CN216511269U - High-efficient stirring mechanism of nonrust steel pipe - Google Patents

Abstract

The utility model discloses a high-efficiency stainless steel pipe turning mechanism which comprises a base, a plurality of pairs of roller seats, steel pipe carrier rollers, a supporting seat, turning plates and transmission shafts, wherein the plurality of pairs of roller seats are equidistantly arranged on two sides of the base, the steel pipe carrier rollers are rotatably connected between each pair of roller seats, the supporting seat is positioned in the middle of the base and is arranged between every two steel pipe carrier rollers, the turning plates are rotatably connected to the tops of the supporting seat, the transmission shafts are connected with the turning plates, a plurality of notches corresponding to steel pipes are arrayed on the periphery of the turning plates, the transmission shafts are positioned below the steel pipe carrier rollers, one end of each steel pipe carrier roller penetrates through each roller seat and is provided with a transmission part, a transmission chain is connected between each transmission part, one of each transmission part is connected with a first driving motor, and one end of each transmission shaft is connected with a second driving motor through a speed reducer.

Description

High-efficient stirring mechanism of nonrust steel pipe

Technical Field

The utility model relates to a high-efficiency turning mechanism for stainless steel pipes.

Background

The structure of a stainless steel tube turnover mechanism in the prior art is generally similar to that disclosed in publication numbers CN212245230U and CN207723197U, and the stainless steel tube turnover mechanism mainly utilizes three groups of cylinders and a lever principle to jack up a steel tube from one side of a seat body so as to realize tube turnover; the material turning mechanism with the structure has the following defects: the components are numerous and the structure is complex; the lifting synchronization rate of each cylinder is not stable enough, and once the cylinder at one end breaks down, the steel pipe is very easy to tip over on the material turning mechanism.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provides an efficient stainless steel pipe turning mechanism.

The technical scheme of the utility model is as follows: the utility model provides a high-efficient turn-down mechanism of nonrust steel pipe, includes the base, the equidistance sets up in the many pairs of roller beds of base both sides, rotates the steel pipe bearing roller of connecting between every pair of roller bed, is located the base middle part and sets up the supporting seat between per two steel pipe bearing rollers, rotates the material turning plate of connecting at the supporting seat top and connects the transmission shaft of each material turning plate, material turning plate periphery array has a plurality of breachs that correspond the steel pipe, the transmission shaft is located the below of each steel pipe bearing roller, each the one end of steel pipe bearing roller is worn out the roller bed and is had a transmission portion, each be connected with a driving chain between the transmission portion, each one in the transmission portion is connected with first driving motor, the one end of transmission shaft is connected with second driving motor through the speed reducer.

Specifically, the steel tube carrier roller is provided with a V-shaped groove, the material turning plate is in a four-corner star shape, a recess corresponding to the steel tube carrier roller is formed between each end corner of the material turning plate, the recess forms a notch, when the material turning plate is in a non-turning state, the central point of the recess and the central point of the V-shaped groove of the steel tube carrier roller are correspondingly arranged, and the lowest end of the recess is located below the lowest end of the V-shaped groove.

Furthermore, the two concave sides of the material turning plate are arc-shaped surfaces which are concave inwards, and damping pads are attached to the arc-shaped surfaces.

Specifically, the supporting seat is composed of two seat bodies, the upper ends of the two seat bodies are arc-shaped, two sides of the material turning plate are rotatably connected between the two seat bodies through bearings, the middle of the material turning plate is further provided with a shaft hole, and the transmission shaft penetrates through the shaft hole and is fixed with the material turning plate.

Furthermore, a plurality of process holes are arrayed on the material turning plate by taking the shaft hole as the center.

Furthermore, the edges of two ends of the process hole of the material turning plate are also provided with folded edges.

Furthermore, two ends of the base are respectively provided with a transmission shaft seat, two ends of the transmission shaft are respectively and rotatably connected to the two transmission shaft seats, and the second driving motor and the speed reducer are arranged on the outer side of one of the two transmission shaft seats.

The utility model has the beneficial effects that: the utility model has simple structure and few components; the material turning plates are driven to rotate through the same transmission shaft, so that the rotating speeds of the material turning plates are consistent, and the steel pipes can be stably turned; the stability is reliable, and the failure rate is low; in addition, the material turning plate turns out a steel pipe, namely in a reset state, and compared with a process of extending and retracting when the pipe is turned by using an air cylinder, the material turning plate has the advantage of high material turning efficiency.

Drawings

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

fig. 2 is a top view of the present invention.

In the figure: the device comprises a base 1, a roll shaft seat 2, a steel pipe carrier roller 3, a supporting seat 4, a material turning plate 5, a transmission shaft 6, a notch 7, a transmission part 8, a transmission chain 9, a first driving motor 10, a speed reducer 11, a second driving motor 12, a V-shaped groove 13, a fabrication hole 14, a folded edge 15 and a transmission shaft seat 16.

Detailed Description

The technical scheme of the utility model is further specifically described by the following embodiments and the accompanying drawings.

Referring to fig. 1 and 2, a stainless steel tube high-efficiency material turning mechanism comprises a base 1, a plurality of pairs of roller seats 2 equidistantly arranged on two sides of the base 1, steel tube carrier rollers 3 rotatably connected between each pair of roller seats 2, a support seat 4 positioned in the middle of the base 1 and arranged between each two steel tube carrier rollers 3, material turning plates 5 rotatably connected to the tops of the support seats 4, and a transmission shaft 6 connected with each material turning plate 5, a plurality of notches 7 corresponding to steel pipes are arrayed on the periphery of the material turning plate 5, the transmission shaft 6 is positioned below each steel pipe carrier roller 3, one end of each steel pipe carrier roller 3 penetrates through the roller shaft seat 2 and is provided with a transmission part 8, a transmission chain 9 is connected between the transmission parts 8, one of the transmission parts 8 is connected with a first driving motor 10, and one end of the transmission shaft 6 is connected with a second driving motor 12 through a speed reducer 11;

through the structure, the steel pipe is conveyed to the material turning structure and is driven by the steel pipe carrier rollers 3 to move to a proper position, at the moment, the second driving motor 12 drives the transmission shaft 6 and the transmission shaft 6 to drive the material turning plate 5 to rotate at a certain angle, so that the notch 7 is abutted against the steel pipe, and the steel pipe is turned out from one side of the seat body without the transmission chain 9;

compared with the prior art, the structure has the advantages that the steel pipe is turned up by utilizing the air cylinder and the lever principle: the structure is simple, and the number of components is small; the material turning plates 5 are driven to rotate through the same transmission shaft 6, so that the rotating speeds of the material turning plates 5 are consistent, and the steel pipes can be turned up stably; the stability is reliable, and the failure rate is low;

in another embodiment, the steel tube carrier roller 3 is provided with V-shaped grooves 13 to ensure the stability of the steel tube during the conveying process, the material turning plate 5 is in a shape of a four-pointed star, a recess corresponding to the steel tube carrier roller 3 is formed between each end corner of the material turning plate 5, the recess forms a notch 7, when the material turning plate 5 is in a non-turning state, the central point of the recess and the central point of the V-shaped groove 13 of the steel tube carrier roller 3 are correspondingly arranged, and the lowest end of the recess is located below the lowest end of the V-shaped groove 13 to avoid affecting the conveying of the steel tube;

in another embodiment, the two sides of the depression of the material turning plate 5 are concave arc surfaces, and the arc surfaces are adhered with damping pads so as to better adapt to the shape of the steel pipe and turn up the steel pipe;

in another embodiment, the supporting seat 4 is composed of two seat bodies, the upper ends of the two seat bodies are arc-shaped, two sides of the material turning plate 5 are rotatably connected between the two seat bodies through bearings, the middle part of the material turning plate 5 is also provided with a shaft hole, and the transmission shaft 6 penetrates through the shaft hole and is fixed with the material turning plate 5;

in another embodiment, the material turning plate 5 is further provided with a plurality of process holes 14 in an array by taking the shaft hole as a center, so as to reduce the self weight of the material turning plate 5;

in another embodiment, the edges of the two ends of the fabrication hole 14 of the material turning plate 5 are further provided with folded edges 15 to maintain the strength of the material turning plate 5, so that the material turning plate 5 is not easy to deform;

in another embodiment, two ends of the base 1 are respectively provided with a transmission shaft seat 16, two ends of the transmission shaft 6 are respectively and rotatably connected to the two transmission shaft seats 16, and the second driving motor 12 and the speed reducer 11 are arranged outside one of the two transmission shaft seats 16.

Claims (10)

1. The utility model provides a high-efficient stirring mechanism of nonrust steel pipe which characterized in that: the steel pipe overturning device comprises a base, a plurality of pairs of roller seats, steel pipe carrier rollers, a supporting seat, a material overturning plate and a transmission shaft, wherein the pairs of roller seats are arranged on two sides of the base at equal intervals, the steel pipe carrier rollers are rotatably connected between every two pairs of roller seats, the supporting seat is positioned in the middle of the base and is arranged between every two steel pipe carrier rollers, the material overturning plate is rotatably connected to the top of the supporting seat, the transmission shaft is connected with the material overturning plates, a plurality of notches corresponding to steel pipes are arranged on the periphery of the material overturning plate in an array mode, the transmission shaft is positioned below each steel pipe carrier roller, one end of each steel pipe carrier roller penetrates out of each roller seat and is provided with a transmission part, a transmission chain is connected between the transmission parts, one of the transmission parts is connected with a first driving motor, and one end of the transmission shaft is connected with a second driving motor through a speed reducer.

2. The efficient stainless steel pipe stirring mechanism of claim 1, which is characterized in that: the steel tube carrier roller is provided with a V-shaped groove, the material turning plate is in a four-corner star shape, a recess corresponding to the steel tube carrier roller is arranged between each end corner of the material turning plate, and the recess forms a notch.

3. The efficient stainless steel pipe stirring mechanism of claim 2, which is characterized in that: when the material turning plate is in a non-turning state, the center point of the recess and the center point of the V-shaped groove of the steel pipe carrier roller are correspondingly arranged, and the lowest end of the recess is positioned below the lowest end of the V-shaped groove.

4. The high-efficiency stainless steel pipe stirring mechanism of claim 3, which is characterized in that: the concave two sides of the material turning plate are inwards concave arc-shaped surfaces, and damping cushions are attached to the arc-shaped surfaces.

5. The efficient stainless steel pipe stirring mechanism of claim 4, which is characterized in that: the supporting seat is composed of two seat bodies, the upper ends of the two seat bodies are arc-shaped, and two sides of the material turning plate are rotatably connected between the two seat bodies through bearings.

6. The efficient stainless steel pipe stirring mechanism of claim 5, which is characterized in that: the middle part of the material turning plate is also provided with a shaft hole, and the transmission shaft penetrates through the shaft hole and is fixed with the material turning plate.

7. The efficient stainless steel pipe stirring mechanism of claim 6, which is characterized in that: and a plurality of process holes are arrayed on the material turning plate by taking the shaft hole as a center.

8. The efficient stainless steel pipe stirring mechanism of claim 7, which is characterized in that: and the edges of two ends of the fabrication hole of the material turning plate are also provided with folded edges.

9. The efficient stainless steel pipe stirring mechanism of claim 8, which is characterized in that: two ends of the base are respectively provided with a transmission shaft seat, and two ends of the transmission shaft are respectively and rotatably connected to the two transmission shaft seats.

10. The efficient stainless steel pipe stirring mechanism of claim 9, which is characterized in that: the second driving motor and the speed reducer are arranged on the outer side of one of the two transmission shaft seats.

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