CN108205639B - Automatic code scanning equipment for streamline carrier - Google Patents

Abstract

The invention discloses automatic code scanning equipment for streamline carriers, which comprises a base box, a conveying mechanism for conveying the carriers, a first code scanning gun, a second code scanning gun, a power mechanism and a human-computer interface, wherein the conveying mechanism is arranged on the top side of the base box, and the first code scanning gun is connected to the conveying mechanism to scan information codes on the carriers; the second code scanning gun is arranged above the conveying mechanism, and can be driven by the power mechanism to move in position so as to scan the information codes of the product pieces arranged on the carrier; in addition, the first code scanning gun and the second code scanning gun are respectively connected with the human-computer interface; the automatic code scanning equipment can scan and recheck the information codes on the carrier and the product pieces, has high control and intelligent degree, high running speed and high production efficiency, can accurately scan and recheck the product information, and effectively ensures the product yield.

Description

Automatic code scanning equipment for streamline carrier

Technical Field

The invention relates to the technical field of code scanning equipment, and particularly provides automatic code scanning equipment for a streamline carrier.

Background

With the rapid development of processing technology of high-end industrial products at home and abroad and the increasing intensity of market competition, the control of product quality has become a serious issue in the production process of products. Therefore, after the product is manufactured and assembled at each stage, the product needs to be detected to determine whether the product is an OK product.

At present, the traditional operation mode when the product is checked for shipment is as follows: 1) And (5) manually controlling the code scanning gun to scan and recheck the product information. 2) And checking the product shipment information by naked eyes. However, the above-mentioned traditional operation method not only needs to consume a great deal of manpower and material resources, but also increases the production cost; and the inspection accuracy and the working efficiency are low.

In view of this, the present invention has been made.

Disclosure of Invention

In order to overcome the defects, the invention provides the automatic code scanning equipment for the streamline carrier, which has the advantages of high control and intelligence degree, high running speed and high production efficiency, can accurately scan and recheck the product information, and effectively ensures the product yield.

The technical scheme adopted by the invention for solving the technical problems is as follows: the automatic code scanning equipment for the streamline carrier comprises a base box, a conveying mechanism for conveying the carrier, a first code scanning gun, a second code scanning gun, a power mechanism and a human-computer interface, wherein the conveying mechanism is arranged on the top side of the base box, and the first code scanning gun is connected to the conveying mechanism to scan the information codes on the carrier; the second code scanning gun is arranged above the conveying mechanism, and can be driven by the power mechanism to move in position so as to scan the information codes of the product pieces arranged on the carrier; in addition, the first code scanning gun and the second code scanning gun are respectively connected with the human-computer interface.

As a further improvement of the present invention, the conveying mechanism adopts a linear conveying mechanism, and defines the conveying direction thereof as the X-axis direction;

the first code scanning gun is connected to the conveying mechanism, and can also reciprocate along the Y-axis direction for positioning;

the power mechanism is provided with a first power mechanism and a second power mechanism, wherein the first power mechanism is arranged on the top side of the base box through a stand and is close to the conveying mechanism, the second power mechanism is connected to the first power mechanism, and the second power mechanism can be driven by the first power mechanism to perform reciprocating movement positioning along the X-axis direction; the second code scanning gun is connected to the second power mechanism, and the second code scanning gun can be driven by the second power mechanism to move reciprocally and locate along the Y-axis direction.

As a further improvement of the invention, the conveying mechanism comprises two supporting vertical frames, two strip-shaped mounting plate frames, two annular conveying belts for placing carriers and a driving assembly, wherein the two supporting vertical frames are arranged on the top side of the base box at intervals along the X-axis direction, the two mounting plate frames transversely and side by side are bridged on the top side of the two supporting vertical frames, the distance between the two mounting plate frames can be adjusted, the two annular conveying belts are respectively and correspondingly movably arranged on the two mounting plate frames, and the two annular conveying belts can also synchronously operate under the driving of the driving assembly.

As a further improvement of the invention, the structure for realizing the distance between the two mounting plate frames can be adjusted, which comprises the following steps: a first sliding rail extending along the Y-axis direction is respectively positioned and laid on the top side of each supporting vertical frame; defining two mounting plate frames as a first mounting plate frame and a second mounting plate frame respectively, wherein the first mounting plate frame spans and is positioned and connected to the top sides of the two supporting vertical frames, and the second mounting plate frame spans and is connected to the two first sliding rails in a sliding manner;

the device is characterized by further comprising at least one driving cylinder, wherein the at least one driving cylinder is respectively positioned and arranged on the top side of the base box, piston rods of the at least one driving cylinder extend along the Y-axis direction, and the piston rods of the at least one driving cylinder are respectively connected with the second mounting plate frame in a positioning mode.

As a further improvement of the invention, the structure for realizing synchronous operation of the two annular conveyor belts under the drive of the driving assembly is as follows: the driving assembly comprises a driving motor, a transmission shaft, two synchronous wheels, a synchronous belt, two driving wheels and two driven wheels, wherein the driving motor is positioned on the first mounting plate frame, the transmission shaft extends along the Y-axis direction and is movably mounted between one sides of the two mounting plate frames in the length direction, the two synchronous wheels are respectively and fixedly sleeved on a power output shaft of the driving motor and the transmission shaft, and the two synchronous wheels are also in transmission connection through the synchronous belt; the driving wheels are respectively arranged on the transmission shafts in a locating mode and are respectively close to the positions of the two mounting plate frames, the driven wheels are respectively rotatably arranged on the other sides of the two mounting plate frames in the length direction, one driving wheel and one driven wheel corresponding to the same mounting plate frame also jointly form a transmission wheel set, and the two annular conveying belts are respectively correspondingly sleeved on the two transmission wheel sets.

The blocking assembly is used for blocking the carrier and comprises a blocking air cylinder and a blocking block, the blocking air cylinder is positioned on the first mounting plate frame, the blocking block is arranged between the two mounting plate frames and is in positioning connection with a piston rod of the blocking air cylinder, and the blocking block can be driven by the blocking air cylinder to move reciprocally and position along the Y-axis direction.

As a further improvement of the invention, the structure for realizing the reciprocating movement positioning of the first code scanning gun along the Y-axis direction is as follows: the automatic code scanning device is characterized by comprising a transmission rod, wherein the transmission rod extends along the Y-axis direction and movably penetrates through the first mounting plate frame, one shaft end of the transmission rod is also in positioning connection with a piston rod of the blocking cylinder, a vertical supporting rod is also in positioning connection with the other shaft end of the transmission rod, and the first code scanning gun is in positioning connection with the upper side of the vertical supporting rod.

As a further improvement of the invention, the first power mechanism comprises a first servo motor, a first bearing frame and a first ball screw assembly, wherein the first servo motor and the first bearing frame are respectively positioned and installed on the top side of the stand, the first ball screw assembly is provided with a first screw and a first nut which is arranged on the first screw in a sliding manner, the first screw extends along the X-axis direction and is movably installed on the first bearing frame, and meanwhile, one shaft end of the first screw is also positioned and connected with a power output shaft of the first servo motor through a coupler;

the second power mechanism comprises a mounting plate, a second bearing frame, a second servo motor and a second ball screw assembly, wherein the mounting plate is horizontally and slidably mounted on the top side of the first bearing frame, the lower side surface of the mounting plate is also in positioning connection with the first nut, the second bearing frame and the second servo motor are respectively and fixedly mounted on the upper side surface of the mounting plate, the second ball screw assembly is provided with a second screw and a second nut slidably mounted on the second screw, the second screw extends along the Y-axis direction and is movably mounted on the second bearing frame, and meanwhile one shaft end of the second screw is also in positioning connection with a power output shaft of the second servo motor through a coupling;

the second code scanning gun is connected to the second nut in a positioning mode.

As a further improvement of the invention, a connecting plate is also provided, and the second code scanning gun is positioned and connected on the second nut through the connecting plate.

As a further development of the invention, the man-machine interface is arranged on the top side of the base box.

The beneficial effects of the invention are as follows: (1) the automatic code scanning equipment is used for scanning and rechecking the information codes on the carrier and the product pieces, so that the intelligent degree is high, the running speed is high, the production efficiency is high, the product information can be precisely scanned and rechecked, and the product yield is effectively ensured. (2) When the automatic code scanning equipment is operated, excessive operators are not needed, and the production cost is effectively saved.

Drawings

FIG. 1 is a schematic diagram of a partially exploded construction of an automatic code scanning device for a streamline carrier according to the present invention;

FIG. 2 is a schematic diagram of an assembly structure of the conveying mechanism and the first code scanning gun according to the present invention;

FIG. 3 is a schematic view of the assembly structure of the power mechanism and the second code scanning gun according to the present invention.

The following description is made with reference to the accompanying drawings:

1-base box 2-conveying mechanism

20-support stand 21-mounting plate frame

22-endless conveyor belt 23-driving cylinder

240-driving motor 241-transmission shaft

242-driving wheel 243-driven wheel

250-blocking cylinder 251-blocking block

26-vertical strut 3-first code scanning gun

4-second code scanning gun 5-power mechanism

50-first servomotor 51-first ball screw assembly

52-mounting plate 53-second receiving frame

54-second servomotor 55-second ball screw assembly

56-connecting plate 6-man-machine interface

7-vertical frame

Detailed Description

The preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Example 1:

fig. 1 is a schematic diagram of a partially exploded structure of an automatic code scanning device for a streamline carrier according to the present invention. The streamline carrier automatic code scanning equipment comprises a base box 1, a conveying mechanism 2 for conveying carriers, a first code scanning gun 3, a second code scanning gun 4, a power mechanism 5 and a human-computer interface 6, wherein the conveying mechanism 2 is arranged on the top side of the base box 1, and the first code scanning gun 3 is connected to the conveying mechanism 2 to scan information codes on the carriers; the second code scanning gun 4 is arranged above the conveying mechanism 2, and the second code scanning gun 4 can also be driven by the power mechanism 5 to move in position so as to scan the information codes of the product pieces arranged on the carrier; in addition, the first code scanner 3 and the second code scanner 4 are also connected to the human-computer interface 6 (via wired or wireless communication).

In this embodiment, preferably, referring to fig. 2, the conveying mechanism 2 is a linear conveying mechanism, and the conveying direction is defined as the X-axis direction; the first code scanning gun 3 is connected to the conveying mechanism 2, and the first code scanning gun 3 can also perform reciprocating movement positioning along the Y-axis direction;

referring to fig. 3, the power mechanism 5 has a first power mechanism and a second power mechanism, wherein the first power mechanism is disposed on the top side of the housing 1 and near the conveying mechanism 2 through a stand 7, the second power mechanism is connected to the first power mechanism, and the second power mechanism can be driven by the first power mechanism to perform reciprocating movement and positioning along the X-axis direction; the second code scanning gun 4 is connected to the second power mechanism, and the second code scanning gun 4 can also be driven by the second power mechanism to perform reciprocating movement positioning along the Y-axis direction.

Further preferably, the conveying mechanism 2 includes two supporting uprights 20, two elongated mounting plate frames 21, two annular conveyor belts 22 for placing carriers, and a driving assembly, wherein the two supporting uprights 20 are positioned on the top side of the base box 1 along the X-axis direction at intervals, the two mounting plate frames 21 are transversely connected on the top side of the supporting uprights 20 in parallel, the distance between the two mounting plate frames 21 can be adjusted, the two annular conveyor belts 22 are respectively and correspondingly movably mounted on the two mounting plate frames 21, and the two annular conveyor belts 22 can be driven by the driving assembly to perform synchronous operation.

Further preferably, the structure for realizing the adjustment of the distance between the two mounting plates 21 is as follows: a first sliding rail extending along the Y-axis direction is respectively positioned and laid on the top side of each supporting stand 20; defining two mounting plate frames 21 as a first mounting plate frame and a second mounting plate frame, wherein the first mounting plate frame spans and is positioned and connected on the top sides of the two supporting uprights 20, and the second mounting plate frame spans and is slidingly connected on the two first sliding rails;

at least one driving cylinder 23 is further arranged, the at least one driving cylinder 23 is respectively positioned and arranged on the top side of the base box 1, piston rods of the at least one driving cylinder 23 extend along the Y-axis direction, and the piston rods of the at least one driving cylinder 23 are respectively positioned and connected with the second mounting plate frame.

Further preferably, the structure for implementing synchronous operation of the two endless conveyor belts 22 under the drive of the driving assembly is as follows: the driving assembly comprises a driving motor 240, a transmission shaft 241, two synchronizing wheels, a synchronizing belt, two driving wheels 242, and two driven wheels 243, wherein the driving motor 240 is positioned on the first mounting plate frame, the transmission shaft 241 extends along the Y-axis direction and is movably mounted between one sides of the two mounting plate frames 21 in the length direction, the two synchronizing wheels are respectively and fixedly sleeved on a power output shaft of the driving motor 240 and the transmission shaft 241, and the two synchronizing wheels are also connected through the synchronizing belt; the two driving wheels 242 are respectively positioned and sleeved on the transmission shaft 241 and are respectively close to the two mounting plate frames 21, the two driven wheels 243 are respectively rotatably mounted on the other sides of the two mounting plate frames 21 in the length direction, one driving wheel 242 and one driven wheel 243 corresponding to the same mounting plate frame 21 also jointly form a transmission wheel set, and the two annular conveying belts 22 are respectively sleeved on the two transmission wheel sets.

Still preferably, the blocking assembly is further provided to block the carrier, the blocking assembly includes a blocking cylinder 250 and a blocking block 251, the blocking cylinder 250 is positioned on the first mounting plate frame, the blocking block 251 is disposed between the two mounting plate frames 21 and is connected with a piston rod of the blocking cylinder 250 in a positioning manner, and the blocking block 251 can also be driven by the blocking cylinder 250 to perform reciprocating movement positioning along the Y-axis direction.

Further preferably, the structure for implementing the reciprocating movement positioning of the first code scanning gun 3 along the Y-axis direction is as follows: the device is provided with a transmission rod which extends along the Y-axis direction and movably penetrates through the first mounting plate frame, and meanwhile, one shaft end of the transmission rod is also in positioning connection with a piston rod of the blocking cylinder 250, the other shaft end of the transmission rod is also in positioning connection with a vertical supporting rod 26, and the first code scanning gun 3 is in positioning connection with the upper side of the vertical supporting rod 26.

Further preferably, the first power mechanism comprises a first servo motor 50, a first receiving frame and a first ball screw assembly 51, wherein the first servo motor 50 and the first receiving frame are respectively positioned and installed on the top side of the vertical frame 7, the first ball screw assembly 51 is provided with a first screw and a first nut slidingly arranged on the first screw, the first screw extends along the X-axis direction and is movably installed on the first receiving frame, and meanwhile, one shaft end of the first screw is also positioned and connected with a power output shaft of the first servo motor 50 through a coupler;

the second power mechanism comprises a mounting plate 52, a second receiving frame 53, a second servo motor 54 and a second ball screw assembly 55, wherein the mounting plate 52 is horizontally and slidably mounted on the top side of the first receiving frame, and meanwhile, the lower side surface of the mounting plate 52 is also in positioning connection with the first nut, the second receiving frame 53 and the second servo motor 54 are respectively and fixedly mounted on the upper side surface of the mounting plate 52, the second ball screw assembly 55 is provided with a second screw and a second nut slidably mounted on the second screw, the second screw extends along the Y-axis direction and is movably mounted on the second receiving frame 53, and meanwhile, one shaft end of the second screw is also in positioning connection with a power output shaft of the second servo motor 54 through a coupling;

the second code scanning gun 4 is connected to the second nut in a positioning way.

Further preferably, a connecting plate 56 is further provided, and the second code scanning gun 4 is positioned and connected to the second nut through the connecting plate 56.

Further preferably, the man-machine interface 6 is arranged on the top side of the housing 1.

In summary, the automatic code scanning equipment disclosed by the invention can scan and recheck the information codes on the carrier and the product pieces, has the advantages of high control intelligence degree, high running speed and high production efficiency, and can accurately scan and recheck the product information, so that the product yield is effectively ensured. In addition, when the automatic code scanning equipment is operated, excessive operators are not needed, and the production cost is effectively saved.

The above embodiments are merely illustrative of the efficacy of the invention, and not intended to limit it, but it should be pointed out that it will be obvious to those skilled in the art that various modifications and variations can be made without departing from the technical principles of the invention, and these modifications and variations shall be regarded as being within the scope of the invention.

Claims (6)

1. Automatic code scanning equipment of streamline carrier, its characterized in that: the device comprises a base box (1), a conveying mechanism (2) for conveying a carrier, a first code scanning gun (3), a second code scanning gun (4), a power mechanism (5) and a human-computer interface (6), wherein the conveying mechanism (2) is arranged on the top side of the base box (1), and the first code scanning gun (3) is connected to the conveying mechanism (2) so as to scan information codes on the carrier; the second code scanning gun (4) is arranged above the conveying mechanism (2), and the second code scanning gun (4) can also move under the drive of the power mechanism (5) so as to scan the information codes of the product pieces arranged on the carrier; in addition, the first code scanning gun (3) and the second code scanning gun (4) are respectively connected to the human-computer interface (6), and the conveying mechanism (2) adopts a linear conveying mechanism and defines the conveying direction as the X-axis direction;

the first code scanning gun (3) is connected to the conveying mechanism (2), and the first code scanning gun (3) can also perform reciprocating movement positioning along the Y-axis direction;

the power mechanism (5) is provided with a first power mechanism and a second power mechanism, wherein the first power mechanism is arranged on the top side of the base box (1) through a vertical frame (7) and is close to the conveying mechanism (2), the second power mechanism is connected to the first power mechanism, and the second power mechanism can be driven by the first power mechanism to reciprocate and position along the X-axis direction; the second yard rifle (4) of sweeping is connected in on the second power unit, just second yard rifle (4) of sweeping can also be in carry out reciprocating movement location along Y axle direction under the drive of second power unit, conveying mechanism (2) are including two support grudging post (20), two banding mounting panel frames (21), two annular conveyer belt (22) and a drive assembly that supply the carrier to place, wherein, two support grudging post (20) are in along X axle direction interval arrangement's location setting on the top side of frame case (1), two cross-over connection in two of mounting panel frames (21) is horizontal side by side on the top side of support grudging post (20), and two interval between mounting panel frames (21) can also be adjusted, two annular conveyer belt (22) respectively corresponding movable mounting is two on mounting panel frames (21), and two annular conveyer belt (22) can also be in synchronous operation under drive assembly's drive, realize that interval between two mounting panel frames (21) can also be the structure of adjusting: a first sliding rail extending along the Y-axis direction is respectively and fixedly laid on the top side of each supporting vertical frame (20); defining two mounting plate frames (21) as a first mounting plate frame and a second mounting plate frame respectively, wherein the first mounting plate frame spans and is positioned and connected to the top sides of the two supporting uprights (20), and the second mounting plate frame spans and is connected to the two first sliding rails in a sliding manner;

the device is also provided with at least one driving cylinder (23), wherein the at least one driving cylinder (23) is respectively positioned and arranged on the top side of the base box (1), piston rods of the at least one driving cylinder (23) extend along the Y-axis direction, the piston rods of the at least one driving cylinder (23) are respectively positioned and connected with the second mounting plate frame, the first power mechanism comprises a first servo motor (50), a first bearing frame and a first ball screw assembly (51), the first servo motor (50) and the first bearing frame are respectively positioned and arranged on the top side of the stand (7), the first ball screw assembly (51) is provided with a first screw and a first nut which is arranged on the first screw in a sliding manner, the first screw extends along the X-axis direction and is movably mounted on the first bearing frame, and meanwhile, one shaft end of the first screw is also positioned and connected with a power output shaft of the first servo motor (50) through a coupling;

the second power mechanism comprises a mounting plate (52), a second bearing frame (53), a second servo motor (54) and a second ball screw assembly (55), wherein the mounting plate (52) is horizontally and slidably mounted on the top side of the first bearing frame, meanwhile, the lower side surface of the mounting plate (52) is also in positioning connection with the first nut, the second bearing frame (53) and the second servo motor (54) are respectively and fixedly mounted on the upper side surface of the mounting plate (52), the second ball screw assembly (55) is provided with a second screw and a second nut which is slidably arranged on the second screw, the second screw extends along the Y-axis direction and is movably mounted on the second bearing frame (53), and meanwhile, one shaft end of the second screw is also in positioning connection with a power output shaft of the second servo motor (54) through a coupling;

the second code scanning gun (4) is connected to the second nut in a positioning way.

2. The streamline carrier automatic code scanning device according to claim 1, wherein: the structure for realizing synchronous operation of the two annular conveyor belts (22) under the drive of the driving assembly is as follows: the driving assembly comprises a driving motor (240), a transmission shaft (241), two synchronous wheels, a synchronous belt, two driving wheels (242) and two driven wheels (243), wherein the driving motor (240) is positioned on the first mounting plate frame, the transmission shaft (241) extends along the Y-axis direction and is movably mounted between one sides of the two mounting plate frames (21) in the length direction, the two synchronous wheels are respectively and fixedly sleeved on a power output shaft of the driving motor (240) and the transmission shaft (241), and the two synchronous wheels are also in transmission connection through the synchronous belt; the two driving wheels (242) are respectively arranged on the transmission shafts (241) in a locating and sleeving manner and are respectively close to the positions of the two mounting plate frames (21), the two driven wheels (243) are respectively arranged on the other sides of the two mounting plate frames (21) in the length direction in a rotating manner, one driving wheel (242) and one driven wheel (243) corresponding to the same mounting plate frame (21) also jointly form a transmission wheel set, and the two annular conveying belts (22) are respectively sleeved on the two transmission wheel sets in a corresponding manner.

3. The streamline carrier automatic code scanning device according to claim 1, wherein: the blocking assembly is further arranged for blocking the carrier and comprises a blocking air cylinder (250) and a blocking block (251), the blocking air cylinder (250) is positioned on the first mounting plate frame, the blocking block (251) is arranged between the two mounting plate frames (21) and is connected with a piston rod of the blocking air cylinder (250) in a positioning mode, and the blocking block (251) can be driven by the blocking air cylinder (250) to move reciprocally and position along the Y-axis direction.

4. The automated code scanning apparatus of claim 3, wherein: realize first sweep sign indicating number rifle (3) can also follow the structure that Y axle direction carried out reciprocating motion location and be: the automatic code scanning device is provided with a transmission rod, the transmission rod extends along the Y-axis direction and movably penetrates through the first mounting plate frame, and meanwhile one shaft end of the transmission rod is also in positioning connection with a piston rod of the blocking cylinder (250), a vertical supporting rod (26) is also in positioning connection with the other shaft end of the transmission rod, and the first code scanning gun (3) is in positioning connection with the upper side of the vertical supporting rod (26).

5. The streamline carrier automatic code scanning device according to claim 1, wherein: the second code scanning gun is also provided with a connecting plate (56), and the second code scanning gun (4) is connected to the second nut in a positioning way through the connecting plate (56).

6. The streamline carrier automatic code scanning device according to claim 1, wherein: the human-computer interface (6) is arranged on the top side of the base box (1).