the rotating belt rotates, when the driving plate moves to the upper part of the rotating belt, the driving plate below the rotating belt is enabled to be driven due to the falling of the gravity block, the baffle plate is pulled up, the square hole above the driving plate above the rotating belt is opened, the gravity block in the driving plate below the rotating belt is also fallen down, the traction rope is pulled, the baffle plate is enabled to close the square hole, namely the square hole above the rotating belt is opened, the square hole below the rotating belt is closed, so that the driving plate side area below the rotating belt is larger than the driving plate side area above the rotating belt, the driving plate below the rotating belt is enabled to be more impacted by water flow, the rotating belt is further enabled to be driven, the square hole and the rotating belt are enabled to be closely attached to the driving plate above the rotating belt, chips, impurities and the like are also enabled to more easily cross the driving plate comprehensively, and the cleaning effect is achieved; the connecting pipe realizes the circulation of water flow;

the optical lens is placed between two driving plates placed on the rotating belt from the feeding hole, the water pump is started, water flows into the impact frame and is punched out of the impact hole, the driving plates are impacted, the rotating belt is driven, the optical lens is transported, and in the transporting process, the optical lens is immersed in water, so that the cleaning is also realized; and then the transported optical lens is taken out from the discharge hole.

Preferably, a filter cartridge is fixedly installed inside the water storage cylinder provided with the water pump, the end part of the connecting pipe is covered by the filter cartridge, and a filter screen of the filter cartridge is installed at the top of the filter cartridge.

Preferably, an annular electromagnet is fixedly arranged at one end, close to the connecting pipe, of the inside of the filter cylinder, a scraping block is connected in a sliding manner in the filter cylinder, the scraping block is annular, and a permanent magnet is fixedly arranged at one side, close to the annular electromagnet, of the scraping block; the top of one side of scraping the movable block away from the annular electromagnet rotates and is connected with a one-way opening plate, and the one-way opening plate can only be opened towards the direction away from the annular electromagnet due to the limit of the scraping the movable block.

Preferably, an opening and closing door is arranged at one side of the bottom of the water storage cylinder, which corresponds to the end part of the filter cylinder and is far away from the annular electromagnet, a limiting block is arranged at one end, close to the opening and closing door, of the inside of the filter cylinder, and a filter screen is not arranged at one end, close to the opening and closing door, of the filter cylinder; a first hole is formed in the bottom of the filter cylinder and close to the limiting block; the bottom of the unidirectional opening plate is provided with a second hole, the part, which is positioned at the bottom and inside the scraping block, of the scraping block is provided with a horizontal groove, one end, which is close to the annular electromagnet, of the horizontal groove is connected with a first magnetic block in a sliding manner, the end part of the first magnetic block is fixedly connected with a first supporting block, one side of the first magnetic block is fixedly connected with the inside of the horizontal groove, the upper side and the lower side of the end part, which is far away from the first magnetic block, of the horizontal groove are provided with vertical grooves, each vertical groove is internally connected with a cross block in a sliding manner, and a second spring is fixedly connected between each cross block and the corresponding vertical groove;

the filter screen is only arranged above the filter cartridge, and the other parts are all of a sealing structure; the water flows into the water storage cylinder with the water pump through the connecting pipe, the water flows through the filter cylinder in the process, the annular electromagnet can change the magnetic pole, the scraping block can be close to or far away from the annular electromagnet by being matched with the permanent magnet, and the unidirectional opening and closing plate can only be opened towards the direction far away from the annular electromagnet due to the limit of the scraping block, namely the unidirectional opening and closing plate does not influence the water flow to enter the filter cylinder; the openable door can be opened or closed, and can be understood as a plug; the cross block can be inserted into the first hole, and the cross block can be inserted into the second hole; the first magnetic block can be influenced by the annular electromagnet to enter the horizontal groove or not, when the first magnetic block enters the horizontal groove, the first supporting block can be driven to contact the two cross blocks, namely when the two cross blocks correspond to the first hole and the second hole respectively, the two cross blocks are extruded into the first hole and the second hole, and at the moment, the first spring and the second spring shrink; the first magnetic block and the permanent magnet have the same magnetic pole arrangement, namely, when the annular electromagnet repels the scraping block, the first magnetic block is also repelled;

when the water pump operates, the water pump can be turned off after a period of time, the unidirectional opening and closing plate falls down, the magnetic pole of the annular electromagnet can be controlled, the annular electromagnet repels the scraping block, the scraping block is far away from the annular electromagnet, the scraping impurity is close to the opening and closing door, when the scraping block contacts the limiting block, the cross block corresponds to the first hole, the cross block enters the first hole and the second hole under the extrusion of the first abutting block, the scraping block and the unidirectional opening and closing plate are fixed, at the moment, the scraping block is positioned at the closed part of the water pump, the impurity is positioned between the scraping block and the opening and closing door, so that water cannot flow out when the opening and closing door is opened, and then the impurity is cleaned; so that impurities in the filter cartridge can be cleaned under the condition that water does not flow out; after cleaning, the opening and closing door is closed, the annular electromagnetic ferromagnetism is changed, the first abutting block is used for releasing the extrusion of the cross block, the cross block is pulled out from the first hole and the second hole, the locking is released, the scraping block is immediately attracted and approaches to and contacts with the annular electromagnet, and then the device continues to work.

The beneficial effects of the invention are as follows:

1. according to the automatic conveying equipment suitable for optical lens production, the cleaning and conveying units are arranged at the two ends and in the square frame, and can be used for conveying the optical lenses by taking water flow as power and cleaning the optical lenses in the conveying process; on one hand, the transportation is realized, the optical lens is directly transported to the next working procedure, and on the other hand, the cleaning is simultaneously completed in the transportation process, so that the independent cleaning working procedure is avoided, the production time is saved, and the production efficiency is increased; and water is used as power, and one water is used for both cleaning and providing power.

2. According to the automatic conveying equipment suitable for optical lens production, the optical lens is placed between the two driving plates placed on the rotating belt from the feeding hole, the water pump is started, water flows enter the impact frame and are punched out of the impact hole to impact the driving plates, the rotating belt is driven, so that the optical lens is transported, and in the transportation process, the optical lens is immersed in water, and the cleaning is also realized; and then the transported optical lens is taken out from the discharge hole.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a perspective view of the rotating belt and drive plate of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is a front cross-sectional view of the rotating belt and drive plate of the present invention;

FIG. 5 is a partial enlarged view at B of FIG. 4;

FIG. 6 is a cross-sectional view of the present invention;

FIG. 7 is a partial enlarged view at C of FIG. 6;

fig. 8 is a partial enlarged view at D of fig. 6;

FIG. 9 is an enlarged partial view at E of FIG. 8;

fig. 10 is a partial enlarged view at F of fig. 9;

in the figure: 1. a bracket; 2. a square frame; 21. a feed inlet; 22. a discharge port; 3. cleaning the transportation unit; 31. a first frame; 32. a water storage cylinder; 33. a communicating pipe; 34. rotating the belt; 35. a rotating shaft; 36. a driving plate; 37. an impact frame; 38. an impingement hole; 4. a water pump; 5. square holes; 51. a baffle; 52. a slideway; 53. a first plate; 6. space number one; 61. an annular block; 62. a gravity block; 63. a traction rope; 7. a filter cartridge; 71. an annular electromagnet; 72. scraping the block; 73. a permanent magnet; 74. a one-way opening plate; 8. an opening/closing door; 81. a limiting block; 82. a first hole; 83. a second hole; 9. a horizontal slot; 91. a first magnetic block; 92. a first abutting block; 93. a first spring; 94. a vertical slot; 95. a cross block; 96. and a second spring.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1 and 6, an automated conveying apparatus for optical lens production according to the present invention includes: the device comprises a bracket 1, wherein a square frame 2 is fixedly arranged on the bracket 1, a feed inlet 21 is formed in the top of one end of the square frame 2, and a discharge outlet 22 is formed in the top of the other end of the square frame 2; automatic conveying equipment suitable for optical lens production still includes: the cleaning and transporting unit 3, two ends and the inside of the square frame 2 are provided with the cleaning and transporting unit 3, and the cleaning and transporting unit 3 can transport the optical lenses by taking water flow as power and can clean the optical lenses in the transportation process;

during working, in the process of producing the optical lens, the optical lens is required to be cleaned, and when the optical lens is cleaned by using the traditional method, a cleaning step is required to be independently set, namely, a cleaning process exists, the production time of the whole optical lens is definitely occupied, and the efficiency of producing the optical lens is influenced by the cleaning process; the two ends and the inside of the square frame 2 are provided with the cleaning and transporting units 3, and the cleaning and transporting units 3 can transport the optical lenses by taking water flow as power and can clean the optical lenses in the transportation process; on one hand, the transportation is realized, the optical lens is directly transported to the next working procedure, and on the other hand, the cleaning is simultaneously completed in the transportation process, so that the independent cleaning working procedure is avoided, the production time is saved, and the production efficiency is increased; and water is used as power, and one water is used for both cleaning and providing power;

in the present application, the optical lens is put in from the feed port 21 and taken out from the discharge port 22 by a manual or mechanical hand.

As a specific embodiment of the present invention, as shown in fig. 1, 2 and 6; the cleaning transport unit 3 includes: the first frame 31 is fixedly arranged at two ends of the square frame 2; the bottom of each first frame 31 is fixedly provided with a water storage cylinder 32, and each water storage cylinder 32 is communicated with the inside of the first frame 31; the bottom of one side of each water storage cylinder 32, which is close to each other, is fixedly connected with a communicating pipe 33; a rotating belt 34, a rotating shaft 35 is rotatably connected in each first frame 31, a rotating belt 34 is sleeved between the two rotating shafts 35, and a plurality of driving plates 36 are fixedly connected on the rotating belt 34; the impact frame 37, the first frame 31 and the bottom of the square frame 2 are fixedly provided with the impact frame 37, the water storage cylinder 32 near one side of the discharge hole 22 is internally fixedly provided with the water pump 4, and the water outlet of the water pump 4 is communicated with the end part of the impact frame 37 at the corresponding side; a plurality of impact holes 38 are formed in the top of the impact frame 37;

as shown in fig. 6 and 7; the impingement holes 38 below the rotating belt 34 are disposed obliquely;

as shown in fig. 6 and 7; the impact hole 38, which is located at a side close to the water pump 4 and is not located below the rotary belt 34, is vertically provided;

as shown in fig. 2, 3, 4, 5; each driving plate 36 is provided with a plurality of square holes 5, and each square hole 5 is arranged close to the rotating belt 34; the inside of each driving plate 36 is slidably connected with a baffle plate 51 corresponding to the position of each square hole 5, two sides of each square hole 5 are provided with slide ways 52, one end, close to the rotating belt 34, of each baffle plate 51 is fixedly connected with a first plate 53, and two ends of the first plate 53 are positioned in the slide ways 52; a first space 6 is formed in the driving plate 36 and positioned on two sides of each baffle plate 51, annular blocks 61 are distributed in each first space 6 up and down, a gravity block 62 is arranged between the two annular blocks 61, the top and the bottom of each gravity block 62 are fixedly connected with traction ropes 63, and each traction rope 63 is fixedly connected with the upper side and the lower side of the end part of the corresponding first plate 53 through a pulley block;

when in operation, the first frame 31 is communicated with the inside of the square frame 2 and the water storage cylinder 32; the optical lenses can be placed on the rotating belt 34 in one or more rows, with the optical lenses placed between adjacent drive plates 36; the water pump 4 pumps water into the impact frame 37, and then the impact driving plate 36 is ejected from the impact hole 38 to rotate the rotating belt 34, so that transportation is realized; the impact holes 38 are uniformly distributed on the top of the impact frame 37, so that a plurality of driving plates 36 can be impacted, and the increased force ensures that the rotating belt 34 can be driven; the impact hole 38 below the rotating belt 34 is obliquely arranged towards the driving plate 36, and the rotating belt 34 can drive the optical lens to move from the feeding hole 21 to the discharging hole 22; the water level in the whole device is higher than the upper surface of the rotating belt 34, so that the lens can be submerged in water in the transportation process, the cleaning process is realized, the impact hole 38 which is positioned at one side close to the water pump 4 and is not positioned below the rotating belt 34 is vertically arranged, so that water sprayed from the impact hole 38 can be vertically upwards, namely, water is supplied to one side of the material outlet 22, water above the rotating belt 34 flows from the material outlet 22 to the material inlet 21, and the transportation direction of the lens is opposite to that of the optical lens, so that the scouring effect on the lens is increased, and the cleaning effect is further increased; the square hole 5 is adjacent to the rotating belt 34, the baffle plate 51 can cover the square hole 5, the annular block 61 plays a limiting role, and the gravity block 62 and the traction rope 63 are arranged, so that when the rotating belt 34 rotates, when the driving plate 36 moves to the position above the rotating belt 34, the traction rope 63 is pulled due to the falling of the gravity block 62, so that the baffle plate 51 is pulled up, the square hole 5 on the driving plate 36 above the rotating belt 34 is opened, the gravity block 62 in the driving plate 36 below the rotating belt 34 also falls down, the traction rope 63 is pulled, so that the baffle plate 51 closes the square hole 5, namely the square hole 5 above the rotating belt 34 is opened, the square hole 5 below the rotating belt 34 is closed, so that the side area of the driving plate 36 below the rotating belt 34 is larger than the side area of the driving plate 36 above the rotating belt 34, the driving plate 36 below the rotating belt 34 is guaranteed to be more impacted by water flow, the square hole 5 and the rotating belt 34 are adjacently attached to the rotating belt 34, the cleaning effect is realized through the water flow over the driving plate 36 more easily, and the cleaning effect is realized; the connecting pipe realizes the circulation of water flow;

the optical lens is placed between two driving plates 36 placed on the rotating belt 34 from the feeding hole 21, the water pump 4 is started, water flows into the impact frame 37 and is punched out from the impact hole 38, the driving plates 36 are impacted, the rotating belt 34 is driven, the optical lens is transported, and in the transportation process, the optical lens is immersed in water, so that the cleaning is also realized; the transported optical lens is then removed from the outlet 22.

As a specific embodiment of the present invention, as shown in fig. 6 and 8; a filter cartridge 7 is fixedly arranged in the water storage cylinder 32 provided with the water pump 4, the end part of the connecting pipe is covered by the filter cartridge 7, and a filter screen of the filter cartridge 7 is arranged at the top of the filter cartridge 7;

as shown in fig. 6, 8 and 9; an annular electromagnet 71 is fixedly arranged at one end, close to the connecting pipe, of the inside of the filter cartridge 7, a scraping block 72 is connected in a sliding manner in the inside of the filter cartridge 7, the scraping block 72 is annular, and a permanent magnet 73 is fixedly arranged at one side, close to the annular electromagnet 71, of the scraping block 72; the top of one side of the scraping block 72, which is far away from the annular electromagnet 71, is rotationally connected with a one-way opening plate 74, and the one-way opening plate 74 can only be opened towards the direction far away from the annular electromagnet 71 due to the limit of the scraping block 72;

as shown in fig. 6, 8, 9, 10; the bottom of the water storage cylinder 32 is provided with an opening and closing door 8 corresponding to the end of the filter cylinder 7 and far away from the annular electromagnet 71, one end, close to the opening and closing door 8, of the inside of the filter cylinder 7 is provided with a limiting block 81, and one end, close to the opening and closing door 8, of the filter cylinder 7 is not provided with a filter screen; a first hole 82 is formed in the bottom of the filter cartridge 7 and close to the limiting block 81; the bottom of the unidirectional opening plate 74 is provided with a second hole 83, a horizontal groove 9 is formed in the part, which is positioned at the bottom, inside the scraping block 72, one end, close to the annular electromagnet 71, of the horizontal groove 9 is connected with a first magnetic block 91 in a sliding manner, the end part of the first magnetic block 91 is fixedly connected with a first supporting block 92, one side of the first magnetic block 91 is fixedly connected with a first spring 93 inside the horizontal groove 9, vertical grooves 94 are formed in the upper side and the lower side of the end part, far away from the first magnetic block 91, of the horizontal groove 9, cross blocks 95 are connected in a sliding manner in each vertical groove 94, and a second spring 96 is fixedly connected between each cross block 95 and the corresponding vertical groove 94;

when in operation, the filter screen is only arranged above the filter cartridge 7, and the rest parts are all of a sealing structure; the water flows into the water storage barrel 32 with the water pump 4 through the connecting pipe, in the process, the water passes through the filter cartridge 7, the annular electromagnet 71 can change the magnetic poles, the scraping block 72 can be close to or far away from the annular electromagnet 71 by matching with the permanent magnet 73, and the one-way opening plate 74 can only be opened towards the direction far away from the annular electromagnet 71 due to the limit of the scraping block 72, namely the one-way opening plate 74 does not influence the water flow entering the filter cartridge 7; the opening and closing door 8 can be opened or closed, and can be understood as a plug; the cross 95 can be inserted into the first hole 82, and likewise the cross 95 can be inserted into the second hole 83; whether the first magnetic block 91 is deeply into the horizontal groove 9 or not can be influenced by the annular electromagnet 71, when the first magnetic block 91 is deeply into the horizontal groove 9, the first abutting block 92 can be driven to contact with the two cross blocks 95, namely when the two cross blocks 95 respectively correspond to the first hole 82 and the second hole 83, the two cross blocks 95 are extruded into the first hole 82 and the second hole 83, and at the moment, the first spring 93 and the second spring 96 are contracted; the first magnetic block 91 and the permanent magnet 73 have the same magnetic pole arrangement, namely, when the annular electromagnet 71 repels the scraping block 72, the first magnetic block 91 is also repelled;

when the water pump 4 operates, the filter cartridge 7 can filter impurities, after a period of time, the water pump 4 is closed, the one-way opening plate 74 falls down, the magnetic pole of the annular electromagnet 71 can be controlled, the annular electromagnet 71 repels the scraping block 72, the scraping block 72 is far away from the annular electromagnet 71, the scraping impurities are close to the opening and closing door 8, when the scraping block 72 contacts the limiting block 81, the cross block 95 corresponds to the first hole 82, under the extrusion of the first abutting block 92, the cross block 95 enters the first hole 82 and the second hole 83, the scraping block 72 and the one-way opening plate 74 are fixed, at the moment, the scraping block 72 is positioned at the closed part of the filter cartridge 7, and the impurities are positioned between the scraping block 72 and the opening and closing door 8, so that when the opening and closing door 8 is opened, water cannot flow out, and then the impurities are cleaned; so that the impurities in the filter cartridge 7 can be cleaned under the condition that the water does not flow out; after cleaning, the opening and closing door 8 is closed, the magnetism of the annular electromagnet 71 is changed, the first abutting block 92 is used for releasing the extrusion of the cross block 95, the cross block 95 is pulled out of the first hole 82 and the second hole 83, the locking is released, the scraping block 72 is immediately attracted to be close to and contact with the annular electromagnet 71, and then the device continues to work.

Claims

1. An automated conveyance device suitable for optical lens production, comprising:

the device comprises a bracket (1), wherein a square frame (2) is fixedly arranged on the bracket (1), a feed inlet (21) is formed in the top of one end of the square frame (2), and a discharge outlet (22) is formed in the top of the other end of the square frame (2);

the method is characterized in that: the automated conveying equipment suitable for optical lens production further comprises:

the cleaning and transporting unit (3) is arranged at two ends and inside the square frame (2), and the cleaning and transporting unit (3) can transport the optical lenses by taking water flow as power and can clean the optical lenses in the transporting process;

the cleaning and transporting unit (3) comprises:

the first frame (31) is fixedly arranged at two ends of the square frame (2);

the bottom of each first frame (31) is fixedly provided with a water storage cylinder (32), and each water storage cylinder (32) is communicated with the inside of the first frame (31); the bottom of one side of each water storage cylinder (32) which is close to each other is fixedly connected with a communicating pipe (33);

a rotating belt (34), a rotating shaft (35) is rotatably connected to the inside of each first frame (31), a rotating belt (34) is sleeved between the two rotating shafts (35), and a plurality of driving plates (36) are fixedly connected to the rotating belt (34);

the water storage device comprises an impact frame (37), wherein the bottoms of a first frame (31) and a square frame (2) are fixedly provided with the impact frame (37), a water pump (4) is fixedly arranged in a water storage barrel (32) close to one side of a discharge hole (22), and a water outlet of the water pump (4) is communicated with the end part of the impact frame (37) at the corresponding side of the water pump; a plurality of impact holes (38) are formed in the top of the impact frame (37);

an impact hole (38) positioned below the rotating belt (34) is obliquely arranged;

the impact hole (38) which is positioned at one side close to the water pump (4) and is not positioned below the rotating belt (34) is vertically arranged;

each driving plate (36) is provided with a plurality of square holes (5), and each square hole (5) is arranged close to the rotating belt (34); a baffle plate (51) is slidably connected to the inside of each driving plate (36) and corresponds to the position of each square hole (5), slide ways (52) are arranged on two sides of each square hole (5), a first plate (53) is fixedly connected to one end, close to the rotating belt (34), of each baffle plate (51), and two ends of the first plate (53) are located in the slide ways (52); inside and the both sides that lie in every baffle (51) of drive plate (36) have seted up space (6), every it has annular piece (61) to distribute from top to bottom in space (6), two be provided with between annular piece (61) gravity piece (62), every the top and the bottom of gravity piece (62) have all linked firmly haulage rope (63), its every haulage rope (63) link firmly through the assembly pulley with the upside of the corresponding side board (53) tip.

2. An automated transport apparatus adapted for use in the production of optical lenses according to claim 1, wherein: the inside fixed mounting of water storage section of thick bamboo (32) that is equipped with water pump (4) has cartridge filter (7), cartridge filter (7) cover the tip of connecting pipe, the filter screen of cartridge filter (7) is installed at cartridge filter (7) top.

3. An automated transport apparatus adapted for use in the production of optical lenses according to claim 2, wherein: an annular electromagnet (71) is fixedly arranged at one end, close to the connecting pipe, inside the filter cylinder (7), a scraping block (72) is connected inside the filter cylinder (7) in a sliding manner, the scraping block (72) is annular, and a permanent magnet (73) is fixedly arranged at one side, close to the annular electromagnet (71), of the scraping block (72); the top of one side of scraping block (72) away from annular electromagnet (71) rotates and is connected with one-way opening plate (74), one-way opening plate (74) can only be opened towards the direction of keeping away from annular electromagnet (71) because of the spacing of scraping block (72).

4. An automated transport apparatus adapted for use in the production of optical lenses according to claim 3, wherein: an opening and closing door (8) is arranged at one side, corresponding to the end part of the filter cylinder (7), of the bottom of the water storage cylinder (32) and far away from the annular electromagnet (71), a limiting block (81) is arranged at one end, close to the opening and closing door (8), of the inside of the filter cylinder (7), and a filter screen is not arranged at one end, close to the opening and closing door (8), of the filter cylinder (7); a first hole (82) is formed in the bottom of the filter cylinder (7) and close to the limiting block (81); the bottom of one-way opening plate (74) has seted up No. two holes (83), scrape the inside position that is located the bottom of movable block (72) and seted up horizontal groove (9), horizontal groove (9) are close to one end sliding connection of annular electro-magnet (71) and have been provided with No. one magnet (91), the tip of No. one magnet (91) has linked firmly No. one and has supported piece (92), one side of No. one magnet (91) has linked firmly No. one spring (93) with the inside of horizontal groove (9), vertical groove (94) have been seted up to the tip upside that is kept away from No. one magnet (91) in horizontal groove (9), every sliding connection has cross piece (95) in vertical groove (94), every link firmly No. two springs (96) between cross piece (95) and its corresponding vertical groove (94).