CN214651345U - Intelligent screening machine - Google Patents

Abstract

The utility model discloses an intelligence sieve material machine, transport mechanism and be used for the tilting mechanism of centre gripping and the material on the upset transport mechanism that are connected including the shale shaker charging tray, with the discharge gate of shale shaker charging tray, the transport mechanism end is equipped with the moving mechanism who is used for shifting the material. The utility model provides an intelligence sieve material machine, during the material got into transport mechanism in order one by one through shale shaker charging tray sifting, and adjust into unified orientation through tilting mechanism, at last transferred to next process through transport mechanism, sieve material process was incessant in succession, need not to collect the material that will not conform to the orientation requirement and carry out repetitious screening many times, greatly promoted sieve material efficiency, was favorable to modernized continuity production.

Description

Intelligent screening machine

[ technical field ] A method for producing a semiconductor device

The utility model relates to an automation equipment technical field specifically is an intelligence sieve material machine.

[ background of the invention ]

In the industrial fine production, for some materials with specific requirements, such as a lens used for protecting a mobile phone or a camera, the lens protective cover needs to be screened and distributed before use to avoid the conditions of scratching, dirt and bruising of the lens in the processes of assembly, test, transportation and the like, so that the materials are oriented in a consistent, ordered and orderly arrangement, and the subsequent operation process is facilitated. Generally sieve the material through artifical among the prior art, but artifical sieve material inefficiency is difficult to satisfy the demand of modernized continuous production, also has to adopt the shale shaker charging tray to sieve the material at present, however the orientation of meson visor is inconsistent behind the shale shaker charging tray sieve material, consequently need not sieve the material again after collecting the meson visor that is not conform to the orientation requirement, so can accomplish through repeated sieve material many times, sieve material efficiency is lower, is unfavorable for modernized continuous production.

[ Utility model ] content

An object of the utility model is to provide an intelligence sieve material machine solves the problem of sieve material inefficiency among the prior art.

In order to solve the above problem, the utility model provides a technical scheme as follows:

intelligent material screening machine, including the transport mechanism that the discharge gate of shale shaker charging tray is connected and be used for centre gripping and the tilting mechanism of the material on the upset transport mechanism, the transport mechanism end is equipped with the moving mechanism who is used for shifting the material.

The intelligent material screening machine comprises a clamping part for clamping materials and an overturning driving device for driving the clamping part to overturn.

The turnover mechanism further comprises a material pushing mechanism used for pushing the material to the clamping portion and a feeding mechanism used for pushing the material from the clamping portion to the conveying mechanism.

According to the intelligent material screening machine, the clamping part is located at the intersection of the transmission direction of the transmission mechanism and the extension line of the pushing direction of the material pushing mechanism, and the pushing direction of the material feeding mechanism faces towards the transmission mechanism.

As above, the material pushing mechanism comprises a pushing rod and a material pushing driving device used for driving the pushing rod to extend into the clamping part.

According to the intelligent material sieving machine, the feeding mechanism comprises a push plate and a feeding driving device for driving the push plate to extend into the clamping part.

According to the intelligent material screening machine, the conveying mechanism comprises a first conveying belt and a second conveying belt which are arranged in parallel, one end of the first conveying belt is connected with a discharge hole of a material tray of the vibrating screen, the other end of the first conveying belt is connected with the turnover mechanism, one end of the second conveying belt is connected with the turnover mechanism, and the other end of the second conveying belt is connected with the moving mechanism.

According to the intelligent material screening machine, the moving mechanism comprises the grabbing part and a moving device for driving the grabbing part to move.

The intelligent material screening machine comprises a moving device, wherein the moving device comprises a first moving assembly used for driving a grabbing part to move up and down, a second moving assembly used for driving the first moving assembly to move left and right is arranged on the first moving assembly, and a third moving assembly used for driving the second moving assembly to move back and forth is arranged on the second moving assembly.

As above, the moving mechanism further comprises a rotation driving device connected with the grabbing part and used for driving the grabbing part to rotate along the axial direction, and a second visual detection device used for detecting the material placing angle state, wherein the second visual detection device is electrically connected with the rotation driving device.

Compared with the prior art, the utility model discloses there is following advantage:

the utility model provides an intelligence sieve material machine, during the material got into transport mechanism in order one by one through shale shaker charging tray sifting, and adjust into unified orientation through tilting mechanism, at last transferred to next process through transport mechanism, sieve material process was incessant in succession, need not to collect the material that will not conform to the orientation requirement and carry out repetitious screening many times, greatly promoted sieve material efficiency, was favorable to modernized continuity production.

[ description of the drawings ]

Fig. 1 is a first schematic structural diagram of an embodiment of the present invention.

Fig. 2 is an enlarged view of a portion a in fig. 1.

Fig. 3 is a schematic structural diagram ii according to an embodiment of the present invention.

Fig. 4 is an enlarged view of a portion B in fig. 3.

Fig. 5 is a schematic view of a part of the structure of the embodiment of the present invention.

[ detailed description ] embodiments

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

Referring to fig. 1 to 5, the present embodiment provides an intelligent material sieving machine.

Intelligent material screening machine, including shale shaker charging tray 1, transport mechanism 2 and the tilting mechanism 4 that is used for centre gripping and the material on the upset transport mechanism 2 of being connected with the discharge gate of shale shaker charging tray 1, 2 ends of transport mechanism are equipped with moving mechanism 5 that is used for shifting the material. The intelligence sieve material machine that this embodiment provided, the material is sieved through shale shaker charging tray 1 and is become orderly entering transport mechanism 2 one by one to adjust into unified orientation through tilting mechanism 4, at last through transport mechanism 2 transferred to next process, sieve material process is incessant in succession, need not to collect the material that is not conform to the orientation requirement and carry out repetitious screening many times, greatly promotes sieve material efficiency, is favorable to modernized continuity production.

Further, the turnover mechanism 4 includes a clamping portion 41 for clamping the material, a turnover driving device 42 for driving the clamping portion 41 to turn over, and a first visual detection device 43 for detecting the positive and negative states of the material, and the first visual detection device 43 is electrically connected to the turnover driving device 42. Through the positive and negative state of first visual detection device 43 detection material, if the discovery material is not conform to the positive and negative state requirement, then trigger upset drive arrangement 42 and drive clamping part 41 and rotate in order to overturn the material, make the material orientation meet the requirements to make the sieve material continuous incessant, need not to be not conform to the material collection that the orientation required and carry out repetitious screening many times, greatly promote sieve material efficiency, be favorable to modernized continuity production.

Further, the turnover mechanism 4 further includes a material pushing mechanism 44 for pushing the material to the clamping portion 41, and a material feeding mechanism 45 for pushing the material from the clamping portion 41 to the conveying mechanism 2. The clamping part 41 is located at the intersection of the extension lines of the conveying direction of the conveying mechanism 2 and the pushing direction of the material pushing mechanism 44, and the pushing direction of the material feeding mechanism 45 faces the conveying mechanism 2. The material is driven by the conveying mechanism 2 to move from the vibrating screen tray 1 to the turnover mechanism 4, when the first visual detection device 43 detects that the material meets the requirements of a positive state and a negative state, the material pushing mechanism 44 pushes the material to the clamping part 41, and then the material feeding mechanism 45 pushes the material from the clamping part 41 to the conveying mechanism 2; when the first visual detection device 43 detects that the material does not meet the requirement of the positive and negative states, the material pushing mechanism 44 pushes the material to the clamping portion 41, the overturning driving device 42 drives the clamping portion 41 to overturn, and then the feeding mechanism 45 pushes the overturned material from the clamping portion 41 to the conveying mechanism 2; through the tight fit of the clamping part 41, the turnover driving device 42, the first visual detection device 43, the material pushing mechanism 44 and the feeding mechanism 45, the material screening process of the material can be continuously completed in the material conveying process, and the working efficiency is high. In addition, the clamping part 41 is positioned at the intersection of the extension lines of the conveying direction of the conveying mechanism 2 and the pushing direction of the material pushing mechanism 44, and the pushing direction of the material feeding mechanism 45 faces the conveying mechanism 2, so that the layout of the clamping part 41, the conveying mechanism 2, the material pushing mechanism 44 and the material feeding mechanism 45 is more compact, the pushing time is favorably shortened, and the material screening efficiency is further improved.

Preferably, the pushing direction of the pushing mechanism 44 and the conveying direction of the conveying mechanism 2 are located on the same straight line, and the pushing direction of the feeding mechanism 45 is perpendicular to the pushing direction of the pushing mechanism 44 and the conveying direction of the conveying mechanism 2, respectively. Pushing equipment 44 can be with material propelling movement to clamping part 41 through simple translation propelling movement, and feeding mechanism 45 can be with material propelling movement to transport mechanism 2 from clamping part 41 propelling movement through simple translation propelling movement, simple structure, and the operation is more convenient, is favorable to shortening the propelling movement time, improves sieve material efficiency.

Further, the pushing mechanism 44 includes a pushing rod 441 and a pushing driving device 442 for driving the pushing rod 441 to extend into the clamping portion 41. The feeding mechanism 45 comprises a pushing plate 451 and a feeding driving device 452 for driving the pushing plate 451 to extend into the clamping portion 41. As shown in fig. 5, in this embodiment, the pushing driving device 442 and the feeding driving device 452 are both cylinders, the cylinders are fixed by a connecting plate, the pushing rod 441 and the pushing plate 451 are both disposed at the telescopic ends of the corresponding cylinders, and the pushing rod 441 and the pushing plate 451 are driven to move by the telescopic action of the telescopic ends of the cylinders, so that the pushing structure is simple and the pushing effect is good.

Further, the clamping portion 41 includes a first clamping plate 411 and a second clamping plate 412 which are oppositely disposed, a stopper 4111 is disposed at one end of the first clamping plate 411, which is close to the second clamping plate 412, and a through hole 4121, through which the stopper 4111 passes, is disposed on the second clamping plate 412. In this embodiment, the turnover driving device 42 is an electric motor, the first clamping plate 411 and the second clamping plate 412 are disposed in parallel at an output end of the electric motor, a connecting member for mounting the first clamping plate 411 and the second clamping plate 412 is disposed at the output end, the first clamping plate 411 and the second clamping plate 412 are connected to the output end of the electric motor through the connecting member, and the first clamping plate 411 and the second clamping plate 412 can move close to or away from each other to clamp or loosen a material. The stopper 4111 disposed on the first clamping plate 411 effectively stops the material to prevent the material from being pushed excessively by the pushing mechanism 44 when being pushed into the clamping portion 41 and being unable to be pushed to the conveying mechanism 2 by the feeding mechanism 45. Meanwhile, the through hole 4121 for the block 4111 to pass through is formed in the second clamping plate 412, so that the first clamping plate 411 and the second clamping plate 412 are effectively prevented from being limited by the block 4111 during clamping, and the material is clamped conveniently.

Furthermore, a positioning piece 413 is arranged on the clamping part 41, and the positioning piece 413 is electrically connected with the overturning driving device 42. Acquire the angle of the 41 upset of clamping part through spacer 413 conveniently, when the clamping part 41 overturns to appointed angle, trigger upset drive arrangement 42 and stop and drive clamping part 41 and reset, make rotation angle more accurate, sieve material efficiency is higher.

Further, the first visual inspection device 43 includes a camera 431 and a fixing component 432. The fixing assembly 432 includes a fixing plate 4321 and a column 4322, wherein one end of the fixing plate 4321 is connected to the camera device 431, and the other end thereof is sleeved on the column 4322 and can rotate relative to the column 4322. The material is detected by the image pickup device 431, so as to trigger the turnover driving device 42 to drive the clamping portion 41 to rotate, thereby turning over the material.

Further, the conveying mechanism 2 comprises a first conveying belt 21 and a second conveying belt 22 which are arranged in parallel, one end of the first conveying belt 21 is connected with a discharge hole of the vibrating screen material tray 1, the other end of the first conveying belt is connected with the turnover mechanism 4, one end of the second conveying belt 22 is connected with the turnover mechanism 4, and the other end of the second conveying belt is connected with the moving mechanism 5. First conveyer belt 21 and second conveyer belt 22 set up side by side and make transport mechanism 2 arrange compacter, more do benefit to and shorten transit time, improve sieve material efficiency, and occupation space is littleer moreover, and it is more convenient to use.

Further, the moving mechanism 5 includes a gripping portion 51 and a moving device 52 for moving the gripping portion 51. The moving device 52 comprises a first moving component 521 for driving the grabbing part 51 to move up and down, a second moving component 522 for driving the first moving component 521 to move left and right is arranged on the first moving component 521, and a third moving component 523 for driving the second moving component 522 to move back and forth is arranged on the second moving component 522. The moving mechanism 5 further comprises a rotation driving device 53 connected with the grabbing part 51 and used for driving the grabbing part 51 to rotate along the axial direction, and a second visual detection device 54 used for detecting the material placing angle state, wherein the second visual detection device 54 is electrically connected with the rotation driving device 53. When the material is conveyed to the moving mechanism 5 along the conveying mechanism 2, the second visual detection device 54 detects the angle placing state of the material, the moving device 52 drives the grabbing part 51 to move and grab the material, the grabbing part 51 is driven to rotate through the rotation driving device 53 so as to adjust the angle placing state of the material, then the grabbing part 51 is driven by the moving device 52 to grab the material and transfer to the next process, in the embodiment, the rotation driving device 53 adopts a motor, the grabbing part 51 is a suction nozzle connected with a cylinder, the second visual detection device 54 is identical in structure with the first visual detection device 43, the camera device is installed on a fixed assembly, the material is subjected to imaging detection through the camera device, and the rotation driving device 53 is triggered to drive the grabbing part 51 to rotate so as to align the material.

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

Claims (8)

1. Intelligence sieve material machine, its characterized in that: including shale shaker charging tray (1), transport mechanism (2) be connected with the discharge gate of shale shaker charging tray (1) and be used for centre gripping and tilting mechanism (4) of the material on (2), transport mechanism (2) end is equipped with moving mechanism (5) that are used for shifting the material, tilting mechanism (4) are including clamping part (41) that are used for the centre gripping material and be used for driving upset drive arrangement (42) of clamping part (41) upset, tilting mechanism (4) are still including being used for pushing material pushing to pushing equipment (44) of clamping part (41) and being used for pushing the material from clamping part (41) to feeding mechanism (45) of transport mechanism (2).

2. The intelligent screening machine of claim 1, wherein: the clamping part (41) is positioned at the intersection of the extension lines of the conveying direction of the conveying mechanism (2) and the pushing direction of the pushing mechanism (44), and the pushing direction of the feeding mechanism (45) faces the conveying mechanism (2).

3. The intelligent screening machine of claim 1, wherein: the pushing mechanism (44) comprises a pushing rod (441) and a pushing driving device (442) used for driving the pushing rod (441) to extend into the clamping portion (41).

4. The intelligent screening machine of claim 1, wherein: the feeding mechanism (45) comprises a push plate (451) and a feeding driving device (452) for driving the push plate (451) to extend into the clamping part (41).

5. The intelligent screening machine of claim 1, wherein: the conveying mechanism (2) comprises a first conveying belt (21) and a second conveying belt (22) which are arranged in parallel, one end of the first conveying belt (21) is connected with a discharge hole of the vibrating screen material tray (1), the other end of the first conveying belt is connected with the turnover mechanism (4), one end of the second conveying belt (22) is connected with the turnover mechanism (4), and the other end of the second conveying belt is connected with the moving mechanism (5).

6. The intelligent screening machine of claim 1, wherein: the moving mechanism (5) comprises a grabbing part (51) and a moving device (52) for driving the grabbing part (51) to move.

7. The intelligent screening machine of claim 6, wherein: the moving device (52) comprises a first moving assembly (521) for driving the grabbing part (51) to move up and down, a second moving assembly (522) for driving the first moving assembly (521) to move left and right is arranged on the first moving assembly (521), and a third moving assembly (523) for driving the second moving assembly (522) to move front and back is arranged on the second moving assembly (522).

8. The intelligent screening machine of claim 6, wherein: the moving mechanism (5) further comprises a rotation driving device (53) connected with the grabbing part (51) and used for driving the grabbing part (51) to rotate along the axial direction, and a second visual detection device (54) used for detecting the material placing angle state, wherein the second visual detection device (54) is electrically connected with the rotation driving device (53).

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