CN215401564U

CN215401564U - Feeding device for pipe machining process

Info

Publication number: CN215401564U
Application number: CN202121144238.3U
Authority: CN
Inventors: 尹希伟; 肖和飞; 张新爱; 罗安明
Original assignee: Hunan Zhenhui Pipe Industry Co ltd
Current assignee: Hunan Zhenhui Pipe Industry Co ltd
Priority date: 2021-05-26
Filing date: 2021-05-26
Publication date: 2022-01-04
Anticipated expiration: 2031-05-26

Abstract

The utility model provides a loading attachment for tubular product processing technology, loading attachment is used for sending into the workstation with tubular product, loading attachment includes two parallel interval arrangement's material loading platforms, and during the material loading, the both ends of tubular product support respectively on two material loading platforms, are equipped with material loading district and adjustment area on every material loading platform in proper order, and material loading district, adjustment area and workstation link up in proper order, and the material loading district is equipped with first board subassembly that turns over, and first board subassembly supports and promotes tubular product and remove to the adjustment area, and the adjustment area is equipped with riding wheel subassembly and second and turns over the board subassembly, and tubular product supports on riding wheel subassembly and second turns over the board subassembly, and riding wheel subassembly supports and promotes tubular product and move along tubular product axial displacement, and the second turns over board subassembly and supports and promotes tubular product and remove to the workstation. According to the utility model, the pipe can be automatically fed through the feeding frame and enters the appointed station of the workbench, and the feeding is accurate, efficient and convenient.

Description

Feeding device for pipe machining process

Technical Field

The utility model relates to the technical field of pipe processing, in particular to a feeding device for a pipe processing technology.

Background

When the pipe is processed, the pipe is generally required to be placed on a workbench and then processed. Some machining processes have high requirements on the position of the pipe, and the pipe needs to be fixed on a working table, such as the machining of a metal plastic composite pipe. The metal plastic composite pipe is a pipe which is formed by compounding an outer layer serving as a metal pipe and an inner layer serving as a plastic pipe through a certain process, and has the advantages of the metal pipe and a non-metal pipe. When the metal pipe and the plastic pipe are combined and bonded, the plastic pipe needs to be heated and melted to bond the plastic pipe and the inner wall of the metal pipe, and then the plastic pipe is cooled to cool and solidify the bonded part. However, the pipes to be processed are generally not small in diameter or/and length, and the feeding of the pipes to the fixing station is generally time-consuming and laborious.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems in the prior art, the utility model aims to provide a feeding device for a pipe machining process, which can automatically feed pipes into a specified station of a workbench through the feeding frame, has accurate, efficient and convenient feeding, avoids the danger of manual direct feeding and the influence on production, and avoids the interference of direct feeding on production parts through equipment, and has simple structure and reliable operation.

In order to achieve the purpose, the utility model adopts the technical scheme that:

the utility model provides a loading attachment for tubular product processing technology, loading attachment is used for sending into the workstation with tubular product, loading attachment includes two parallel interval arrangement's material loading platforms, and during the material loading, the both ends of tubular product support respectively on two material loading platforms, are equipped with material loading district and adjustment area on every material loading platform in proper order, and material loading district, adjustment area and workstation link up in proper order, and the material loading district is equipped with first board subassembly that turns over, and first board subassembly supports and promotes tubular product and remove to the adjustment area, and the adjustment area is equipped with riding wheel subassembly and second and turns over the board subassembly, and tubular product supports on riding wheel subassembly and second turns over the board subassembly, and riding wheel subassembly supports and promotes tubular product and move along tubular product axial displacement, and the second turns over board subassembly and supports and promotes tubular product and remove to the workstation.

As a further improvement of the above technical solution:

the feeding device further comprises a limiting area, the limiting area is located on one side of the two feeding tables and is not located between the two feeding tables, and the limiting area is provided with a monitoring device used for monitoring the position of the pipe.

The riding wheel assembly comprises riding wheels, the riding wheels are rotatably mounted on the feeding table, and the riding wheel assembly of at least one feeding table further comprises a driving assembly which is connected with and drives the riding wheels to rotate.

The first plate turning assembly comprises a first turning plate and a first cylinder, one end of the first turning plate is hinged to the feeding platform, the other end of the first turning plate is in overhanging extension, the first cylinder is connected with the middle of the first turning plate, and the first cylinder drives the first turning plate to rotate relative to the feeding platform.

The first turning plate is a folding rod connected integrally.

The adjusting area further comprises a third turning plate assembly, the third turning plate assembly comprises a third turning plate and a third cylinder, one end of the third turning plate is hinged to the feeding table, the other end of the third turning plate stretches in an overhanging mode, the third cylinder is connected with the middle of the third turning plate, the third cylinder drives the third turning plate to rotate relative to the feeding table, and one end, which is more stretched than one end of the hinged workbench of the third turning plate, of the third turning plate is closer to the feeding area.

The third turning plate is a folding rod connected integrally.

The second turns over board subassembly and includes that the second turns over board and second cylinder, and the second turns over the one end of board and articulates on the material loading platform, other end overhang, and the middle part that the second turned over the board is articulated to the second cylinder, and the second cylinder drives the middle part that the second turned over the board and rises or descend, realizes that the second turns over the rotation of the relative other end of one end of board.

The overhanging end of the second flap is closer to the feeding area than the end of the hinged worktable.

The second turning plate is a folding rod connected integrally.

The utility model has the beneficial effects that: the pipe can be automatically fed by the feeding frame and enters an appointed station of the workbench, the feeding is accurate, efficient and convenient, the danger of manual direct feeding and the influence on production are avoided, and the interference of the direct feeding of equipment on production parts is avoided.

Drawings

FIG. 1 is a schematic structural diagram of one embodiment of the present invention;

FIG. 2 is an enlarged view of the point A in FIG. 1;

fig. 3 is a schematic structural view of the first flap assembly, the second flap assembly or the third flap assembly of the present invention.

Detailed Description

The following detailed description of embodiments of the utility model refers to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present invention, are given by way of illustration and explanation only, not limitation.

Spatially relative terms, such as "above … …," "above … …," "above … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial relationship to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary term "above … …" can include both an orientation of "above … …" and "below … …". The device may be otherwise variously oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

A feeding device for a pipe machining process is shown in figures 1-3 and is used for feeding pipes into a workbench 2. The feeding device comprises two feeding tables 1 which are arranged in parallel at intervals, the direction of the parallel arrangement is a first direction, the conveying direction of the pipes is parallel to the first direction, and the conveying direction of the pipes is indicated by arrows in figure 1. When the pipe is supported on the two feeding tables 1, the axial direction of the pipe is vertical to the first direction.

Each feeding platform 1 is provided with a feeding area 11 and an adjusting area 12, the feeding area 11, the adjusting area 12 and the workbench 2 are sequentially connected, or the adjusting area 12 is positioned between the feeding area 1 and the workbench 2. Preferably, the feeding table 1 is of a metal frame structure.

The feeding area 11 is provided with a first flap assembly 111, and the first flap assembly 111 supports and pushes the pipe to move to the adjusting area 12. The first plate turnover assembly 111 comprises a first plate turnover 1111 and a first cylinder 1112, one end of the first plate turnover 1111 is hinged to the feeding table 1, the other end of the first plate turnover is suspended, the first cylinder 1112 is hinged to the middle of the first plate turnover 1111, and the first cylinder 1112 drives the middle of the first plate turnover 1111 to ascend or descend so as to realize rotation of one end of the first plate turnover 1111 relative to the other end.

The end of the first flap 1111 that is hinged to the table 2 is closer to the adjustment zone 12 than the overhanging end. The first flap 1111 rotates in a plane parallel to said first direction, preferably perpendicular to the horizontal plane. The first turning plate 1111 is V-shaped, so as to stably support the pipe.

The adjustment zone 12 is provided with a first position monitoring device 124 and successively arranged a carriage assembly, a second flap assembly 122 and a third flap assembly 123 in a line, the direction of the line being perpendicular to the first direction. The idler assembly on one feeding table 1 is closer to the other feeding table 1 than the second flap assembly 122 and the third flap assembly 123.

The first position monitoring device 124 is used for detecting the position of the pipe, the first position monitoring device 124 is electrically connected with the control system, when the pipe reaches the adjusting area 12 and is supported on the riding wheel assembly, the second turning plate assembly 122 and the third turning plate assembly 123, the first position monitoring device 124 detects the pipe and sends the detected information to the control system.

The riding wheel assembly comprises a riding wheel 121, the riding wheel 121 is rotatably mounted on the feeding table 1, and specifically, the riding wheel 121 is rotatably mounted on the feeding table 1. The plane of the rotation direction of the idler 121 is perpendicular to the first direction. Preferably, the two ends of the riding wheel 121 are large, the middle of the riding wheel 121 is small, and the riding wheel 121 is V-shaped in the first direction section.

The riding wheel assembly of at least one feeding table 1 further comprises a driving assembly 120, and the driving assembly 120 is connected with and drives the riding wheels 121 to rotate. The driving assembly 120 comprises a motor 1211, a reduction box 1212 and a transmission chain 1213 which are connected in sequence, the transmission chain 1213 is further connected with the riding wheel 121, and the motor 1211 drives the riding wheel 121 to rotate through the reduction box 1212 and the transmission chain 1213 in sequence.

The second flap assembly 122 is used for supporting and pushing the pipe to move to the workbench 2. The structure of the second flap assembly 122 is the same as that of the first flap assembly 111, specifically, the second flap assembly 122 includes a second flap 1221 and a second cylinder 1222, one end of the second flap 1221 is hinged to the feeding table 1, and the other end of the second flap 1221 overhangs, the second cylinder 1222 is hinged to the middle of the second flap 1221, and the second cylinder 1222 drives the middle of the second flap 1221 to ascend or descend, so as to realize the rotation of one end of the second flap 1221 relative to the other end.

The overhanging end of the second flap 1221 is closer to the loading zone 11 than the end of the articulated table 2. The second flap 1221 is rotatable in a plane parallel to said first direction, preferably perpendicular to the horizontal plane. The second flap 1221 is V-shaped to stably support the pipe.

The third flap assembly 123 is provided to limit the movement of the tube from the feeding zone 11 to the adjusting zone 12. Preferably, the structure of the third flap assembly 123 is the same as that of the first flap assembly 111 or the second flap assembly 122. Specifically, the third plate turning assembly 123 includes a third plate turning 1231 and a third cylinder 1232, one end of the third plate turning 1231 is hinged to the feeding table 1, and the other end of the third plate turning 1231 is cantilevered, the third cylinder 1232 is hinged to the middle of the third plate turning 1231, and the third cylinder 1232 drives the middle of the third plate turning 1231 to ascend or descend, so that rotation of one end of the third plate turning 1231 relative to the other end is achieved.

The end of the third flap 1231 that is hinged to the table 2 is closer to the loading zone 11 than the overhanging end. Third flap 1231 rotates in a plane parallel to said first direction, preferably perpendicular to the horizontal plane. The third turning plate 1231 is V-shaped, so as to stably support the pipe.

As can be seen from the above, the first turning plate 1111, the second turning plate 1221 and the third turning plate 1231 are all V-shaped folding rod structures, and preferably, the first turning plate 1111, the second turning plate 1221 and the third turning plate 1231 are all an integral connecting structure.

It should be noted that the rising amplitude or the rotation amplitude of the first flap 1111, the second flap 1221 and the third flap 1231 is small, and the hinge mode of the cylinder shaft of each cylinder and the corresponding flap is enough to realize the rotation of each flap within a certain angle range.

The feeding device further comprises a limiting area 13 and a control system, the limiting area 13 is located on one side of the two feeding tables 1 and is not located between the two feeding tables 1, the limiting area 13 is provided with a second monitoring device 131 used for monitoring the position of the pipe, and the second monitoring device 131 is electrically connected with the control system. Preferably, the second monitoring device 131 is a photoelectric switch. The second monitoring device 131 is used for detecting whether the pipe reaches a set position in the axial direction of the pipe.

The motor 1211, the first cylinder 1112, the second cylinder 1222, and the third cylinder 1232 are all electrically connected to the control system.

The working process of the utility model is as follows: firstly, manual handling or through modes such as equipment hoist and mount with tubular product place on two material loading platforms 1, make the both ends of tubular product support respectively on first board 1111 that turns over, because the V-arrangement of first board 1111 sets up, first board 1111 can play preliminary adjustment effect to the tubular product position, makes tubular product make its both ends be located the V-arrangement of first board 1111 owing to the dead weight, makes tubular product axial with first direction is perpendicular, and tubular product can stably support on first board 1111.

Then, the control system controls the first cylinder 1112 to move, the first cylinder 1112 rises to drive the first turning plate 1111 to rotate, the first turning plate 1111 pushes the pipe located thereon, and the pipe rolls toward the adjustment area 12. When a pipe rolls onto the riding wheel 121, the overhanging end of the second turning plate 1221 is lower than the plane of the feeding table 1, and the overhanging end of the third turning plate 1231 is higher than the plane of the feeding table 1, so that the pipe can be prevented from continuing to roll, and the pipe can stably stop on the riding wheel 121 due to the blocking effect of the third turning plate 1231 and the shape of the riding wheel 121, namely, two ends of the pipe are respectively supported on the riding wheels 121 of the two feeding tables 1, specifically, the pipe is simultaneously supported on the riding wheel 121, the second turning plate 1221 and the third turning plate 1231.

Then, when the first position monitoring device 124 detects the pipe, the first position monitoring device 124 sends the detected information to the control system, the control system receives the information from the first position monitoring device 124 and then controls the motor 1211 to rotate, the motor 1211 sequentially drives the riding wheel 121 through the reduction box 1212 and the transmission chain 1213, the riding wheel 121 drives the pipe to move along the axial direction of the pipe by virtue of the friction force between the riding wheel and the pipe, and when the pipe moves to the second monitoring device 131 and detects the pipe, the control system receives the information from the second monitoring device 131 and controls the motor 1211 to stop driving, and the pipe stops moving.

Finally, after the control system receives the information of the second monitoring device 131, the control system controls the third cylinder 1232 to move, so that the third cylinder 1232 drives the overhanging end of the third turning plate 1231 to descend so as not to block the rolling of the pipe, and simultaneously the control system controls the second cylinder 1222 to move, the second cylinder 1222 to ascend so as to drive the second turning plate 1221 to rotate relative to the feeding table 1, and push the pipe on the second turning plate 1221 to the workbench 2. Since the tube is automatically adjusted in the adjustment area 12, when the tube moves along the first direction, the tube can accurately enter the station on the workbench 2, thereby avoiding the danger of manually feeding the tube onto the workbench 2 and the interference of the tube fed into the workbench 2 by equipment.

Finally, it must be said here that: the above embodiments are only used for further detailed description of the technical solutions of the present invention, and should not be understood as limiting the scope of the present invention, and the insubstantial modifications and adaptations made by those skilled in the art according to the above descriptions of the present invention are within the scope of the present invention.

Claims

1. A loading attachment for a pipe machining process, the loading attachment being for feeding a pipe into a work table (2), characterized in that: the feeding device comprises two feeding tables (1) which are arranged in parallel at intervals, during feeding, two ends of a pipe are respectively supported on the two feeding tables (1), each feeding table (1) is sequentially provided with a feeding area (11) and an adjusting area (12), the feeding area (11), the adjusting area (12) and the workbench (2) are sequentially connected, the feeding area (11) is provided with a first turning plate assembly (111), the first turning plate assembly (111) supports and pushes the pipe to move to the adjusting area (12), the adjusting area (12) is provided with a supporting wheel assembly and a second turning plate assembly (122), the pipe is supported on the supporting wheel assembly and the second turning plate assembly (122), the supporting piece supports and pushes the pipe to move along the axial direction of the pipe, and the second turning plate assembly (122) supports and pushes the pipe to move to the workbench (2).

2. The loading device according to claim 1, characterized in that: the feeding device further comprises a limiting area (13), the limiting area (13) is located on one side of the two feeding tables (1) and is not located between the two feeding tables (1), and the limiting area (13) is provided with a monitoring device for monitoring the position of the pipe.

3. The loading device according to claim 1, characterized in that: the riding wheel assembly comprises riding wheels (121), the riding wheels (121) are rotatably mounted on the feeding table (1), the riding wheel assembly of at least one feeding table (1) further comprises a driving assembly (120), and the driving assembly (120) is connected with and drives the riding wheels (121) to rotate.

4. The loading device according to claim 1, characterized in that: the first board subassembly (111) that turns over includes first board (1111) and first cylinder (1112), and the one end of first board (1111) that turns over articulates on material loading platform (1), other end overhang, and first cylinder (1112) are connected the middle part of first board (1111), and first cylinder (1112) drive first board (1111) and rotate material loading platform (1) relatively.

5. The loading device according to claim 4, characterized in that: the first turning plate (1111) is a folding rod which is connected integrally.

6. The loading device according to claim 1, characterized in that: the adjusting area (12) further comprises a third turning plate assembly (123), the third turning plate assembly (123) comprises a third turning plate (1231) and a third cylinder (1232), one end of the third turning plate (1231) is hinged to the feeding table (1), the other end of the third turning plate is cantilevered, the third cylinder (1232) is connected with the middle of the third turning plate (1231), the third cylinder (1232) drives the third turning plate (1231) to rotate relative to the feeding table (1), and one end, which is cantilevered, of one end of the hinged workbench (2) of the third turning plate (1231) is closer to the feeding area (11).

7. The loading device according to claim 6, characterized in that: the third turning plate (1231) is a folding rod connected integrally.

8. The loading device according to claim 1, characterized in that: the second turns over board subassembly (122) and includes second and turns over board (1221) and second cylinder (1222), and the one end of second turns over board (1221) articulates on material loading platform (1), other end overhang, and the middle part that second cylinder (1222) articulated second turned over board (1221), and second cylinder (1222) drive the middle part that second turned over board (1221) and rise or descend, realize the rotation of the relative other end of one end that second turned over board (1221).

9. The loading device according to claim 8, characterized in that: the overhanging end of the second flap (1221) is closer to the feeding zone (11) than the end of the articulated table (2).

10. The loading device according to claim 8, characterized in that: the second turning plate (1221) is a folding rod which is connected integrally.