CN217675380U - Optical detection pushing equipment - Google Patents

Abstract

The utility model discloses an optical detection pushes away material equipment relates to material equipment technical field. The material pushing equipment is characterized in that a storage bin is integrally formed in the material pushing equipment main body, the storage bin is communicated with an inlet pipe arranged in the material pushing equipment main body in an inclined mode through an obliquely arranged inlet pipe, a hopper shaped like a funnel is arranged at the inlet position of the material pushing equipment main body, the inlet pipe is communicated with the hopper, the bottom surface of the storage bin is horizontally arranged, a pushing block connected in the storage bin in a sliding mode is arranged on one side face of the storage bin, the pushing block slides towards one side of the inlet pipe and is used for pushing materials into the inlet pipe, the storage bin is integrally in a funnel shape, a driving piece used for driving the pushing block to slide in a reciprocating mode is further arranged in the storage bin, the materials can be stored in the storage bin in the using process, the materials in the storage bin can quantitatively enter the material pushing equipment main body, the materials can be pushed through the material pushing equipment, on the one hand, the material pushing precision is improved, on the other hand, the material pushing efficiency is improved, the manpower use is reduced, meanwhile, the storage bin can be connected with automatic material feeding equipment, and preparation is made for automatic production.

Description

Optical detection pushing equipment

Technical Field

The utility model relates to a feeder equipment technical field especially relates to an optical detection pushing equipment.

Background

Optical detection is an effective detection method for industrial automation, uses machine vision as a detection standard technology, is widely applied to industrial manufacturing procedures of LCD/TFT, transistors and PCB, and can be extended to a security system in civil use. Automatic optical inspection is a typical method commonly used in industrial processes, and uses an optical method to obtain the surface state of a finished product and uses image processing to detect defects such as foreign matter or abnormal patterns.

The material need send into detecting instrument with it in batches before optical detection, carries out the material loading through the manual work on the current market, wastes time and energy.

Currently, chinese patent publication No. CN114313989A discloses a feeding device and an automatic optical detection apparatus, including a storage bin, a lifting table, a separation module, an absorption module, and a first driving module, where the separation module includes a first blocking component, a second blocking component, and a scraping component, and the lifting table is disposed in the storage bin and used for placing a product stack;

when the lifting platform lifts the product stack, two sides of the uppermost product in the product stack are abutted to the separation module so that the product stack is arched, the first driving module drives the suction module to move towards the direction far away from the lifting platform, and the scraping assembly is used for scraping other products attached to the uppermost product.

This kind of separation rate that can improve the product promotes user experience, but in use, loading attachment need constantly topple over the material wherein through the manual work when using, and overall efficiency is lower, needs the manpower more.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned technical problem, overcome prior art's shortcoming, provide an optical detection pushing equipment.

In order to solve the technical problem, the utility model provides an optical detection pushes away material equipment.

The technical effects are as follows: the material storage can be in the feed bin in the use, the material in the feed bin can get into in the pushing equipment main part by ration, rethread pushing equipment accomplishes and pushes away the material, has improved the precision of material loading on the one hand, and on the other hand has promoted material loading efficiency, does not need operating personnel constantly to empty the material to pushing equipment in at the during operation, only need once only to fill the feed bin can, reduced the manpower and used, the feed bin can connect automatic feeding equipment simultaneously, has prepared for automated production.

The utility model discloses the technical scheme who further prescribes a limit to is: the utility model provides an optical detection blevile of push, including pushing away the material equipment main part, it has the storage silo to form an organic whole in the material equipment main part to push away, the storage silo communicates through the inlet pipe that the slope set up with the import of pushing away the material equipment main part, the import position of pushing away the material equipment main part is equipped with hopper-shaped hopper, inlet pipe and hopper intercommunication, bottom surface level sets up in the storage silo, a storage silo side is equipped with the promotion piece of connection in the storage silo that slides, promote the piece and slide towards inlet pipe one side, be used for in material propelling movement to the inlet pipe, the storage silo wholly is the funnel shape, still be equipped with in the storage silo and be used for ordering about the driving piece that promotes the piece and reciprocate to slide.

Further, the storage silo bottom is the discharge gate, promotes the piece and shields the discharge gate after pushing out completely, and promotes the end of piece and be located the inlet pipe entrance position, and the one side that promotes the piece and keep away from the inlet pipe is equipped with the movable block of connection in the storage silo that slides, and the movable block passes through the connecting rod and promotes the piece fixedly.

The optical detection pushing equipment comprises a driving piece, a driving motor and a driving screw rod, wherein the driving piece is fixed outside a material storage bin, the driving motor is integrally formed on an output shaft of the driving motor, one end of the driving screw rod penetrates through a movable block and is in threaded connection with the movable block, and a limiting block used for abutting against and limiting a pushing block is fixed at the tail end of the driving screw rod.

The optical detection pushing equipment comprises a lifting channel in a strip shape, a feeding port is formed in one side of the lifting channel, a discharging port is formed in the other side of the lifting channel, the feeding port and the discharging port are communicated with the two ends of the lifting channel respectively, the feeding port is communicated with a hopper, and a feeding assembly for conveying materials is further arranged in the lifting channel.

The optical detection pushing equipment comprises a feeding assembly, wherein the feeding assembly comprises spiral conveying blades, conveying shafts are arranged at the middle positions of the spiral conveying blades, two ends of each conveying shaft are respectively and rotatably connected to two ends of a lifting channel, the spiral conveying blades are symmetrically arranged on the center line of the lifting channel in two groups, and the two groups of spiral conveying blades are staggered with each other to form conveying spaces.

The optical detection pushing equipment is characterized in that driven gears arranged coaxially are fixed at the tail ends of the conveying shafts, a driving gear is arranged between the two driven gears, a driving motor is fixed on one side of the pushing equipment main body, the driving gear is fixed on an output shaft of the driving motor coaxially, and two sides of the driving gear are meshed with the two driven gears respectively. The beneficial effects of the utility model are that:

(1) The utility model discloses in, when the operating personnel uses pushing equipment to feed, can store the material in the storage silo earlier, start the driving piece in the storage silo, can drive the promotion piece and slide, because the promotion piece is whole to seal the discharge gate of storage silo bottom, therefore when the promotion piece is withdrawed, the material can drop from the discharge gate, and when the driving piece ordered the promotion piece outwards activity, then can promote the material to the hopper, the material drops to inlet pipe one side after entering the hopper, carry the material to the target position through the pay-off subassembly at last, thereby accomplish and push away the material, reach good material quantity's control effect, can make things convenient for operating personnel to control the volume of material loading;

(2) In the utility model, the driving motor drives the driving screw to rotate, the movable block can be driven to slide along the horizontal direction under the action of the screw thread, and the movable block is fixed with the pushing block through the connecting rod, so that the sliding of the movable block can drive the pushing block to move integrally;

(3) In the utility model, the output shaft of the driving motor rotates to drive the driven gears to rotate through the driving gear, the two driven gears synchronously rotate reversely, at the moment, the two groups of output shafts and the spiral conveying blades integrally rotate in the reverse direction, and the materials can be pushed to the outlet side through the spiral conveying blades to achieve the purpose of conveying the materials;

(4) The utility model discloses in, can be in the use with the material storage in the feed bin, during the material in the feed bin can the ration get into pushing equipment main part, rethread pushing equipment accomplished and pushed away the material, improved the precision that pushes away the material on the one hand, on the other hand has promoted material pushing efficiency, do not need operating personnel constantly to empty the material to pushing equipment in at the during operation, only need once only fill the feed bin can, the human use has been reduced, the feed bin can connect automatic feeding equipment simultaneously, preparation has been done for automated production.

Drawings

FIG. 1 is a schematic view of the entire structure of embodiment 1;

FIG. 2 is a structural view of a pusher apparatus body in embodiment 1;

FIG. 3 is a schematic view of the structure of a main body of the pusher apparatus in embodiment 1;

FIG. 4 is a structural view of a driving member in embodiment 1;

FIG. 5 is a structural view of a feed module in embodiment 1;

fig. 6 is a structural view of an active motor in embodiment 1.

Wherein: 1. a pusher apparatus main body; 11. a storage bin; 111. a discharge port; 12. a feeding pipe; 13. a hopper; 14. a pushing block; 15. a movable block; 16. a connecting rod; 2. a drive member; 21. a drive motor; 22. driving a lead screw; 23. a limiting block; 3. a lifting channel; 31. a feeding port; 32. a discharge port; 4. a feeding assembly; 41. a spiral conveying blade; 42. a delivery shaft; 43. a conveying space; 5. an active motor; 51. a driving gear; 52. a driven gear; 6. a pushing equipment body; 61. a feed belt; 62. a feeding motor; 63. a delivery wheel; 64. a material pushing shaft; 65. a speed reducer; 66. a material pushing rod; 67. and (5) discharging the material bin.

Detailed Description

The optical detection material pushing device provided by the embodiment has a structure shown in fig. 1-2, and comprises a material pushing device body 6, wherein the material pushing device body 6 comprises a hopper-shaped lower bin 67, an opening is formed in the bottom of the lower bin 67, a feeding belt 61 is arranged at the opening and used for conveying materials to a next unit, the feeding belt 61 is driven to rotate by conveying wheels 63 at two ends, and a feeding motor 62 is fixed on the material pushing device body 6.

As shown in fig. 1-2, the feeding motor 62 is linked with the conveying wheel 63 through a synchronous belt, a material pushing shaft 64 connected in a rotating manner is arranged above the feeding belt 61 and in a lower storage bin 67, material pushing rods 66 arranged irregularly are arranged on the side surface of the material pushing shaft 64, the material falls into the lower storage bin 67 from the main body of the material pushing device, secondary screening is performed through the material pushing shaft 64, and the material pushing shaft 64 is driven to rotate through motor reducers 65 arranged at two ends.

As shown in fig. 2-4, a material pushing device main body 1 is arranged above the material pushing device body 6, a storage bin 11 is integrally formed on the material pushing device main body 1, the storage bin 11 is communicated with an inlet of the material pushing device main body 1 through an obliquely arranged feeding pipe 12, a funnel-shaped hopper 13 is arranged at the inlet of the material pushing device main body 1, the feeding pipe 12 is communicated with the hopper 13, and the inner bottom surface of the storage bin 11 is horizontally arranged.

As shown in fig. 3-5, a pushing block 14 connected in the storage bin 11 in a sliding manner is arranged on one side of the storage bin 11, the pushing block 14 slides towards one side of the feeding pipe 12 to push the material into the feeding pipe 12, the storage bin 11 is integrally in a funnel shape, and a driving member 2 for driving the pushing block 14 to slide back and forth is further arranged in the storage bin 11. The bottom of the storage bin 11 is a discharge hole 32, the push block 14 completely pushes out and shields the discharge hole 32, the tail end of the push block 14 is located at the inlet position of the feeding pipe 12, one side, away from the feeding pipe 12, of the push block 14 is provided with a movable block 15 connected in the storage bin 11 in a sliding mode, and the movable block 15 is fixed with the push block 14 through a connecting rod 16.

As shown in fig. 4-6, the driving member 2 includes a driving motor 21 fixed outside the storage bin 11, a driving lead screw 22 is integrally formed on an output shaft of the driving motor 21, one end of the driving lead screw 22 penetrates through the movable block 15 and is in threaded connection with the movable block, and a limiting block 23 for abutting against and limiting the pushing block 14 is fixed at the tail end of the driving lead screw 22. The material pushing equipment main body 1 comprises a strip-shaped lifting channel 3, a feeding port 31 is formed in one side of the lifting channel 3, a discharging port 32 is formed in the other side of the lifting channel 3, the feeding port 31 and the discharging port 32 are respectively communicated with two ends of the lifting channel 3, and the feeding port 31 is communicated with the feeding pipe 12.

As shown in fig. 4-6, a feed assembly 4 for conveying material is also provided in the hoistway 3. The feeding component 4 comprises spiral conveying blades 41, conveying shafts 42 are arranged in the middle of the spiral conveying blades 41, two ends of each conveying shaft 42 are respectively and rotatably connected to two ends of the lifting channel 3, two groups of spiral conveying blades 41 are symmetrically arranged on the center line of the lifting channel 3, and the two groups of spiral conveying blades 41 are mutually staggered to form conveying spaces 43. The tail end of the conveying shaft 42 is fixed with driven gears 52 which are coaxially arranged, a driving gear 51 is arranged between the two driven gears 52, one side of the pushing equipment main body 1 is fixed with a driving motor 5, the driving gear 51 is coaxially fixed on an output shaft of the driving motor 5, and two sides of the driving gear 51 are respectively meshed with the two driven gears 52.

When an operator uses the material pushing equipment to feed, materials can be stored in the storage bin 11 firstly, the driving piece 2 in the storage bin 11 is started, the pushing block 14 can be driven to slide, the pushing block 14 integrally seals the discharge port 32 at the bottom of the storage bin 11, so when the pushing block 14 is withdrawn, the materials can fall from the discharge port 32, when the driving piece 2 drives the pushing block 14 to move outwards, the materials can be pushed to the hopper 13, and after entering the hopper 13, the materials fall to one side of the feeding pipe 12, and finally the materials are conveyed to a target position through the feeding assembly 4, so that the pushing is completed, a good material quantity control effect is achieved, and the control on the feeding quantity can be conveniently performed by the operator.

The material storage in the feed bin can be in the use, the material in the feed bin can quantitatively enter the material pushing equipment main body 1, then the material pushing equipment is used for pushing materials, on one hand, the material pushing precision is improved, on the other hand, the material pushing efficiency is improved, the operation personnel do not need to continuously pour the material into the material pushing equipment during working, the feed bin only needs to be filled with the material once, the manpower use is reduced, meanwhile, the feed bin can be connected with the automatic feeding equipment, and the preparation is made for automatic production.

In addition to the above embodiments, the present invention may have other embodiments. All the technical solutions formed by adopting equivalent substitutions or equivalent transformations fall within the protection scope claimed by the present invention.

Claims (6)

1. The utility model provides an optical detection blevile of push, includes blevile of push main part (1), its characterized in that: the utility model discloses a material pushing device, including material pushing device main part (1), material pushing device main part (1) is gone up the integrative storage silo (11) that is formed with, inlet pipe (12) intercommunication that storage silo (11) and the import of material pushing device main part (1) set up through the slope, the import position of material pushing device main part (1) is equipped with hopper-shaped hopper (13), inlet pipe (12) and hopper (13) intercommunication, bottom surface level sets up in storage silo (11), storage silo (11) one side is equipped with the promotion piece (14) of connection in storage silo (11) that slides, promote piece (14) and slide towards inlet pipe (12) one side, be used for with material propelling movement to inlet pipe (12) in, storage silo (11) wholly is the funnel shape, still be equipped with in storage silo (11) and be used for ordering about driving piece (2) that promote piece (14) reciprocal was slided.

2. An optical inspection pushing device as claimed in claim 1, wherein: storage silo (11) bottom is discharge gate (32), and it shields discharge gate (32) to promote piece (14) to push out the back completely, and promotes piece (14) end and be located inlet pipe (12) entrance position, and the one side that promotes piece (14) and keep away from inlet pipe (12) is equipped with movable block (15) of connection in storage silo (11) that slides, and movable block (15) are fixed through connecting rod (16) and promotion piece (14).

3. An optical inspection pushing device as claimed in claim 2, wherein: the driving piece (2) comprises a driving motor (21) fixed outside the storage bin (11), a driving lead screw (22) is integrally formed on an output shaft of the driving motor (21), one end of the driving lead screw (22) penetrates through the movable block (15) and is in threaded connection with the movable block, and a limiting block (23) which is used for abutting against and limiting the pushing block (14) is fixed at the tail end of the driving lead screw (22).

4. An optical inspection pushing device as claimed in claim 1, wherein: the material pushing equipment comprises a material pushing equipment body (1) and is characterized in that the material pushing equipment body comprises a lifting channel (3) in a strip shape, a feeding port (31) is formed in one side of the lifting channel (3), a discharging port (32) is formed in the other side of the lifting channel (3), the feeding port (31) and the discharging port (32) are communicated with the two ends of the lifting channel (3) respectively, the feeding port (31) is communicated with a hopper (13), and a feeding assembly (4) used for conveying materials is further arranged in the lifting channel (3).

5. An optical inspection pushing device as claimed in claim 4, wherein: the feeding assembly (4) comprises spiral conveying leaves (41), conveying shafts (42) are arranged in the middle of the spiral conveying leaves (41), two ends of each conveying shaft (42) are respectively connected to two ends of a lifting channel (3) in a rotating mode, the spiral conveying leaves (41) are symmetrically arranged on the center line of the lifting channel (3) in two groups, and the two groups of spiral conveying leaves (41) are staggered with each other to form conveying spaces (43).

6. An optical inspection pushing device as claimed in claim 5, wherein: the tail end of the conveying shaft (42) is fixedly provided with driven gears (52) which are coaxially arranged, a driving gear (51) is arranged between the two driven gears (52), one side of the pushing equipment main body (1) is fixedly provided with a driving motor (5), the driving gear (51) is coaxially fixed on an output shaft of the driving motor (5), and two sides of the driving gear (51) are respectively meshed with the two driven gears (52).

Images