CN216083730U - Counting machine - Google Patents

Counting machine Download PDF

Info

Publication number
CN216083730U
CN216083730U CN202121870888.6U CN202121870888U CN216083730U CN 216083730 U CN216083730 U CN 216083730U CN 202121870888 U CN202121870888 U CN 202121870888U CN 216083730 U CN216083730 U CN 216083730U
Authority
CN
China
Prior art keywords
central control
visual
counting
paper
module
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN202121870888.6U
Other languages
Chinese (zh)
Inventor
钱照鹏
钱照坤
曾佳
蹇虎
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Dongguan Kunpeng Earl Machinery Equipment Co ltd
Original Assignee
Dongguan Kunpeng Earl Machinery Equipment Co ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Dongguan Kunpeng Earl Machinery Equipment Co ltd filed Critical Dongguan Kunpeng Earl Machinery Equipment Co ltd
Priority to CN202121870888.6U priority Critical patent/CN216083730U/en
Application granted granted Critical
Publication of CN216083730U publication Critical patent/CN216083730U/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Landscapes

  • Sheets, Magazines, And Separation Thereof (AREA)

Abstract

The utility model discloses a counting machine which comprises a central control rotary feeding mechanism, a visual detection mechanism, a rotating plate mechanism, a paper stacking mechanism and a counting weighing mechanism. This circuit board is checked automatically to counting machine piles together according to the circuit board that preset's quantity will satisfy the requirement, replaces manual work, improves production efficiency, and structural design is compact, and the function centralization is powerful, and it is also convenient to operate, and it is reliable to detect the structure observation pipe, has solved present artifical counting and has divided the board and lead to producing the slow problem of speed.

Description

Counting machine
Technical Field
The utility model relates to the technical field of circuit board production, in particular to a counting machine.
Background
In recent years, with the development trend of the circuit board manufacturing industry gradually closing to the directions of intellectualization, automation and high yield, the function centralization of automation equipment is more and more important, the development of the industry puts higher requirements on equipment research and development, and under the development environment, the production line tends to be intellectualized and high in yield. However, in the production process of the existing circuit board, the number of the circuit board still needs to be counted and divided manually, so that the problems of reduced productivity, slow production speed and the like are caused.
SUMMERY OF THE UTILITY MODEL
One object of the present invention is: a point counter is provided to solve the problems in the prior art.
In order to achieve the purpose, the utility model adopts the following technical scheme:
a counting machine comprises a central control rotary feeding mechanism, a visual detection mechanism, a rotating plate mechanism, a paper stacking mechanism and a counting weighing mechanism;
the central control rotary feeding mechanism comprises a central control rotary platform, a first central control positioning plate, a second central control positioning plate, a first central control feeding platform, a second central control feeding platform and a central control driving motor, wherein the central control driving motor is positioned below the central control rotary platform, the central control rotary platform rotates on a driving end of the central control driving motor, the first central control positioning plate and the second central control positioning plate are respectively fixed on two sides of the central control rotary platform, the central control rotary platform is provided with a first central control motor and a second central control motor, the first central control motor drives the first central control feeding platform to lift along the first central control positioning plate, and the second central control motor drives the second central control feeding platform to lift along the second central control positioning plate;
the visual detection mechanism comprises a first visual module, a second visual module, a third visual module, a fourth visual module, a first camera, a second camera and a visual platform, wherein the first visual module, the second visual module, the third visual module and the fourth visual module are all linear modules, the first visual module and the second visual module are parallel to each other, the third visual module and the fourth visual module are parallel to each other, the first visual module and the third visual module are perpendicular to each other, the second visual module and the fourth visual module are perpendicular to each other, the first visual module and the second visual module are fixed on the visual platform, the third visual module is installed on a driving end of the first visual module, and the fourth visual module is installed on a driving end of the second visual module, the first camera is installed on the driving end of the third vision module, the second camera is installed on the driving end of the fourth vision module, a first light source is further arranged at the lower end of the first camera, and a second light source is further arranged at the lower end of the second camera;
the plate rotating mechanism comprises a plate rotating mechanical arm and a plate rotating motor, the driving end of the plate rotating motor is connected with the middle part of the plate rotating mechanical arm, and a plurality of plate rotating suckers are arranged at the end part of the plate rotating mechanical arm;
the paper stacking mechanism comprises a paper stacking frame, a paper suction transverse moving module, a paper suction cylinder, a paper suction rod, a paper table and an air blower, wherein the paper table is positioned on one side of the paper stacking frame, the air blower is positioned below the paper table, the air blower is connected with the bottom of the paper table, a plurality of air suction hole positions are formed in the paper table, the paper suction transverse moving module is positioned on one side of the paper table, the paper suction cylinder is installed on a driving end of the paper suction transverse moving module, a driving end of the paper suction cylinder is connected with one end of the paper suction rod, the paper suction rod is positioned above the paper table, and a plurality of paper suction suckers are arranged at intervals at the lower end of the paper suction rod;
the point weighing mechanism includes the point frame, the ascending motor of point, the conveying platform of point, the sensor of point and the platform of weighing, the lower extreme of point frame is still vertical installs the screw rod of point, the lower extreme fixedly connected with point of conveying platform rises the board, the board that rises of point is in along vertical direction removal on the point frame, be fixed with the nut seat of point on the board that rises of point, nut seat screw thread transmission connects on the screw rod of point, the ascending motor of point is located the lower extreme of point frame, the drive end of the ascending motor of point with the screw rod transmission of point is connected, the conveying motor drive of point the conveying platform horizontal direction of point removes, the platform of weighing is located one side of the conveying platform of point, the sensor of point is installed on the platform of weighing.
As a preferable technical solution, a first central control sensor is arranged on one side of the upper end of the first central control positioning plate, and a second central control sensor is arranged on one side of the upper end of the second central control positioning plate.
As a preferred technical solution, a first central control slide rail is arranged on the first central control positioning plate along the vertical direction, a first central control slide block is arranged at one end of the first central control feeding table, the first central control slide block slides on the first central control slide rail, a second central control slide rail is arranged on the second central control positioning plate along the vertical direction, a second central control slide block is arranged at one end of the second central control feeding table, and the second central control slide block slides on the second central control slide rail.
As an optimal technical scheme, a first vision slide rail and a second vision slide rail are further fixed on the vision platform, the first vision slide rail is parallel to the first vision module, the second vision slide rail is parallel to the second vision module, a first vision slider is arranged at one end of the third vision module, the first vision slider slides on the first vision slide rail, a second vision slider is arranged at one end of the second dead vision module, and the second vision slider slides on the second vision slide rail.
As a preferred technical scheme, a first vision mounting plate is connected to the driving end of the third vision module, the first camera is fixed to the first vision mounting plate, a second vision mounting plate is connected to the driving end of the fourth vision module, and the second camera is fixed to the second vision mounting plate.
As a preferred technical scheme, a paper suction moving optical axis is transversely arranged below the paper table, a paper suction moving bearing is fixed at the lower end of the paper table, and the paper suction moving bearing is connected to the paper suction moving optical axis in a sliding manner.
As a preferred technical scheme, a paper sucking transverse moving cylinder is further fixed at the lower end of the paper table, and the driving end of the paper sucking transverse moving cylinder is fixedly connected with the end of the paper sucking moving optical axis.
As a preferable technical solution, a first dot counting optical axis is fixed between the dot counting lifting plate and the dot counting conveying platform, a first dot counting linear bearing is fixed at the lower end of the dot counting frame, and the first dot counting linear bearing slides on the first dot counting optical axis along the vertical direction.
As a preferred technical scheme, a second point linear bearing is further fixed on the point ascending plate, a second point optical axis is fixed at the lower end of the point frame, and the second point linear bearing slides on the second point optical axis along the vertical direction.
As a preferable technical solution, the counting frame is provided with a counting rise sensor, one side of the counting rise plate is provided with a counting rise sensing piece, and the counting rise sensing piece is in signal connection with the counting rise sensor.
The utility model has the beneficial effects that: the utility model provides a counter, this counter is automatic checks the circuit board, and the circuit board that will satisfy the requirement according to preset's quantity is piled up together, replaces manual work, improves production efficiency, and structural design is compact, and the function centralization is powerful, and the operation is also convenient, and it is reliable to detect the structure observation pipe, has solved present artifical counting and has divided the board and lead to producing the slow problem of speed.
Drawings
The utility model is explained in more detail below with reference to the figures and examples.
Fig. 1 is a schematic overall structure diagram of a point counting machine according to an embodiment;
FIG. 2 is a first structural diagram of a central control rotary feeding mechanism according to an embodiment;
FIG. 3 is a second structural schematic diagram of the central control rotary feeding mechanism according to the embodiment;
FIG. 4 is a first schematic diagram of a visual inspection mechanism according to an embodiment;
FIG. 5 is a second schematic view of the visual inspection mechanism according to the embodiment;
FIG. 6 is a schematic structural diagram of a rotating plate mechanism according to an embodiment;
FIG. 7 is a schematic structural diagram of a paper stacking mechanism according to an embodiment;
FIG. 8 is a schematic structural view of a paper sucking and traversing module according to an embodiment;
FIG. 9 is a schematic structural diagram of a paper table according to an embodiment;
FIG. 10 is a schematic view of a first structure of a point weighing mechanism according to an embodiment;
fig. 11 is a second structural schematic diagram of the point weighing mechanism according to the embodiment.
In fig. 1 to 11:
1. a central control rotary feeding mechanism; 2. a visual detection mechanism; 3. a board rotating mechanism; 4. a paper stacking mechanism; 5. counting and weighing mechanism;
101. a central control rotary platform; 102. a first central control positioning plate; 103. a second central control positioning plate; 104. a first central control feeding table; 105. a second central control feeding table; 106. a central control drive motor; 107. a first central control motor; 108. a second central control motor; 109. a first central control sensor; 110. a second central control sensor; 111. a first central control slide rail; 112. a first central control slide block; 113. a second central control slide rail; 114. a second central control slide block; 115. a first central control screw; 116. a second central control screw; 117. a central control speed reducer;
201. a first vision module; 202. a second vision module; 203. a third vision module; 204. a fourth vision module; 205. a first camera; 206. a second camera; 207. a visual platform; 208. a first light source; 209. a second light source; 210. a first vision slide rail; 211. a second vision slide rail; 212. a first vision slider; 213. a second vision slider; 214. a first vision mounting plate; 215. a second vision mounting plate;
301. a board rotating mechanical arm; 302. a board rotating motor; 303. a rotating plate sucker;
401. a paper folding frame; 402. a paper sucking and transverse moving module; 403. a paper suction cylinder; 404. a paper suction rod; 405. a paper table; 406. a blower; 407. a paper sucking disc; 408. a paper cutter; 409. sucking paper to move the optical axis; 410. a paper suction moving bearing; 411. a paper sucking and transverse moving cylinder; 412. a paper suction vertical moving slide rail; 413. a paper suction vertical moving slide block;
501. counting frame; 502. counting a number of ascending motors; 503. counting a conveying motor; 504. counting a conveying platform; 505. a point sensor; 506. a weighing platform; 507. counting the number of the screws; 508. counting the number of the lifting plates; 509. counting nut seats; 510. a first point optical axis; 511. a first point number linear bearing; 512. a second point number optical axis; 513. a second point linear bearing; 514. a point number rising sensor; 515. counting the number of the ascending sensing pieces; 516. counting a synchronizing wheel; 517. counting the number of the synchronous belts.
Detailed Description
The technical scheme of the utility model is further explained by the specific implementation mode in combination with the attached drawings.
As shown in fig. 1, in the present embodiment, a counting machine includes a central control rotary feeding mechanism 1, a visual inspection mechanism 2, a rotating plate mechanism 3, a paper stacking mechanism 4, and a counting weighing mechanism 5.
As shown in fig. 2 to 3, the central control rotary feeding mechanism 1 includes a central control rotary platform 101, a first central control positioning plate 102, a second central control positioning plate 103, a first central control feeding table 104, a second central control feeding table 105 and a central control driving motor 106, the central control driving motor 106 is positioned below the central control rotary platform 101, the central control rotary platform 101 rotates on the driving end of the central control driving motor 106, the first central control positioning plate 102 and the second central control positioning plate 103 are respectively fixed at two sides of the central control rotary platform 101, a first central control motor 107 and a second central control motor 108 are arranged on the central control rotary platform 101, the first central control motor 107 drives the first central control loading platform 104 to move up and down along the first central control positioning plate 102, the second central control motor 108 drives the second central control loading platform 105 to move up and down along the second central control positioning plate 103.
Specifically, a first central control sensor 109 is arranged on one side of the upper end of the first central control positioning plate 102, a second central control sensor 110 is arranged on one side of the upper end of the second central control positioning plate 103, a first central control slide rail 111 is arranged on the first central control positioning plate 102 along the vertical direction, a first central control slide block 112 is arranged at one end of the first central control feeding table 104, the first central control slide block 112 slides on the first central control slide rail 111, a second central control slide rail 113 is arranged on the second central control positioning plate 103 along the vertical direction, a second central control slide block 114 is arranged at one end of the second central control feeding table 105, the second central control slide block 114 slides on the second central control slide rail 113, a first central control screw 115 and a second central control screw 116 are in bearing connection with the central control rotary platform 101, a driving end of the first central control motor 107 is in transmission connection with the first central control screw 115, a first central control nut seat is fixed on the first central control feeding platform 104, the first central control nut seat is in threaded transmission connection with the first central control screw 115, the driving end of the second central control motor 108 is in transmission connection with the second central control screw 116, a second central control nut seat is fixed on the second central control feeding platform 105, the second central control nut seat is in threaded transmission connection with the second central control screw 116, and a central control speed reducer 117 is further installed between the central control driving motor 106 and the central control rotary platform 101.
According to the actual production requirement, a plurality of central control feeding tables and central control positioning plates can be added, when the central control feeding tables are in charge of feeding, a plate is manually placed on the first central control feeding table 104, at the moment, the first central control feeding table 104 is located at the lowest end, the first central control motor 107 starts to work, the first central control feeding table 104 moves vertically and upwards through transmission between the first central control screw 115 and the first central control nut seat, the movement direction is limited by the first central control slide rail 111 and the first central control slide block 112, the circuit board at the uppermost end stops rising after being sensed by the first central control sensor 109, when the second central control sensor 110 of the second central control feeding table 105 does not sense the circuit board, the upper board of the second central control feeding table 105 is completely emptied, and the central control driving motor 106 drives the central control rotating platform 101 to rotate by 180 degrees through the central control speed reducer 117 And after the circuit board is taken away every time, the first central control sensor 109 cannot sense the uppermost board, and the first central control motor 107 controls the first central control feeding platform 104 to ascend by the height of one board, so that the second central control feeding platform 105 can also discharge materials manually, and continuous feeding can be met without stopping.
As shown in fig. 4 to 5, the vision inspection mechanism 2 includes a first vision module 201, a second vision module 202, a third vision module 203, a fourth vision module 204, a first camera 205, a second camera 206 and a vision platform 207, the first vision module 201, the second vision module 202, the third vision module 203 and the fourth vision module 204 are all straight modules, the first vision module 201 and the second vision module 202 are parallel to each other, the third vision module 203 and the fourth vision module 204 are parallel to each other, the first vision module 201 and the third vision module 203 are perpendicular to each other, the second vision module 202 and the fourth vision module 204 are perpendicular to each other, the first vision module 201 and the second vision module 202 are fixed on the vision platform 207, the third vision module 203 is installed on a driving end of the first vision module 201, the fourth vision module 204 is installed on the driving end of the second vision module 202, the first camera 205 is installed on the driving end of the third vision module 203, and the second camera 206 is installed on the driving end of the fourth vision module 204.
Specifically, a first visual slide rail 210 and a second visual slide rail 211 are further fixed on the visual platform 207, the first visual slide rail 210 is parallel to the first visual module 201, the second visual slide rail 211 is parallel to the second visual module 202, a first visual slider 212 is arranged at one end of the third visual module 203, the first visual slider 212 slides on the first visual slide rail 210, a second visual slider 213 is arranged at one end of the dead visual module, the second visual slider 213 slides on the second visual slide rail 211, a first visual mounting plate 214 is connected to a driving end of the third visual module 203, the first camera 205 is fixed on the first visual mounting plate 214, a first light source 208 is further arranged at the lower end of the first camera 205, and a second visual mounting plate 215 is connected to a driving end of the fourth visual module 204, the second camera 206 is fixed on the second visual mounting plate 215, a second light source 209 is further disposed at the lower end of the second camera 206, and the first light source 208 and the second light source 209 are both circular light sources.
When the circuit board moves to the lower part of the visual platform 207, the first camera 205 and the second camera 206 capture the identification code of the detection surface on the circuit board, and transmit the recorded data to the human-computer interface, and the human-computer instruction executes to place the identified circuit board at the designated position.
The first vision module 201 and the second vision module 202 control the first camera 205 and the second camera 206 to move in the left-right direction, the first vision slide rail 210 and the second vision slide rail 211 are respectively used for keeping balance movement during movement, the third vision module 203 and the fourth vision module 204 are used for moving the first camera 205 and the second camera 206 back and forth, after the first vision module and the second vision module are moved to proper positions, the first light source 208 and the second light source 209 are turned on to enhance shooting effects, the snapshot imaging is clear, the precision is as high as 0.03 mm/pixel, the visual detection success rate is high, and the improvement of the equipment production speed is facilitated.
As shown in fig. 6, the plate rotating mechanism 3 includes a plate rotating mechanical arm 301 and a plate rotating motor 302, a driving end of the plate rotating motor 302 is connected to a middle portion of the plate rotating mechanical arm 301, and a plurality of plate rotating suction cups 303 are disposed at an end portion of the plate rotating mechanical arm 301.
The circuit board detected by the visual detection mechanism 2 is adsorbed by the rotary board sucker 303, and the rotary board motor 302 controls the rotary board mechanical arm 301 to rotate so as to bring the circuit board to a proper station.
As shown in fig. 7 to 9, the paper stacking mechanism 4 includes a paper stacking frame 401, a paper suction traversing module 402, a paper suction cylinder 403, a paper suction rod 404, a paper table 405, and a blower 406, the paper table 405 is located on one side of the paper stacking frame 401, the blower 406 is located below the paper table 405, the blower 406 is connected to the bottom of the paper table 405, the paper table 405 is provided with a plurality of air suction holes, the paper suction traversing module 402 is located on one side of the paper table 405, the paper suction cylinder 403 is installed at a driving end of the paper suction traversing module 402, a driving end of the paper suction cylinder 403 is connected to one end of the paper suction rod 404, the paper suction rod 404 is located above the paper table 405, and a plurality of paper suction suckers 407 are arranged at intervals at a lower end of the paper suction rod 404.
Specifically, a paper cutter 408 is installed on the paper stacking frame 401, a paper suction moving optical axis 409 is transversely arranged below the paper table 405, a paper suction moving bearing 410 is fixed to the lower end of the paper table 405, the paper suction moving bearing 410 is connected to the paper suction moving optical axis 409 in a sliding mode, a paper suction traversing cylinder 411 is further fixed to the lower end of the paper table 405, the driving end of the paper suction traversing cylinder 411 is fixedly connected with the end of the paper suction moving optical axis 409, a paper suction vertical moving slide rail 412 is arranged on the driving end of the paper suction traversing module 402 in the vertical direction, a paper suction vertical moving slide block 413 is arranged at one end of the paper suction rod 404, and the paper suction vertical moving slide block 413 slides on the paper suction vertical moving slide rail 412.
The circuit board is placed on the dot counting conveying platform 504 through a front mechanism, after the circuit board is placed, the paper stacking mechanism 4 starts to work, the paper cutter 408 cuts paper on the paper table 405, the air blower 406 works to vacuumize, the air suction hole on the paper table 405 sucks the paper, the paper suction traverse cylinder 411 controls the paper table 405 to move transversely to take out the paper, in the process, the paper suction moving bearing 410 and the paper suction moving optical axis 409 limit the moving direction to ensure the position of the paper, then the paper suction cylinder 403 controls the paper suction rod 404 to move downwards, the paper suction vertical moving slide rail 412 and the paper suction vertical moving slide block 413 reduce friction caused by downward movement of the paper suction rod 404, after the paper suction sucker 407 sucks the paper on the paper table 405, the paper suction cylinder 403 pulls up the paper, and the paper suction traverse module 402 controls the paper suction rod 404 to move transversely, the paper is taken to the upper part of the circuit board, the paper suction cylinder 403 controls the paper suction rod 404 to move downwards, the paper suction sucker 407 loosens the paper to enable the paper to stably fall on the circuit board, and after the paper is placed, all structures are reset to prepare for the next paper placing process.
As shown in fig. 10 to 11, the counting weighing mechanism 5 includes a counting frame 501, a counting raising motor 502, a counting conveying motor 503, a counting conveying platform 504, a counting sensor 505 and a weighing platform 506, wherein a counting screw 507 is vertically installed at the lower end of the counting frame 501, a counting raising plate 508 is fixedly connected to the lower end of the counting conveying platform 504, the counting raising plate 508 moves on the counting frame 501 along the vertical direction, a counting nut seat 509 is fixed on the counting raising plate 508, the counting nut seat 509 is in threaded transmission connection with the counting screw 507, the counting raising motor 502 is located at the lower end of the counting frame 501, the driving end of the counting raising motor 502 is in transmission connection with the counting screw 507, the counting conveying motor 503 drives the counting conveying platform 504 to move horizontally, and the weighing platform 506 is located at one side of the counting conveying platform 504, the point sensor 505 is mounted on the weighing platform 506.
Specifically, a first dot optical axis 510 is fixed between the dot ascending plate 508 and the dot conveying platform 504, a first dot linear bearing 511 is fixed at the lower end of the dot frame 501, the first dot linear bearing 511 slides on the first dot optical axis 510 along the vertical direction, a second dot linear bearing 513 is further fixed on the dot ascending plate 508, a second dot optical axis 512 is fixed at the lower end of the dot frame 501, the second dot linear bearing 513 slides on the second dot optical axis 512 along the vertical direction, a dot ascending sensor 514 is arranged on the dot frame 501, a dot ascending sensor sheet 515 is arranged on one side of the dot ascending plate 508, the dot ascending sensor sheet 515 is in signal connection with the dot ascending sensor 514, and both the dot conveying platform 504 and the driving end of the dot conveying motor 503 are provided with a dot synchronizing wheel 516, the point number synchronizing wheels 516 are in transmission connection through a point number synchronizing belt 517.
This weighing mechanism 5 of counting compact structure, the function is concentrated, and is compatible strong, and the measuring result precision is high, can satisfy the requirement, can replace the manual work to count and weigh.
The dot number ascending motor 502 controls the dot number conveying platform 504 to ascend until the dot number ascending sensor 514 senses the dot number ascending sensor piece 515 and stops, the circuit board conveyed by a front mechanism is placed on the dot number conveying platform 504, after the signal cannot be sensed by the dot number sensor 505 due to the signal shielded by the circuit board, the dot number ascending motor 502 controls the dot number screw 507 to rotate, the dot number nut seat 509 drives the dot number ascending plate 508 to descend under the action of the dot number screw 507, the height of one circuit board thickness starts to descend, the stacking work of the circuit boards is continued, when the number of stacked boards reaches a certain requirement, the dot number conveying motor 503 starts to work, the stacked boards are controlled to move to the weighing platform 506 to be weighed through the dot number synchronizing wheel 516 and the dot number synchronizing belt 517, and detecting whether the weight requirement is met.
The sliding between the first point linear bearing 511 and the first point optical axis 510 and the sliding between the second point linear bearing 513 and the second point optical axis 512 limit the movement of the point ascending plate 508 in the vertical direction without tilting.
It should be noted that the above-mentioned embodiments are only preferred embodiments of the present invention and the technical principles used, and any changes or substitutions which can be easily conceived by those skilled in the art within the technical scope of the present invention disclosed herein should be covered within the protective scope of the present invention.

Claims (10)

1. A counting machine is characterized by comprising a central control rotary feeding mechanism, a visual detection mechanism, a rotating plate mechanism, a paper stacking mechanism and a counting weighing mechanism;
the central control rotary feeding mechanism comprises a central control rotary platform, a first central control positioning plate, a second central control positioning plate, a first central control feeding platform, a second central control feeding platform and a central control driving motor, wherein the central control driving motor is positioned below the central control rotary platform, the central control rotary platform rotates on a driving end of the central control driving motor, the first central control positioning plate and the second central control positioning plate are respectively fixed on two sides of the central control rotary platform, the central control rotary platform is provided with a first central control motor and a second central control motor, the first central control motor drives the first central control feeding platform to lift along the first central control positioning plate, and the second central control motor drives the second central control feeding platform to lift along the second central control positioning plate;
the visual detection mechanism comprises a first visual module, a second visual module, a third visual module, a fourth visual module, a first camera, a second camera and a visual platform, wherein the first visual module, the second visual module, the third visual module and the fourth visual module are all linear modules, the first visual module and the second visual module are parallel to each other, the third visual module and the fourth visual module are parallel to each other, the first visual module and the third visual module are perpendicular to each other, the second visual module and the fourth visual module are perpendicular to each other, the first visual module and the second visual module are fixed on the visual platform, the third visual module is installed on a driving end of the first visual module, and the fourth visual module is installed on a driving end of the second visual module, the first camera is installed on the driving end of the third vision module, the second camera is installed on the driving end of the fourth vision module, a first light source is further arranged at the lower end of the first camera, and a second light source is further arranged at the lower end of the second camera;
the plate rotating mechanism comprises a plate rotating mechanical arm and a plate rotating motor, the driving end of the plate rotating motor is connected with the middle part of the plate rotating mechanical arm, and a plurality of plate rotating suckers are arranged at the end part of the plate rotating mechanical arm;
the paper stacking mechanism comprises a paper stacking frame, a paper suction transverse moving module, a paper suction cylinder, a paper suction rod, a paper table and an air blower, wherein the paper table is positioned on one side of the paper stacking frame, the air blower is positioned below the paper table, the air blower is connected with the bottom of the paper table, a plurality of air suction hole positions are formed in the paper table, the paper suction transverse moving module is positioned on one side of the paper table, the paper suction cylinder is installed on a driving end of the paper suction transverse moving module, a driving end of the paper suction cylinder is connected with one end of the paper suction rod, the paper suction rod is positioned above the paper table, and a plurality of paper suction suckers are arranged at intervals at the lower end of the paper suction rod;
the point weighing mechanism includes the point frame, the ascending motor of point, the conveying platform of point, the sensor of point and the platform of weighing, the lower extreme of point frame is still vertical installs the screw rod of point, the lower extreme fixedly connected with point of conveying platform rises the board, the board that rises of point is in along vertical direction removal on the point frame, be fixed with the nut seat of point on the board that rises of point, nut seat screw thread transmission connects on the screw rod of point, the ascending motor of point is located the lower extreme of point frame, the drive end of the ascending motor of point with the screw rod transmission of point is connected, the conveying motor drive of point the conveying platform horizontal direction of point removes, the platform of weighing is located one side of the conveying platform of point, the sensor of point is installed on the platform of weighing.
2. The counting machine according to claim 1, wherein a first central control sensor is arranged on one side of the upper end of the first central control positioning plate, and a second central control sensor is arranged on one side of the upper end of the second central control positioning plate.
3. The counting machine according to claim 1, wherein a first central control slide rail is arranged on the first central control positioning plate along a vertical direction, a first central control slide block is arranged at one end of the first central control feeding table and slides on the first central control slide rail, a second central control slide rail is arranged on the second central control positioning plate along the vertical direction, a second central control slide block is arranged at one end of the second central control feeding table and slides on the second central control slide rail.
4. The counting machine according to claim 1, wherein a first visual slide rail and a second visual slide rail are further fixed on the visual platform, the first visual slide rail and the first visual module are parallel to each other, the second visual slide rail and the second visual module are parallel to each other, a first visual slider is arranged at one end of the third visual module, the first visual slider slides on the first visual slide rail, a second visual slider is arranged at one end of the fourth visual module, and the second visual slider slides on the second visual slide rail.
5. The counting machine according to claim 1, wherein a first vision mounting plate is connected to a driving end of the third vision module, the first camera is fixed to the first vision mounting plate, a second vision mounting plate is connected to a driving end of the fourth vision module, and the second camera is fixed to the second vision mounting plate.
6. The counting machine according to claim 1, wherein a paper suction moving optical axis is transversely arranged below the paper table, a paper suction moving bearing is fixed at the lower end of the paper table, and the paper suction moving bearing is slidably connected to the paper suction moving optical axis.
7. The counting machine according to claim 6, wherein a paper sucking traversing cylinder is further fixed at the lower end of the paper table, and a driving end of the paper sucking traversing cylinder is fixedly connected with an end of the paper sucking moving optical axis.
8. The counting machine according to claim 1, wherein a first counting optical axis is fixed between the counting lifting plate and the counting conveying platform, a first counting linear bearing is fixed at the lower end of the counting frame, and the first counting linear bearing slides on the first counting optical axis along the vertical direction.
9. The counting machine according to claim 1, wherein a second counting linear bearing is further fixed on the counting lifting plate, a second counting optical axis is fixed at the lower end of the counting frame, and the second counting linear bearing slides on the second counting optical axis along the vertical direction.
10. The counting machine according to claim 1, wherein the counting frame is provided with a counting rise sensor, one side of the counting rise plate is provided with a counting rise sensing piece, and the counting rise sensing piece is in signal connection with the counting rise sensor.
CN202121870888.6U 2021-08-11 2021-08-11 Counting machine Active CN216083730U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202121870888.6U CN216083730U (en) 2021-08-11 2021-08-11 Counting machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202121870888.6U CN216083730U (en) 2021-08-11 2021-08-11 Counting machine

Publications (1)

Publication Number Publication Date
CN216083730U true CN216083730U (en) 2022-03-18

Family

ID=80669299

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202121870888.6U Active CN216083730U (en) 2021-08-11 2021-08-11 Counting machine

Country Status (1)

Country Link
CN (1) CN216083730U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113537437A (en) * 2021-08-11 2021-10-22 东莞市坤鹏伯爵机械设备有限公司 Counting machine

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113537437A (en) * 2021-08-11 2021-10-22 东莞市坤鹏伯爵机械设备有限公司 Counting machine

Similar Documents

Publication Publication Date Title
CN108820945B (en) Automatic film feeding device
CN112109967A (en) Full-automatic aluminum substrate film covering and leveling production line
CN109649931B (en) Automatic identification counting machine
CN112045080A (en) Correcting unit suitable for thin motor punching of jumbo size
CN216083730U (en) Counting machine
CN113291804A (en) Feeding module and multi-station feeding device
CN212494038U (en) IC plastic package appearance visual detection and product collection device
CN110223931A (en) A kind of PL detection machine and detection method
CN113537437A (en) Counting machine
CN115892857A (en) Machine for placing plate
CN209684807U (en) A kind of AVI detection automatic charging & discharging machine
CN112046860B (en) Cake tray feeding device used on cake tray fork packaging production line
CN213111509U (en) Device for automatically feeding plates
CN217263771U (en) Automatic paper packing device for number plate
CN110449370B (en) Automatic product thickness classifying device
CN109015082B (en) Swing frame and device for loading and unloading plates, machining center and loading and unloading method
CN110539932A (en) Cover taking and conveying system
CN212241374U (en) Die-cut production line of stained paper suitable for thermosetting resin product
CN214893622U (en) FPC material loading detection device and FPC automatic detection line
CN210162383U (en) Automatic packaging system
CN211281741U (en) Cover taking and conveying system
CN211766519U (en) Material taking and placing device
CN211100191U (en) Lithium cell automated inspection and spout a yard equipment
CN110065825B (en) Automatic hacking machine of glass
CN109650085B (en) Single-table-board double-station sheet material machine

Legal Events

Date Code Title Description
GR01 Patent grant
GR01 Patent grant