CN212402593U - Carrier streamline system with high precision - Google Patents

Abstract

The utility model discloses a carrier streamline system with high precision, which comprises a mounting plate, an adjusting unit, a moving unit and an ejection unit, wherein four corresponding supporting blocks are fixed on the lower side surface of the mounting plate, a connecting plate is fixed on the lower side surfaces of the four supporting blocks, a mounting groove is arranged on the upper side surface of the mounting plate, a first belt conveyor is arranged in the mounting groove, a limiting frame is fixed on the upper side surface of the connecting plate, a second belt conveyor is arranged in the limiting frame, the adjusting unit comprises a sliding block, a limiting rod, a clamping plate, a supporting frame, a servo motor, a rotating shaft and a connecting rod, two corresponding fixing grooves are arranged at the right end of the upper side surface of the mounting plate, the sliding block is connected in the fixing grooves in a sliding manner, so that the stable conveying of products can be realized, and the products, thereby greatly enhancing the precision of the product during the reflux.

Description

Carrier streamline system with high precision

Technical Field

The utility model relates to an industrial production technical field specifically is a carrier streamline system that precision is high.

Background

In industrial production, automation equipment has begun to be popularized on a large scale, a production line plays an important role in a plurality of automation equipment, a return line belongs to another form of the production line, automatic return of a product carrier can be realized, the automation equipment has the characteristics of high continuity, strong parallelism and the like, in some automation equipment, a common production line cannot meet the requirement of product return, so a return line is needed to be applied to convey a product, and how to design a return line which effectively improves production efficiency and precision becomes a problem which an enterprise has to pay attention to, at present, in order to realize return of a carrier of a product in the industry, two different return lines are adopted, one is a return line with a relatively complex structure, return line air pipes and signal lines are very many, the control and routing are very difficult, the other is not so complex in structure, but the production beat is very slow, and the product cannot be smoothly transported and is very easily deviated when reflowing.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide a carrier streamline system that precision is high, can realize steadily transporting of product to the skew can not appear in the product when the backward flow, thereby precision when having strengthened the product backward flow greatly can effectively solve the problem in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: a carrier streamline system with high precision comprises a mounting plate, an adjusting unit, a moving unit and an ejection unit;

mounting a plate: four corresponding supporting blocks are fixed on the lower side surface of the mounting plate, a connecting plate is fixed on the lower side surfaces of the four supporting blocks, a mounting groove is formed in the upper side surface of the mounting plate, a first belt conveyor is installed inside the mounting groove, a limiting frame is fixed on the upper side surface of the connecting plate, and a second belt conveyor is installed inside the limiting frame;

an adjusting unit: the adjusting unit comprises a sliding block, a limiting rod, a clamping plate, a supporting frame, a servo motor, a rotating shaft and a connecting rod, the right end of the upper side surface of the mounting plate is provided with two corresponding fixing grooves, the inside of each fixing groove is connected with a sliding block in a sliding way, two corresponding through holes are arranged in the middle of the sliding block, limiting rods are connected inside the through holes in a sliding manner and fixed inside the fixing grooves, a clamping plate is fixed on the upper side surface of the sliding block, a supporting frame is fixed on the upper side surface of the mounting plate, a servo motor is arranged on the upper side surface of the supporting frame, an output shaft of the servo motor is fixed on the upper end surface of the rotating shaft, two corresponding connecting rods are hinged on the circumferential surface of the rotating shaft, one ends of the two connecting rods, which are far away from the rotating shaft, are hinged on the upper side surfaces of the two clamping plates, and the position of a product is adjusted by arranging an adjusting unit;

a mobile unit: the moving unit is arranged between the mounting plate and the connecting plate, is matched with the adjusting unit and drives the product to move by arranging the moving unit;

an ejection unit: the ejection unit is arranged at the right end of the upper side surface of the connecting plate, is matched with the moving unit, and ejects the product on the upper side surface of the placing block to the second belt conveyor through the ejection unit;

wherein: still include the control switch group, the control switch group is installed on the leading flank of mounting panel, the output of external power source is connected to the input electricity of control switch group, first belt conveyor, second belt conveyor and servo motor's input is connected to the output electricity of control switch group respectively.

Further, the mobile unit contains motor, movable block, places piece, threaded rod and spacing post, the motor is installed on the downside of connecting plate, be fixed with on the last side of movable block and place the piece, the preceding side portion of movable block has seted up threaded hole, the inside threaded connection of threaded hole has the threaded rod, the output shaft of motor is connected to the lower extreme of threaded rod, the upper end of threaded rod is rotated and is connected on the downside of mounting panel, the back side portion of movable block has seted up the slide opening, the inside sliding connection of slide opening has spacing post, spacing post is fixed between mounting panel and connecting plate, the output of input electric connection control switch group of motor.

Further, ejecting unit contains fixed plate, electric telescopic handle and roof, the right-hand member of side on the connecting plate is fixed to the fixed plate, install electric telescopic handle on the right flank of fixed plate, electric telescopic handle's flexible arm is fixed on the right flank of roof, electric telescopic handle's input electricity connection control switch group's output.

The product mounting device is characterized by further comprising a limiting plate, wherein the limiting plate is fixed on the right side wall inside the mounting groove formed in the upper side of the mounting plate, and the range of the product moving is limited by the limiting plate.

Furthermore, be fixed with four corresponding landing legs on the downside of connecting plate, be fixed with the chassis on the downside of landing leg, support the connecting plate through setting up landing leg and chassis.

Compared with the prior art, the beneficial effects of the utility model are that: this carrier streamline system that precision is high has following benefit:

placing the product on the upper side surface of a first belt conveyor, controlling the first belt conveyor to work through a control switch group, driving the product to move rightwards to the upper side surface of a placing block by the first belt conveyor, controlling a servo motor to rotate through the control switch group, driving a rotating shaft to rotate by the servo motor, driving two connecting rods to move by the rotating shaft, driving two clamping plates to move, adjusting the position of the product by the two clamping plates, controlling the motor to rotate through the control switch group after the position of the product is adjusted, driving a threaded rod to rotate by the motor, driving a moving block to move downwards by the threaded rod, driving the placing block to move downwards by the moving block to move downwards, driving the product to move downwards by the placing block, and turning off the motor after the placing block moves to a position parallel to a second belt conveyor, then control electric telescopic handle work through control switch group, electric telescopic handle work drives the roof and removes left with the product top to the second belt conveyor on the side to accomplish the backward flow, make through above device the utility model discloses can realize that the product steadily transports to the product can not appear the skew when the backward flow, thereby precision when having strengthened the product backward flow greatly.

Drawings

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

FIG. 2 is a schematic view of the structure of the adjusting unit of the present invention;

fig. 3 is a left side sectional view of the present invention;

fig. 4 is a front side sectional view of the present invention.

In the figure: the device comprises a mounting plate 1, a support block 2, a connecting plate 3, a first belt conveyor 4, a limit frame 5, a second belt conveyor 6, an adjusting unit 7, a sliding block 71, a limit rod 72, a clamping plate 73, a support frame 74, a servo motor 75, a rotating shaft 76, a connecting rod 77, a moving unit 8, a motor 81, a moving block 82, a placing block 83, a threaded rod 84, a limit column 85, an ejection unit 9, a fixing plate 91, an electric telescopic rod 92, a top plate 93, a control switch group 10, a limit plate 11, support legs 12 and a chassis 13.

Detailed Description

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. 1-4, the present invention provides a technical solution: a carrier streamline system with high precision comprises a mounting plate 1, an adjusting unit 7, a moving unit 8 and an ejection unit 9;

mounting plate 1: four corresponding supporting blocks 2 are fixed on the lower side surface of the mounting plate 1, a connecting plate 3 is fixed on the lower side surfaces of the four supporting blocks 2, a mounting groove is formed in the upper side surface of the mounting plate 1, a first belt conveyor 4 is installed inside the mounting groove, a limiting frame 5 is fixed on the upper side surface of the connecting plate 3, and a second belt conveyor 6 is installed inside the limiting frame 5;

the adjusting unit 7: the adjusting unit 7 comprises a sliding block 71, a limiting rod 72 and a clamping plate 73, the support frame 74, the servo motor 75, the rotating shaft 76 and the connecting rods 77, two corresponding fixing grooves are formed in the right end of the upper side face of the mounting plate 1, a sliding block 71 is connected to the inside of each fixing groove in a sliding mode, two corresponding through holes are formed in the middle of the sliding block 71, limiting rods 72 are connected to the inside of each through hole in a sliding mode, clamping plates 73 are fixed to the upper side face of the sliding block 71, the support frame 74 is fixed to the upper side face of the mounting plate 1, the servo motor 75 is installed on the upper side face of the support frame 74, an output shaft of the servo motor 75 is fixed to the upper end face of the rotating shaft 76, two corresponding connecting rods 77 are hinged to the circumferential face of the rotating shaft 76, one ends, far away from the rotating shaft 76, of the two connecting rods 77 are hinged to;

the moving unit 8: the moving unit 8 is arranged between the mounting plate 1 and the connecting plate 3, the moving unit 8 is matched with the adjusting unit 7, the moving unit 8 comprises a motor 81 and a moving block 82, the automatic product placing device comprises a placing block 83, a threaded rod 84 and a limiting column 85, a motor 81 is installed on the lower side surface of a connecting plate 3, the placing block 83 is fixed on the upper side surface of a moving block 82, a threaded hole is formed in the front side edge portion of the moving block 82, the threaded rod 84 is in threaded connection with the inner side of the threaded hole, the lower end of the threaded rod 84 is connected with the output shaft of the motor 81, the upper end of the threaded rod 84 is rotatably connected to the lower side surface of a mounting plate 1, a sliding hole is formed in the rear side edge portion of the moving block 82, the limiting column 85 is connected to the inside of the sliding hole in a sliding mode, the limiting column 85 is fixed between the mounting plate;

the ejection unit 9: the ejection unit 9 is installed at the right end of the upper side surface of the connecting plate 3, the ejection unit 9 is matched with the moving unit 8, the ejection unit 9 comprises a fixing plate 91, an electric telescopic rod 92 and a top plate 93, the fixing plate 91 is fixed at the right end of the upper side surface of the connecting plate 3, the electric telescopic rod 92 is installed on the right side surface of the fixing plate 91, a telescopic arm of the electric telescopic rod 92 is fixed on the right side surface of the top plate 93, the input end of the electric telescopic rod 92 is electrically connected with the output end of the control switch group 10, and a product on the upper side surface of the placing block 83 is ejected to the;

wherein: the automatic feeding device further comprises a control switch group 10, the control switch group 10 is installed on the front side face of the installation plate 1, the input end of the control switch group 10 is electrically connected with the output end of an external power supply, and the output end of the control switch group 10 is electrically connected with the input ends of the first belt conveyor 4, the second belt conveyor 6 and the servo motor 75 respectively.

Wherein: still include limiting plate 11, limiting plate 11 is fixed on the inside right side wall of mounting groove that the mounting panel 1 upside was seted up, restricts the scope that the product removed through setting up limiting plate 11.

Wherein: four corresponding supporting legs 12 are fixed on the lower side surface of the connecting plate 3, a chassis 13 is fixed on the lower side surface of each supporting leg 12, and the connecting plate 3 is supported by arranging the supporting legs 12 and the chassis 13.

When in use: placing products on the upper side surface of a first belt conveyor 4, controlling the first belt conveyor 5 to work through a control switch group 10, driving the products to move rightwards to the upper side surface of a placing block 83 by the work of the first belt conveyor 5, controlling a servo motor 75 to rotate through the control switch group 10, driving a rotating shaft 76 to rotate by a servo motor 7, driving two connecting rods 77 to move by the rotating shaft 76, driving two clamping plates 73 to move by the two connecting rods 77, adjusting the positions of the products by the two clamping plates 73, controlling the motor 81 to rotate by the control switch group 10 after the positions of the products are adjusted, driving a threaded rod 84 to rotate by the motor 81, driving a moving block 82 to move downwards by the threaded rod 84, driving the placing block 83 to move downwards by the moving block 82 to move downwards, driving the products to move downwards by the placing block 83 to move downwards, and after the placing block 83 moves to a position parallel to a second belt conveyor 6, close motor 81, then through control switch group 10 control electric telescopic handle 92 work, electric telescopic handle 92 work drives roof 93 and removes left with the product top to second belt conveyor 6 on the last side to accomplish the backward flow, make through above device the utility model discloses can realize that the product steadily transports to the product can not appear squinting when the backward flow, thereby has strengthened the precision when the product backward flow greatly.

It should be noted that the control switch group 10 disclosed in the present embodiment controls the operation of the first belt conveyor 4, the second belt conveyor 6, the servo motor 75, the motor 81 and the electric telescopic rod 92 by a method commonly used in the prior art.

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 (5)

1. The utility model provides a carrier streamline system that precision is high which characterized in that: comprises a mounting plate (1), an adjusting unit (7), a moving unit (8) and an ejection unit (9);

mounting plate (1): the lower side surface of the mounting plate (1) is fixedly provided with four corresponding supporting blocks (2), the lower side surfaces of the four supporting blocks (2) are fixedly provided with a connecting plate (3), the upper side surface of the mounting plate (1) is provided with a mounting groove, a first belt conveyor (4) is arranged in the mounting groove, the upper side surface of the connecting plate (3) is fixedly provided with a limiting frame (5), and a second belt conveyor (6) is arranged in the limiting frame (5);

adjusting unit (7): the adjusting unit (7) comprises a sliding block (71), a limiting rod (72), a clamping plate (73), a supporting frame (74), a servo motor (75), a rotating shaft (76) and a connecting rod (77), wherein two corresponding fixing grooves are formed in the right end of the upper side surface of the mounting plate (1), the sliding block (71) is connected in a sliding mode inside the fixing grooves, two corresponding through holes are formed in the middle of the sliding block (71), the limiting rod (72) is connected in a sliding mode inside the through holes, the two limiting rods (72) are fixed inside the fixing grooves, the clamping plate (73) is fixed on the upper side surface of the sliding block (71), the supporting frame (74) is fixed on the upper side surface of the mounting plate (1), the servo motor (75) is installed on the upper side surface of the supporting frame (74), and an output shaft of the servo motor (75) is fixed on the, two corresponding connecting rods (77) are hinged to the circumferential surface of the rotating shaft (76), and one ends, far away from the rotating shaft (76), of the two connecting rods (77) are hinged to the upper side surfaces of the two clamping plates (73);

mobile unit (8): the moving unit (8) is arranged between the mounting plate (1) and the connecting plate (3), and the moving unit (8) is matched with the adjusting unit (7);

ejection unit (9): the ejection unit (9) is arranged at the right end of the upper side surface of the connecting plate (3), and the ejection unit (9) is matched with the moving unit (8);

wherein: still include control switch group (10), control switch group (10) are installed on the leading flank of mounting panel (1), the output of external power source is connected to the input electricity of control switch group (10), the input of first belt conveyor (4), second belt conveyor (6) and servo motor (75) is connected respectively to the output of control switch group (10).

2. The carrier streamline system with high precision as claimed in claim 1, wherein: the moving unit (8) comprises a motor (81), a moving block (82), a placing block (83), a threaded rod (84) and a limiting column (85), the motor (81) is arranged on the lower side surface of the connecting plate (3), the upper side surface of the moving block (82) is fixed with a placing block (83), a threaded hole is arranged at the front side edge part of the moving block (82), a threaded rod (84) is connected with the inner thread of the threaded hole, the lower end of the threaded rod (84) is connected with the output shaft of the motor (81), the upper end of the threaded rod (84) is rotatably connected to the lower side surface of the mounting plate (1), a sliding hole is arranged at the rear side edge part of the moving block (82), a limit column (85) is connected inside the sliding hole in a sliding way, the limiting column (85) is fixed between the mounting plate (1) and the connecting plate (3), the input end of the motor (81) is electrically connected with the output end of the control switch group (10).

3. The carrier streamline system with high precision as claimed in claim 1, wherein: the ejection unit (9) comprises a fixing plate (91), an electric telescopic rod (92) and a top plate (93), the fixing plate (91) is fixed at the right end of the upper side face of the connecting plate (3), the electric telescopic rod (92) is installed on the right side face of the fixing plate (91), a telescopic arm of the electric telescopic rod (92) is fixed on the right side face of the top plate (93), and the input end of the electric telescopic rod (92) is electrically connected with the output end of the control switch group (10).

4. The carrier streamline system with high precision as claimed in claim 1, wherein: the mounting structure is characterized by further comprising a limiting plate (11), wherein the limiting plate (11) is fixed on the right side wall inside the mounting groove formed in the upper side of the mounting plate (1).

5. The carrier streamline system with high precision as claimed in claim 1, wherein: four corresponding supporting legs (12) are fixed on the lower side face of the connecting plate (3), and a chassis (13) is fixed on the lower side face of each supporting leg (12).

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