CN109150652B

CN109150652B - Automatic detection assembly line of communication network switch based on block chain

Info

Publication number: CN109150652B
Application number: CN201810817576.5A
Authority: CN
Inventors: 储晓慧
Original assignee: Deep Blue Information Technology Tangshan Co ltd
Current assignee: Deep blue information technology (Tangshan) Co.,Ltd.
Priority date: 2018-07-24
Filing date: 2018-07-24
Publication date: 2022-03-04
Anticipated expiration: 2038-07-24
Also published as: CN109150652A

Abstract

The invention relates to an automatic detection assembly line of a communication network switch based on a block chain, which comprises a mounting rack, wherein an adjusting and conveying device is arranged between the inner walls of the mounting rack, a lifting control device is arranged in the middle of the mounting rack at equal intervals from front to back, a detection execution groove is arranged at the left end of the mounting rack at equal intervals from front to back, and a detection execution device is arranged in the detection execution groove. The invention can solve the problems that the switch needs to be manually carried to a specified detection position in the production test process of the switch, the switch needs to be manually detected one by one, the switch is not packaged before detection, the switch is easily damaged due to collision in the manual switch carrying process, the service life of the switch is influenced, the time consumed for manually detecting the switch one by one is long, the labor intensity is high, the working efficiency is low and the like.

Description

Automatic detection assembly line of communication network switch based on block chain

Technical Field

The invention relates to the field of block chain switch detection equipment, in particular to an automatic detection assembly line of a communication network switch based on a block chain.

Background

With the rapid development of mobile internet and big data application, the block chain technology application is increasing in recent years, and the block chain technology application and the popularization process play a crucial role as a network device for forwarding electric signals, the switch is a device for completing information exchange function in a communication system, and in a computer network system, the exchange concept is an improvement on a sharing working mode. The continuous development of social science and technology, the demand of switch is also constantly increasing, make the production of switch constantly increase, but only qualified switch could obtain consumer's favor, so the switch must all carry out strict detection before dispatching from the factory, but current switch needs the manual work to carry the appointed detection position with the switch in production test process, need the manual work to detect the switch one by one, the switch does not encapsulate before detecting, the in-process of manual work transport switch leads to the switch impaired because the collision easily, influence the life of switch, the manual work detects to the switch one by one and consumes time long, high in labor strength and low in work efficiency.

Disclosure of Invention

In order to solve the problems, the invention provides an automatic detection assembly line of a communication network switch based on a block chain, which can solve the problems that the switch needs to be manually carried to a specified detection position in the production test process, the switch needs to be manually detected one by one, the switch is not packaged before detection, the switch is easily damaged due to collision in the manual switch carrying process, the service life of the switch is influenced, the manual switch one by one detection consumes long time, the labor intensity is high, the working efficiency is low and the like, can realize the intelligent production detection function of the switch, does not need manual operation, cannot influence the service life of the switch, and has the advantages of time saving, low labor intensity and the like.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: the utility model provides a communication network switch automated inspection assembly line based on block chain, includes the mounting bracket, is provided with between the inner wall of mounting bracket and adjusts conveyor, and the middle part of mounting bracket is provided with lift control device from the past backward equidistant, and the left end of mounting bracket is provided with in the past backward equidistant and detects the execution groove, detects and is provided with in the execution groove and detects execution device.

The adjusting and conveying device comprises two conveying operation rollers which are arranged between the inner walls of the mounting frames through bearings, the two conveying operation rollers are symmetrically arranged on the front side and the rear side of the mounting frames, the conveying operation rollers arranged on the front side of the mounting frames are connected with output shafts of conveying operation motors through couplers, the conveying operation motors are arranged on the outer walls of the mounting frames through motor bases, the two conveying operation rollers are connected through adjusting conveying belts, and the adjusting conveying belts are symmetrically arranged on the left side and the right side of the conveying operation rollers; the manual work is placed the switch through current equipment and is adjusted on the conveyer belt, carries the switch forward backward movement to appointed position on the operation motor work control adjustment conveyer belt of carrying.

The lifting control device comprises a lifting control cylinder arranged on a mounting frame, the top end of the lifting control cylinder is arranged on a lifting mounting plate through a flange, a lifting rotating motor is arranged on the lifting mounting plate through a motor base, a lifting rotating frame is arranged on an output shaft of the lifting rotating motor, a rotating auxiliary rod is connected between the lifting rotating frame and the lifting mounting plate in a sliding fit mode, a control sliding roller is uniformly arranged between the inner walls of the lifting rotating frame from front to back through a bearing, the lifting rotating frame is provided with two control operation mechanisms which are symmetrically arranged on the front side and the rear side of the lifting rotating frame, the control operation mechanisms comprise control vertical plates arranged at the lower ends of the lifting rotating frame, control telescopic cylinders are arranged on the side walls of the control vertical plates, and the top ends of the control telescopic cylinders are arranged on the control telescopic frames through flanges, a control telescopic groove is arranged on the control telescopic frame, a control push rod is arranged in the control telescopic groove in a sliding fit mode, the control push rod is of a T-shaped structure, a control reset spring is arranged between the control push rod and the control telescopic frame, a control driven roller is arranged at one end of the control push rod, which is positioned outside the control telescopic groove, a control driving plate is arranged on the side wall of the control telescopic frame through a pin shaft, the control driving plate is connected with the top end of a control adjusting cylinder through a pin shaft, the bottom end of the control adjusting cylinder is arranged on the control telescopic frame through a pin shaft, the control driving plate is abutted against the outer wall of the control driven roller, the telescopic cylinder is controlled to drive the control telescopic frame to be adjusted to a proper position according to the specification of the interactive machine, the lifting control cylinder drives the control sliding roller to support the interactive machine, and the control adjusting cylinder drives the control driving plate to extrude the control driven roller, the lateral wall to the switch is supported to press fixedly under control reset spring's effect to the driven voller, and the work of lift rotation motor drives the switch and turns to under the effect of rotating the auxiliary rod, makes the socket on the switch towards the left side, then left control operation mechanism moves to initial position.

The detection executing device comprises a detection executing frame arranged in a detection executing groove in a sliding fit mode, a detection rotating motor is arranged on the side wall of one end, which is positioned outside the detection executing groove, of the detection executing frame through a motor base, a detection rotating gear is arranged on the output shaft of the detection rotating motor, a detection rack is meshed on the detection rotating gear, the detection rack is arranged on a mounting frame, a detection supporting frame is arranged on the side wall of one end, which is positioned inside the detection executing groove, of the detection executing frame through a detection telescopic rod, a detection reset spring is sleeved on the detection telescopic rod positioned between the detection executing frame and the detection supporting frame, a detection sliding groove is arranged on the side wall of the detection supporting frame, the detection sliding groove is connected with one end of a detection executing rod in a sliding fit mode, the other end of the detection executing rod is arranged on the detection executing frame through a pin shaft, and a detection adjusting cylinder is arranged between the detection executing rod and the detection executing frame through a pin shaft, a detection conversion roller is arranged between the inner walls of the detection support frames through bearings, the upper end of the detection conversion roller is connected with an output shaft of a detection conversion motor through a coupler, the detection conversion motor is arranged on the detection support frames through a motor base, detection plugs with different specifications are arranged on the outer walls of the detection conversion roller along the circumferential direction of the detection conversion roller, the detection execution frame is in an I-shaped structure, the width of the middle part of the detection execution frame is smaller than that of the detection execution groove, the detection rotation gear and the detection rack are controlled by the detection rotation motor to move in a matched mode so as to drive the detection execution frame to move and adjust in the detection execution groove, the detection conversion motor controls the detection plugs appointed on the detection conversion roller to move to a working position, the detection adjustment cylinder controls the detection execution rod to adjust the angle, and the detection execution rod changes the contact position with the detection sliding groove in the movement process, the detection support frame moves under the action of detecting the telescopic rod and detecting the reset spring, so that the detection plug is smoothly inserted into the socket on the exchanger, the detection plug is externally connected with the existing special detection equipment for the exchanger, manual operation is not needed, the exchanger can be ensured not to be damaged in the detection operation process, and the working efficiency is improved.

During operation, at first, the switch is placed on the adjusting conveyor belt through the existing equipment manually, the switch on the adjusting conveyor belt is controlled to move to a specified position from front to back by the work of the conveying operation motor, the lifting control device controls the telescopic cylinder to drive the control telescopic frame to be adjusted to a proper position according to the specification of the interactive machine, the lifting control cylinder drives the control sliding roller to support the interactive machine, the control adjusting cylinder drives the control drive plate to extrude the control driven roller, the control driven roller supports and presses and fixes the side wall of the switch under the action of the control reset spring, the lifting rotating motor works under the action of the rotating auxiliary rod to drive the switch to turn, a socket on the switch faces to the left side, then a left control operation mechanism moves to an initial position, and the detection execution device controls and detects the mutual matching motion between the rotating gear and the detection rack through the detection rotating motor so as to drive the detection execution frame to move and adjust in the detection execution groove The utility model discloses a switch intelligent production detection device, including a switch, a detection actuating cylinder, a detection switch motor control detection switching roller, appointed detection plug moves to operating position on detecting the switching roller, it detects actuating cylinder control and detects the actuating lever and carries out angle modulation, detect the actuating lever change and detect the contact position between the spout at the in-process of motion, it moves under the effect that detects the telescopic link and detect reset spring to detect the support frame, thereby make the smooth socket of inserting on the interchanger of detection plug in, the external current special check out test set of switch of detection plug, can realize the function that the intelligent production of switch detected.

The invention has the beneficial effects that:

1. the intelligent switch production detection device can solve the problems that the switch needs to be manually carried to a specified detection position in the production test process, the switch needs to be manually detected one by one, the switch is not packaged before detection, the switch is easily damaged due to collision in the manual switch carrying process, the service life of the switch is influenced, the time consumed for manually detecting the switch one by one is long, the labor intensity is high, the working efficiency is low and the like, can realize the intelligent production detection function of the switch, does not need manual operation, cannot influence the service life of the switch, and has the advantages of time saving, low labor intensity and the like, and the working efficiency is lower.

2. The lifting control device is designed, the switch can be controlled to be lifted and adjusted and rotated in an angle in the working process of the lifting control device, the position of the switch in the socket direction can be ensured, manual operation is not needed, the labor intensity of workers is reduced, and the working efficiency is improved.

3. The invention designs the detection execution device which can be matched with the lifting control device, so that the automatic detection operation can be carried out on the switch, manual detection is not needed, and the time is saved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the mounting bracket and the lift control device of the present invention;

fig. 3 is a schematic structural diagram between the mounting frame and the detection executing device of the present invention.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings.

As shown in fig. 1 to 3, an automatic detection assembly line for a communication network switch based on a block chain comprises an installation frame 1, wherein an adjusting and conveying device 2 is arranged between the inner walls of the installation frame 1, a lifting control device 3 is arranged in the middle of the installation frame 1 at equal intervals from front to back, a detection execution groove is arranged at the left end of the installation frame 1 at equal intervals from front to back, and a detection execution device 5 is arranged in the detection execution groove.

The adjusting and conveying device 2 comprises two conveying operation rollers 21 which are arranged between the inner walls of the mounting frame 1 through bearings, the two conveying operation rollers 21 are symmetrically arranged on the front side and the rear side of the mounting frame 1, the conveying operation roller 21 arranged on the front side of the mounting frame 1 is connected with an output shaft of a conveying operation motor 22 through a coupler, the conveying operation motor 22 is arranged on the outer wall of the mounting frame 1 through a motor base, the two conveying operation rollers 21 are connected through an adjusting conveying belt 24, and the adjusting conveying belt 24 is symmetrically arranged on the left side and the right side of the conveying operation roller 21; the exchange is manually placed on the adjusting conveyor belt 24 by existing equipment, and the conveying operation motor 22 is operated to control the exchange on the adjusting conveyor belt 24 to move from front to back to a designated position.

The lifting control device 3 comprises a lifting control cylinder 31 arranged on the mounting frame 1, the top end of the lifting control cylinder 31 is arranged on a lifting mounting plate 32 through a flange, a lifting rotating motor 33 is arranged on the lifting mounting plate 32 through a motor base, a lifting rotating frame 34 is arranged on an output shaft of the lifting rotating motor 33, a rotating auxiliary rod 35 is connected between the lifting rotating frame 34 and the lifting mounting plate 32 in a sliding fit mode, a control sliding roller 36 is uniformly arranged between the inner walls of the lifting rotating frame 34 from front to back through a bearing, two control operation mechanisms 37 are arranged on the lifting rotating frame 34, the two control operation mechanisms 37 are symmetrically positioned at the front side and the back side of the lifting rotating frame 34, each control operation mechanism 37 comprises a control vertical plate 371 arranged at the lower end of the lifting rotating frame 34, and a control telescopic cylinder 372 is arranged on the side wall of the control vertical plate 371, the top end of a control telescopic cylinder 372 is mounted on a control telescopic frame 373 through a flange, a control telescopic groove is arranged on the control telescopic frame 373, a control push rod 374 is arranged in the control telescopic groove in a sliding fit mode, the control push rod 374 is in a T-shaped structure, a control reset spring 375 is arranged between the control push rod 374 and the control telescopic frame 373, a control driven roller 376 is arranged at one end, located on the outer side of the control telescopic groove, of the control push rod 374, a control driving plate 377 is arranged on the side wall of the control telescopic frame 373 through a pin shaft, the control driving plate 377 is connected with the top end of a control adjusting cylinder 378 through a pin shaft, the bottom end of the control adjusting cylinder 378 is mounted on the control telescopic frame 373 through a pin shaft, the control driving plate 377 abuts against the outer wall of the control driven roller 376, the control telescopic cylinder 372 is controlled to drive the control telescopic frame 373 to be adjusted to a proper position according to the specification of the interactive machine, the lifting control cylinder 31 drives the control sliding roller 36 to support the interactive machine, the control adjusting cylinder 378 drives the control driving plate 377 to extrude the control driven roller 376, the control driven roller 376 presses and fixes the side wall of the switch under the action of the control return spring 375, the lifting rotating motor 33 works under the action of the rotating auxiliary rod 35 to drive the switch to turn, so that the jack on the switch faces to the left side, and then the left control operation mechanism 37 moves to the initial position.

The detection executing device 5 comprises a detection executing frame 51 arranged in a detection executing groove in a sliding fit mode, a detection rotating motor 52 is arranged on the side wall of one end, positioned at the outer side of the detection executing groove, of the detection executing frame 51 through a motor base, a detection rotating gear 53 is arranged on an output shaft of the detection rotating motor 52, a detection rack 54 is meshed on the detection rotating gear 53, the detection rack 54 is arranged on the mounting frame 1, a detection supporting frame 56 is arranged on the side wall of one end, positioned at the inner side of the detection executing groove, of the detection executing frame 51 through a detection telescopic rod 55, a detection reset spring 513 is sleeved on the detection telescopic rod 55 positioned between the detection executing frame 51 and the detection supporting frame 56, a detection sliding groove 57 is arranged on the side wall of the detection supporting frame 56, the inside of the detection sliding groove 57 is connected with one end of the detection executing rod 58 through a sliding fit mode, and the other end of the detection executing rod 58 is arranged on the detection executing frame 51 through a pin shaft, a detection adjusting cylinder 59 is arranged between the detection executing rod 58 and the detection executing frame 51 through a pin shaft, a detection converting roller 510 is arranged between the inner walls of the detection supporting frame 56 through a bearing, the upper end of the detection converting roller 510 is connected with the output shaft of a detection converting motor 511 through a coupling, the detection converting motor 511 is arranged on the detection supporting frame 56 through a motor base, a detection plug 512 with different specifications is arranged on the outer wall of the detection converting roller 510 along the circumferential direction, the detection executing frame 51 is in an I-shaped structure, the width of the middle part of the detection executing frame 51 is smaller than that of the detection executing groove, the detection rotating motor 52 controls the detection rotating gear 53 and the detection rack 54 to mutually cooperate to move so as to drive the detection executing frame 51 to move and adjust in the detection executing groove, and the detection converting motor 511 controls the detection plug 512 appointed on the detection converting roller 510 to move to a working position, detect actuating cylinder 59 control and detect actuating lever 58 and carry out angle modulation, detect actuating lever 58 and change and detect the contact position between the spout 57 at the in-process of motion, detect support frame 56 and detect telescopic link 55 and detect reset spring 513's effect and move down, thereby make the smooth socket of inserting on the interchanger of detection plug 512 in, detect the external special check out test set of present switch of plug 512, need not manual operation, can ensure that the switch can not damage at the detection operation in-process, and the work efficiency is improved.

During operation, firstly, the switch is manually placed on the adjusting conveying belt 24 through the existing equipment, the switch on the adjusting conveying belt 24 is controlled and adjusted to move to a specified position from front to back by the operation control of the conveying operation motor 22, the lifting control device 3 controls the telescopic cylinder 372 to drive the control telescopic frame 373 to be adjusted to a proper position according to the specification of the interactive machine, the lifting control cylinder 31 drives the control sliding roller 36 to support the interactive machine, the control adjusting cylinder 378 drives the control drive plate 377 to extrude the control driven roller 376, the control driven roller 376 presses and fixes the side wall of the switch under the action of the control reset spring 375, the lifting rotation motor 33 works under the action of the rotation auxiliary rod 35 to drive the switch to turn, so that the jack on the switch faces to the left side, then the left control operation mechanism 37 moves to an initial position, and the detection execution device 5 controls the detection rotating gear 53 and the detection rack 54 to move in a matched mode through the detection rotating motor 52, so that the detection rotating gear 53 and the detection rack 54 move in a matched mode The detection executing frame 51 is driven to move and adjust in the detection executing groove, the detection converting motor 511 controls the specified detection plug 512 on the detection converting roller 510 to move to a working position, the detection adjusting cylinder 59 controls the detection executing rod 58 to adjust the angle, the detection executing rod 58 changes the contact position with the detection sliding groove 57 in the moving process, the detection supporting frame 56 moves under the action of the detection telescopic rod 55 and the detection reset spring 513, so that the detection plug 512 is smoothly inserted into the socket on the exchanger, the detection plug 512 is externally connected with the existing special detection equipment for the exchanger, the intelligent production detection function of the exchanger is realized, the problems that the exchanger needs to be manually carried to the specified detection position in the production test process, the exchanger needs to be manually detected one by one, and the exchanger is not packaged before detection are solved, the in-process of artifical transport switch leads to the switch impaired because of the collision easily, influences the life of switch, and the manual work detects the switch one by one and consumes time long, and intensity of labour is big with work efficiency low grade difficult problem, has reached the purpose.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a communication network switch automated inspection assembly line based on block chain, includes mounting bracket (1), its characterized in that: an adjusting and conveying device (2) is arranged between the inner walls of the mounting rack (1), the middle part of the mounting rack (1) is provided with lifting control devices (3) at equal intervals from front to back, the left end of the mounting rack (1) is provided with detection execution grooves at equal intervals from front to back, and detection execution devices (5) are arranged in the detection execution grooves;

the lifting control device (3) comprises a lifting control cylinder (31) arranged on the mounting frame (1), the top end of the lifting control cylinder (31) is arranged on a lifting mounting plate (32) through a flange, a lifting rotating motor (33) is arranged on the lifting mounting plate (32) through a motor base, a lifting rotating frame (34) is arranged on an output shaft of the lifting rotating motor (33), a rotating auxiliary rod (35) is connected between the lifting rotating frame (34) and the lifting mounting plate (32) in a sliding fit mode in a linking mode, a control sliding roller (36) is uniformly arranged between the inner walls of the lifting rotating frame (34) from front to back through a bearing, two control operation mechanisms (37) are arranged on the lifting rotating frame (34), and the two control operation mechanisms (37) are symmetrically positioned on the front side and the back side of the lifting rotating frame (34);

the detection executing device (5) comprises a detection executing frame (51) arranged in a detection executing groove in a sliding fit mode, a detection rotating motor (52) is arranged on the side wall of one end, located at the outer side of the detection executing groove, of the detection executing frame (51) through a motor base, a detection rotating gear (53) is arranged on an output shaft of the detection rotating motor (52), a detection rack (54) is meshed on the detection rotating gear (53), the detection rack (54) is arranged on the mounting frame (1), a detection supporting frame (56) is arranged on the side wall of one end, located at the inner side of the detection executing groove, of the detection executing frame (51) through a detection telescopic rod (55), a detection reset spring (513) is sleeved on the detection telescopic rod (55) located between the detection executing frame (51) and the detection supporting frame (56), and a detection sliding groove (57) is arranged on the side wall of the detection supporting frame (56), the inner part of the detection sliding groove (57) is connected with one end of a detection executing rod (58) in a sliding fit mode, the other end of the detection executing rod (58) is installed on a detection executing frame (51) through a pin shaft, a detection adjusting cylinder (59) is installed between the detection executing rod (58) and the detection executing frame (51) through a pin shaft, a detection conversion roller (510) is installed between the inner walls of the detection supporting frames (56) through a bearing, the upper end of the detection conversion roller (510) is connected with an output shaft of a detection conversion motor (511) through a coupler, the detection conversion motor (511) is installed on the detection supporting frames (56) through a motor base, and detection plugs (512) with different specifications are arranged on the outer wall of the detection conversion roller (510) along the circumferential direction of the detection conversion roller;

adjust conveyor (2) including installing two transport operation roller (21) between mounting bracket (1) inner wall through the bearing, two transport operation roller (21) symmetric positions are both sides around mounting bracket (1), the transport operation roller (21) that is located mounting bracket (1) front side goes up to link to each other through the output shaft of shaft coupling with transport operation motor (22), carry operation motor (22) to install on the outer wall of mounting bracket (1) through the motor cabinet, link to each other through adjusting conveyer belt (24) between two transport operation roller (21), adjust conveyer belt (24) symmetric positions and carry the left and right sides of operation roller (21).

2. The blockchain-based communication network switch autodetection pipeline of claim 1, wherein: the control operation mechanism (37) comprises a control vertical plate (371) arranged at the lower end of a lifting rotating frame (34), a control telescopic cylinder (372) is arranged on the side wall of the control vertical plate (371), the top end of the control telescopic cylinder (372) is arranged on a control telescopic frame (373) through a flange, a control telescopic groove is formed in the control telescopic frame (373), a control push rod (374) is arranged in the control telescopic groove in a sliding fit mode, the control push rod (374) is of a T-shaped structure, a control reset spring (375) is arranged between the control push rod (374) and the control telescopic frame (373), a control driven roller (376) is arranged at one end of the control push rod (374) positioned at the outer side of the control telescopic groove, a control driving plate (377) is arranged on the side wall of the control telescopic frame (373) through a pin shaft, the control driving plate (377) is connected with the top end of a control adjusting cylinder (378) through a pin shaft, the bottom end of the control adjusting cylinder (378) is arranged on the control expansion bracket (373) through a pin shaft.

3. The blockchain-based communication network switch autodetection pipeline of claim 1, wherein: the detection execution frame (51) is of an I-shaped structure, and the width of the middle part of the detection execution frame (51) is smaller than that of the detection execution groove.

4. The blockchain-based communication network switch autodetection pipeline of claim 2, wherein: the control drive plate (377) abuts against the outer wall of the control driven roller (376).