CN219448343U - Round tube stirring mechanism - Google Patents

Abstract

The utility model discloses a round tube material stirring mechanism, which comprises: the surface of the workbench is connected with a circular tube body; a first transport line mounted on the left side of the table surface; the second conveying line is arranged on the surface of the workbench; the utility model moves to the front of the second conveying line until a group of round pipe bodies between the shifting block and the pushing plate; the second cylinder drives the push plate and the shifting block to restore to the initial position, then the second conveying line and the first conveying line are started, and the rest circular tube bodies are conveyed to the tail end of the second conveying line more than the first conveying line in a reciprocating manner; the limiting plate and the limiting roller can limit the circular tube body, and when the circular tube body contacts the sensor, whether the circular tube body is provided with materials or not can be sensed; more circular tube bodies can be stored on the surface of the workbench and the surface of the first conveying line, the operation is convenient, and the circular tube bodies are randomly swung to the surface of the workbench and the surface of the first conveying line.

Description

Round tube stirring mechanism

Technical Field

The utility model relates to the technical field of material stirring, in particular to a round tube material stirring mechanism.

Background

The round tube is a steel material with two open ends and a hollow concentric circle section, the length of the round tube is larger than that of the round tube, and the round tube can be used for pipelines, thermal equipment, mechanical industry, petroleum geological drilling, containers, chemical industry and special purposes, so that the round tube is required to be stirred, the round tube is transported on the surface of a transportation belt, and when the round tube is transported, most round tubes are directly transported to a designated position by the transportation belt, so that the round tube can incline on the surface of the transportation belt in the process of transporting the round tube, and further the round tube material is blocked. Therefore, the round tubes are required to be sequentially shifted, and the round tubes are prevented from being blocked.

In the related art, a round pipe is placed on the surface of a conveying belt, then the conveying belt is started, the conveying belt drives the round pipe to move on the surface of the conveying belt, and accordingly the round pipe is conveyed to a designated position, and then the round pipe is collected.

However, when placing at the pipe at the conveyer belt surface at present, because the pipe is placed at random at the in-process of placing to the pipe is at the in-process of transportation, can appear the pipe slope, thereby can lead to the pipe material to cause the situation of jam at the surface of conveyer belt, and then can't realize dialling the material in proper order to the pipe.

Disclosure of Invention

The utility model aims to provide a round tube material stirring mechanism so as to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a round tube kick-out mechanism, comprising:

the surface of the workbench is connected with a circular tube body;

a first transport line mounted on the left side of the table surface;

the second conveying line is arranged on the surface of the workbench;

limiting plates are connected to two sides of the second conveying line at equal intervals, a plurality of groups of limiting plates are hinged to limiting rollers in the limiting plates, the limiting plates and the limiting rollers are convenient to limit the round tube body on the surface of the second conveying line, and the limiting rollers can enable the round tube body to move more smoothly.

The end-to-end connection of second transportation line has the location clamp splice, and the centre gripping is placed to the location clamp splice be convenient for to the pipe body, one side of location clamp splice is connected with places the piece, the sensor is connected in the inside of placing the piece, places the piece and is convenient for place the sensor, just the one end and the pipe body contact of sensor, and whether the sensor can detect the surface of second transportation line has the pipe body.

The sensor is arranged at the tail end of the second conveying line and is used for sensing the surface of the circular tube body on the second conveying line;

the left side of workstation is provided with the kickoff, the kickoff is used for promoting the pipe body to let the pipe body transport to the surface of second transportation line from the surface of first transportation line.

The stirring mechanism comprises a placing table connected to the left side of the workbench, a pushing plate is connected to the surface of the placing table, stirring blocks are connected to one side of the surface of the pushing plate at equal intervals, the stirring blocks are convenient for limiting the positions of round pipe bodies, the round pipe bodies are connected between two groups of stirring blocks, a concave plate is connected to the other side of the surface of the pushing plate, a sliding block is connected to the bottom of the concave plate, a first air cylinder is connected to the bottom of the concave plate on the other side of the surface of the pushing plate, the output end of the first air cylinder is connected to the other side of the surface of the pushing plate, the output end of the first air cylinder drives the pushing plate and the stirring blocks to move when the first air cylinder is started, and a driving mechanism is arranged below the concave plate on the top of the placing table.

Compared with the prior art, the utility model has the beneficial effects that: the output end of the first cylinder pushes the pushing plate to move, under the movement of the pushing plate, the pushing plate drives a plurality of groups of shifting blocks to move, the shifting blocks and the pushing plate drive the round pipe body to move to the surface of the first conveying line, then the output end of the second cylinder drives the moving plate to move, the moving block at the bottom of the moving plate is in sliding contact with the surface of the polished rod, after the moving block and the moving plate move, the shifting blocks, the pushing plate and the round pipe body are driven to move to the front of the second conveying line until a group of round pipe bodies between the shifting blocks and the pushing plate move to the front of the second conveying line, and the second cylinder stops working;

then the output end of the first cylinder drives the push plate and the shifting block to move to an initial state, the concave plate drives the sliding block to move on the surface of the sliding rail, after the push plate and the shifting block move to a certain position, the shifting block is not contacted with the round pipe body, the second cylinder is started, the output end of the second cylinder drives the moving plate and the moving block to move to the initial position, the second cylinder drives the push plate and the shifting block to restore to the initial position, then the second conveying line is started with the first conveying line and is reciprocated above, and the rest round pipe bodies are conveyed to the tail end of the second conveying line;

the round tube body can move towards the tail end of the second conveying line, the limiting plate and the limiting roller on the side edge of the surface of the second conveying line limit the round tube body, so that the round tube body can move to the surface of the positioning clamping block to clamp, when the round tube body contacts with the sensor, whether materials exist or not can be sensed, when no materials exist, continuous stirring can be allowed, and the use is convenient;

the rest of the round pipe bodies are driven by the surface of the first conveying line, so that the round pipe bodies are moved to the position between the next push plate and the shifting block to sequentially and circularly work, the round pipe bodies are sequentially moved to the tail end of the second conveying line, more round pipe bodies can be stored on the surface of the workbench and the surface of the first conveying line, the operation of operators is convenient, and the round pipe bodies are randomly swung to the surface of the workbench and the surface of the first conveying line.

Drawings

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is a schematic diagram of a top view connection of a table and a kick-out mechanism of the present utility model;

FIG. 3 is a schematic diagram of a side view connection of a kick-out mechanism of the present utility model;

FIG. 4 is a schematic top view of a material shifting mechanism of the present utility model;

FIG. 5 is a schematic diagram of a material shifting mechanism of the present utility model in front view;

fig. 6 is an enlarged schematic view of fig. 2 a according to the present utility model.

In the figure: 1. a work table; 2. a round tube body; 3. a first transport line; 4. a stirring mechanism; 41. a placement table; 42. a second cylinder; 43. a push plate; 44. a shifting block; 45. a slide rail; 46. a moving plate; 47. a moving block; 48. a polish rod; 49. a slide block; 410. a positioning plate; 411. a concave plate; 412. a first cylinder; 413. support legs; 5. positioning the clamping blocks; 6. a sensor; 7. placing a block; 8. a second transport line; 9. a limiting plate; 10. and limiting the idler wheels.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-6, the present utility model provides a technical solution: a round tube kick-out mechanism, comprising:

the workbench 1, the surface of the workbench 1 is connected with a circular tube body 2;

a first transporting line 3, wherein the first transporting line 3 is arranged on the left side of the surface of the workbench 1;

a second transporting line 8, wherein the second transporting line 8 is arranged on the surface of the workbench 1;

the sensor 6 is arranged at the tail end of the second conveying line 8, and the sensor 6 is used for sensing the surface of the round pipe body 2 on the second conveying line 8;

the left side of workstation 1 is provided with the kickoff 4, kickoff 4 is used for promoting pipe body 2 to let pipe body 2 transport to the surface of second transportation line 8 from the surface of first transportation line 3.

The stirring mechanism 4 comprises a placing table 41 connected to the left side of the workbench 1, a pushing plate 43 is connected to the surface of the placing table 41, a stirring block 44 is connected to one side of the surface of the pushing plate 43 at equal intervals, the stirring block 44 is convenient for limiting the position of the round tube body 2, the round tube body 2 is connected between two groups of stirring blocks 44, a concave plate 411 is connected to the other side of the surface of the pushing plate 43, a sliding block 49 is connected to the bottom of the concave plate 411, a first air cylinder 412 is connected to the bottom of the concave plate 411 on the other side of the surface of the pushing plate 43, the output end of the first air cylinder 412 is connected to the other side of the surface of the pushing plate 43, the output end of the first air cylinder 412 drives the pushing plate 43 and the stirring block 44 to move, and a driving mechanism is arranged below the concave plate 411 on the top of the placing table 41.

The driving mechanism comprises a second air cylinder 42 arranged at the top of the placing table 41, the top surface of the placing table 41 is connected with a positioning plate 410, a polished rod 48 is connected between two groups of positioning plates 410, the surface of the polished rod 48 is slidably connected with a moving block 47, the top of the moving block 47 is fixedly connected with a moving plate 46, the moving block 47 moves down with the moving plate 46 left and right on the surface of the polished rod 48, a first air cylinder 412 is connected at the top of the moving plate 46, two sides of the top of the moving plate 46 are respectively connected with a sliding rail 45 for sliding a sliding block 49, the sliding rails 45 are convenient for limiting the positions of the sliding block 49 and a concave plate 411, the output end of the second air cylinder 42 is connected to the side edge of the moving plate 46, and the second air cylinder 42 is convenient for driving the moving plate 46 and the moving block 47 to move on the surface of the polished rod 48.

The bottom of placing table 41 equidistant is connected with supporting leg 413, and supporting leg 413 is convenient for support placing table 41, the bottom of supporting leg 413 is connected with the anti-skidding line.

Limiting plates 9 are connected to two sides of the second conveying line 8 at equal intervals, a plurality of groups of limiting plates 9 are hinged to limiting rollers 10, the limiting plates 9 and the limiting rollers 10 are convenient to limit the round tube body 2 on the surface of the second conveying line 8, and the limiting rollers 10 can enable the round tube body 2 to move more smoothly.

The end-to-end connection of second transportation line 8 has location clamp splice 5, and the centre gripping is placed to location clamp splice 5 be convenient for to pipe body 2, one side of location clamp splice 5 is connected with places piece 7, sensor 6 connects the inside of placing piece 7, places piece 7 and is convenient for place sensor 6, just the one end and the pipe body 2 contact of sensor 6, and whether sensor 6 can detect the surface of second transportation line 8 has pipe body 2.

When the circular tube conveying device is specifically used, the circular tube body 2 is placed on the surface of the workbench 1, then the circular tube body 2 is conveyed to the position of the material stirring mechanism 4 by the first conveying line 3, so that the circular tube body 2 sequentially enters the surface of the placing table 41 between two groups of the stirring blocks 44, the circular tube body 2 is placed and limited, and the material stirring mechanism 4 can be driven to work when the sensor 6 at the tail end of the second conveying line 8 detects that the circular tube body 2 does not exist on the surface of the second conveying line 8;

the first cylinder 412 in the material shifting mechanism 4 works first, the output end of the first cylinder 412 pushes the push plate 43 to move, under the movement of the push plate 43, the push plate 43 drives the plurality of groups of the shifting blocks 44 to move, so that in the process of moving the shifting blocks 44 and the push plate 43, the shifting blocks 44 and the push plate 43 drive the round tube body 2 to move, and the round tube body 2 is moved from the surface of the placing table 41 to the surface of the first conveying line 3;

therefore, when the push plate 43 moves, the push plate 43 drives the concave plate 411 to move, and the sliding block 49 at the bottom of the concave plate 411 moves on the surface of the sliding rail 45, so that the sliding rail 45 limits the positions of the sliding block 49 and the push plate 43, and the push plate 43 always moves horizontally when moving, thereby avoiding displacement;

after the round tube body 2 is pushed into the surface of the first transportation line 3 by the push plate 43 and the shifting block 44, the second air cylinder 42 is started at this time, so that the output end of the second air cylinder 42 drives the moving plate 46 to move, and therefore, under the movement of the moving plate 46, the moving block 47 at the bottom of the moving plate 46 slides on the surface of the polished rod 48, so that the polished rod 48 limits the positions of the moving block 47 and the moving plate 46, and the moving block 47 and the moving plate 46 are always in horizontal movement in the moving process;

after the moving block 47 and the moving plate 46 move, the shifting block 44, the pushing plate 43 and the round tube body 2 are driven to move towards the front of the second conveying line 8 until a group of round tube bodies 2 between the shifting block 44 and the pushing plate 43 move to the front of the second conveying line 8, and the second air cylinder 42 stops working;

then the output end of the first air cylinder 412 drives the push plate 43 and the shifting block 44 to move towards the initial state (namely to the tail end of the first air cylinder 412), the concave plate 411 drives the sliding block 49 to move on the surface of the sliding rail 45, after the push plate 43 and the shifting block 44 move to a certain position, the shifting block 44 is not contacted with the round tube body 2, the second air cylinder 42 is started, the output end of the second air cylinder 42 drives the moving plate 46 and the moving block 47 to move towards the initial position (namely to the tail end of the second air cylinder 42), then the second air cylinder 42 drives the push plate 43 and the shifting block 44 to restore to the initial position, then the second conveying line 8 and the first conveying line 3 are started, and the rest round tube bodies 2 are conveyed to the tail end of the second conveying line 8 more than one by one;

the round tube body 2 in front of the second transporting line 8 is pushed to the surface of the second transporting line 8 by the first transporting line 3, and then moves towards the tail end of the second transporting line 8, and the limit plate 9 and the limit roller 10 on the side edge of the surface of the second transporting line 8 limit the round tube body 2 when the round tube body 2 moves, so that the round tube body 2 moves in a horizontal state, and then the round tube body 2 moves to the surface of the positioning clamping block 5 for clamping, and when the round tube body 2 contacts with the sensor 6, whether materials exist or not can be sensed, and when no materials exist, continuous stirring is allowed, and the use is convenient;

the rest of the round tube bodies 2 are driven by the surface of the first conveying line 3, so that the round tube bodies 2 are moved between the next push plate 43 and the shifting block 44 to sequentially and circularly work, the round tube bodies 2 are sequentially moved to the tail end of the second conveying line 8, more round tube bodies 2 can be stored on the surface of the workbench 1 and the surface of the first conveying line 3, the operation of operators is convenient, and the round tube bodies 2 are randomly arranged on the surface of the workbench 1 and the surface of the first conveying line 3.

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

Claims (6)

1. The utility model provides a pipe stirring mechanism which characterized in that includes:

the device comprises a workbench (1), wherein the surface of the workbench (1) is connected with a circular tube body (2);

a first transport line (3), the first transport line (3) being mounted on the left side of the surface of the table (1);

a second transport line (8), the second transport line (8) being arranged on the surface of the workbench (1);

the sensor (6) is arranged at the tail end of the second conveying line (8), and the sensor (6) is used for sensing the surface of the circular tube body (2) on the second conveying line (8);

the left side of workstation (1) is provided with kickoff (4), kickoff (4) are used for promoting pipe body (2) to let pipe body (2) transport to the surface of second transportation line (8) from the surface of first transportation line (3).

2. The round tube stirring mechanism according to claim 1, wherein the stirring mechanism (4) comprises a placing table (41) connected to the left side of a workbench (1), a pushing plate (43) is connected to the surface of the placing table (41), stirring blocks (44) are connected to one side of the surface of the pushing plate (43) at equal intervals, the round tube body (2) is connected between two groups of stirring blocks (44), a concave plate (411) is connected to the other side of the surface of the pushing plate (43), a sliding block (49) is connected to the bottom of the concave plate (411), a first cylinder (412) is connected to the bottom of the concave plate (411) on the other side of the surface of the pushing plate (43), and a driving mechanism is arranged below the concave plate (411) on the top of the placing table (41).

3. The round tube stirring mechanism according to claim 2, wherein the driving mechanism comprises a second air cylinder (42) at the top of the placing table (41), a positioning plate (410) is connected to the top surface of the placing table (41), a polished rod (48) is connected between two groups of positioning plates (410), a moving block (47) is slidingly connected to the surface of the polished rod (48), a moving plate (46) is fixedly connected to the top of the moving block (47), the first air cylinder (412) is connected to the top of the moving plate (46), sliding rails (45) for sliding connection of sliding blocks (49) are respectively connected to two sides of the top of the moving plate (46), and an output end of the second air cylinder (42) is connected to the side edge of the moving plate (46).

4. A round tube stirring mechanism according to claim 3, characterized in that the bottom of the placing table (41) is connected with supporting legs (413) at equal intervals, and the bottom of the supporting legs (413) is connected with anti-skid patterns.

5. The round tube stirring mechanism according to claim 1, wherein two sides of the second conveying line (8) are connected with limiting plates (9) at equal intervals, and the inner parts of a plurality of groups of limiting plates (9) are hinged with limiting rollers (10).

6. The round tube stirring mechanism according to claim 1, wherein the tail end of the second conveying line (8) is connected with a positioning clamping block (5), one side of the positioning clamping block (5) is connected with a placing block (7), the sensor (6) is connected inside the placing block (7), and one end of the sensor (6) is in contact with the round tube body (2).