CN214269276U - Full-automatic pipe parallel continuous feeding mechanism - Google Patents

Abstract

The utility model discloses a full-automatic tubular product is feed mechanism in succession side by side, its tubular product memory cell including the periodic output tubular product, general the tubular product of tubular product memory cell output is arranged into one row to the conveying unit of carrying forward, is located conveying unit is terminal and will the tubular product of conveying unit tail section upwards holds up and breaks away from the support roller unit on conveying unit surface, general tubular product on the support roller unit is released along the tubular product axial and is realized pushing away the material unit and being located the support roller unit front end keeps off the tubular product entering on the conveying unit support roller unit first fender material unit in the unit. The utility model discloses can realize the side by side formula automatic feed of many tubular products, improve feed efficiency greatly.

Description

Full-automatic pipe parallel continuous feeding mechanism

[ technical field ] A method for producing a semiconductor device

The utility model belongs to the technical field of the tubular product material loading, especially, relate to a full-automatic tubular product is feed mechanism in succession side by side.

[ background of the invention ]

The tubular product is used extensively, and the deep-processing of tubular product needs to cooperate professional equipment, for guaranteeing machining efficiency, generally chooses automatic feeding mechanism for use, and the feed machine structure on the market is complicated, including a plurality of subassemblies such as windrow, branch material, ejector sleeve, flexible, and equipment cost is high, and generally can only realize the material loading of a tubular product, and its efficiency is lower.

Therefore, there is a need to provide a new fully automatic pipe side-by-side continuous feeding mechanism to solve the above problems.

[ Utility model ] content

The utility model discloses a main aim at provides a full-automatic tubular product feed mechanism in succession side by side can realize the side by side formula automatic feed of many tubular products, improves feed efficiency greatly.

The utility model discloses a following technical scheme realizes above-mentioned purpose: a full-automatic pipe side-by-side continuous feeding mechanism comprises a pipe storage unit for periodically outputting pipes, a conveying unit for arranging the pipes output by the pipe storage unit into a row and then conveying the pipes forwards, a supporting roller unit which is positioned at the tail end of the conveying unit and upwards supports the pipes at the tail section of the conveying unit to be separated from the surface of the conveying unit, a pushing unit for pushing the pipes on the supporting roller unit out along the axial direction of the pipes to realize feeding, and a first blocking unit which is positioned at the front end of the supporting roller unit and blocks the pipes on the conveying unit from entering the supporting roller unit.

Further, the pipe storage unit comprises a storage bin, an inclined plane supporting plate which is positioned at the bottom of the storage bin and supports the pipe, and a first air cylinder which drives the inclined plane supporting plate to move up and down; and a material receiving plate which is obliquely arranged is arranged on the upper part of the front end baffle of the storage bin.

Furthermore, the tail end of the material receiving plate is provided with a blocking part, and the tail end of the material receiving plate is also provided with a material ejecting unit which ejects the pipe material at the tail end of the material receiving plate upwards and slides into the conveying unit; the material ejecting unit comprises a second air cylinder, a supporting section bar driven by the second air cylinder to move up and down, and a material ejecting top plate which is fixed on the supporting section bar and only ejects one pipe once.

Furthermore, the conveying unit comprises a driving motor, a plurality of conveying belt modules driven by the driving motor to carry out circulating conveying, a height limiting baffle plate which is positioned above the conveying surface of each conveying belt module and only allows one pipe to pass through, and a material guide plate which is positioned at the front end of each conveying belt module, supports the pipe output by the pipe storage unit and guides the pipe to the conveying belt modules.

Furthermore, a second material blocking unit for controlling the number of the tubes entering the material guide plate is further arranged above the material guide plate, and the second material blocking unit comprises a third cylinder and a material blocking plate which is driven by the third cylinder to rotate and swing and is positioned above the material guide plate and matched with the material guide plate to limit the tubes to pass through.

Furthermore, the front end of the conveying belt module is also provided with a third material blocking unit for controlling the number of the tubes entering the conveying belt module, the third material blocking unit comprises a fourth cylinder, is driven by the fourth cylinder to move up and down and blocks the tubes on the material guide plate from entering the first material blocking rod in the conveying belt module.

Further, the supporting roller unit comprises a fifth cylinder, a supporting plate driven by the fifth cylinder to move up and down, and a supporting roller rotatably arranged on the supporting plate; the tail end of the supporting roller unit is also provided with a limiting stop lever for stopping the advancing direction of the pipe to limit the pipe at the foremost end.

Furthermore, the first material blocking unit comprises a sixth air cylinder, and a second material blocking rod which is driven by the sixth air cylinder to move up and down and blocks the pipe in the conveying unit from entering the supporting roller unit.

Furthermore, the material pushing unit comprises a seventh cylinder and a material pushing plate which is driven by the seventh cylinder to push the pipe material from one end of the pipe material in the axial direction.

Furthermore, the output tail end of the pushing unit is also provided with a cleaning brush for cleaning the surface of the pipe.

Compared with the prior art, the utility model relates to a full-automatic tubular product feed mechanism in succession side by side's beneficial effect lies in: through setting up tubular product memory cell, the conveying unit, supporting roller unit and material pushing unit, the automatic feed material loading of tubular product has been realized, and set up the supporting roller unit in the tail section region of conveying unit, and be equipped with raising and lowering functions, can upwards hold up the tubular product of setting for quantity on the conveying unit, realize side by side, more root canal materials of setting for quantity are got simultaneously, cooperate again to push away the tubular product axial of material pushing unit on with the supporting roller unit and release, realize automatic feeding, many continuous material loading have realized the tubular product side by side, the material loading efficiency has been improved greatly.

[ description of the drawings ]

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

FIG. 2 is a schematic diagram of a part of the structure of the present invention;

FIG. 3 is a second partial schematic structural view of the present invention;

the figures in the drawings represent:

100 full-automatic pipe parallel continuous feeding mechanism;

1, a pipe storage unit, 11 bins, 12 inclined plane supporting plates, 13 first cylinders and 14 material receiving plates; 2, a conveying unit, 21 a driving motor, 22 a conveying belt module, 23 a height limiting baffle and 24 a material guide plate; 3 supporting roller units, 31 fifth cylinders, 32 supporting plates, 33 supporting rollers and 34 limit stop levers; 4, a pushing unit, 41 a seventh cylinder and 42 a pushing plate; 5, a first material blocking unit, 51 a sixth air cylinder and 52 a second material blocking rod; 6, a material lifting unit, 61 a second cylinder, 62 a supporting section bar and 63 a material lifting top plate; 7, a second material blocking unit, 71 a third cylinder and 72 a material blocking plate; 8, a third material blocking unit, 81, a fourth cylinder and 82, a first material blocking rod; 9 cleaning the brush.

[ detailed description ] embodiments

Example (b):

referring to fig. 1 to 3, the embodiment is a full-automatic pipe parallel continuous feeding mechanism 100, which includes a pipe storage unit 1 for periodically outputting pipes, a conveying unit 2 for arranging the pipes output by the pipe storage unit 1 into a row and conveying the pipes forward, a supporting roller unit 3 located at the end of the conveying unit 2 and lifting the pipe at the tail of the conveying unit 2 upward to separate from the surface of the conveying unit 2, a pushing unit 4 for pushing the pipe on the supporting roller unit 3 in the axial direction of the pipe to realize feeding, and a first material blocking unit 5 located at the front end of the supporting roller unit 3 and blocking the subsequent pipe of the conveying unit 2 from continuing to advance.

The pipe storage unit 1 includes a bin 11, a slope pallet 12 located at the bottom of the bin 11 and supporting the pipe, and a first cylinder 13 driving the slope pallet 12 to move up and down. The inclined plane supporting plate 12 is inclined to guide the pipe material towards the output direction. The upper part of the front end baffle of the storage bin 11 is provided with a material receiving plate 14 which is obliquely arranged, the pipes in the storage bin 11 are upwards supported by the inclined plane supporting plate 12, and when the uppermost layer of pipes is higher than the front end baffle of the storage bin 11, the pipes automatically roll into the material receiving plate 14.

The end of the receiving plate 14 is provided with a blocking part (not shown), and the end of the receiving plate 14 is further provided with a jacking unit 6 which jacks up the pipe at the end of the receiving plate 14 and slides into the conveying unit 2. The material ejecting unit 6 comprises a second air cylinder 61, a supporting section bar 62 driven by the second air cylinder 61 to move up and down, and a plurality of material lifting top plates 63 fixed on the supporting section bar 62. The lifter plate 63 jacks up one pipe at a time.

The conveying unit 2 comprises a driving motor 21, a plurality of conveying belt modules 22 driven by the driving motor 21 to perform circulating conveying, a height limiting baffle 23 which is positioned above the conveying surface of the conveying belt modules 22 and only allows one pipe to pass through, and a material guide plate 24 which is positioned at the front end of the conveying belt modules 22 and used for supporting and guiding the pipe output by the pipe storage unit 1 to the conveying belt modules 22. A second material blocking unit 7 is further arranged above the material guide plate 24, and the second material blocking unit 7 is used for controlling the number of the tubes entering the material guide plate 24 and preventing the input port of the conveying unit 2 from being blocked. The second material blocking unit 7 comprises a third cylinder 71 and a material blocking plate 72 which is driven by the third cylinder 71 to rotate and swing and is positioned above the material guiding plate 24 and matched with the material guiding plate 24 to limit the passing of the pipe material.

The front end of the conveyor belt module 22 is further provided with a third material blocking unit 8 for controlling the number of the tubes entering the conveyor belt module 22, and the third material blocking unit 8 comprises a fourth cylinder 81 and a first material blocking rod 82 which is driven by the fourth cylinder 81 to move up and down and blocks the tubes on the material guiding plate 24 from entering the conveyor belt module 22.

The conveyer belt module 22 is provided with a plurality of groups along the axial direction of the pipe, and the corresponding support roller units 3 are also provided with a plurality of groups.

The support roller unit 3 includes a fifth cylinder 31, a support plate 32 driven by the fifth cylinder 31 to move up and down, and a support roller 33 rotatably provided on the support plate 32. The end of the supporting roller unit 3 is also provided with a limit stop lever 34 for stopping the advancing direction of the pipe to limit the pipe at the frontmost end.

The first material blocking unit 5 comprises a sixth air cylinder 51 and a second material blocking rod 52 which is driven by the sixth air cylinder 51 to move up and down and blocks the pipe in the conveying unit 2 from entering the supporting roller unit 3.

The pushing unit 4 comprises a seventh cylinder 41 and a pushing plate 42 driven by the seventh cylinder 41 to push the pipe axially from one end of the pipe.

The output end of the pushing unit 4 is also provided with a cleaning brush 9 for cleaning the surface of the pipe.

The action flow of the full-automatic pipe parallel continuous feeding mechanism 100 of the embodiment is as follows: an operator places a plurality of pipes in a stack in the bin 11 at one time, the first air cylinder 13 periodically jacks up the pipes in the bin 11 to be higher than a baffle plate at the front end of the bin 11 by a set height, the raised pipes slide into the receiving plate 14 and are then lifted up by the lifting top plate 63 at the tail end and are sent to the material guide plate 24, the pipes entering the material guide plate 24 automatically slide onto the conveying belt module 22, the height of the pipe stack is limited by the height limiting baffle plate 23, so that the pipes on the conveying belt module 22 are spread one by one and conveyed forward in a single-row arrangement mode, the pipes conveyed to the front are blocked by the limiting baffle rod 34 for limiting, when the pipes conveyed to the set area at the tail end of the conveying belt module 22 reach the set number, the second material blocking rods 52 in the first material blocking unit 5 rise to block the back of the pipes, and then the fifth air cylinder 31 in the supporting roller unit 3 drives the supporting roller 33 to rise, the set number of the pipes are upwards supported to be separated from the surface of the conveyer belt module 22, then the material pushing plates 42 in the material pushing unit 4 push a plurality of penetrating materials arranged side by side on the supporting roller 33 to realize output feeding along the axial direction of the pipes, and when the output feeding is carried out to a next processing station, the surfaces of the pipes are cleaned through the cleaning brushes 9, so that a foundation is provided for subsequent processing.

The utility model provides a full-automatic tubular product is feed mechanism 100 in succession side by side, through setting up tubular product memory cell, conveying unit, the supporting roller unit and push away the material unit, the automatic feed material loading of tubular product has been realized, and set up the supporting roller unit in conveying unit's tail section region, and be equipped with raising and lowering functions, can upwards hold up the tubular product of setting for quantity on the conveying unit, realize side by side, more root canal timber of setting for quantity are got simultaneously, the deuterogamy pushes away the tubular product axial of material unit on with the supporting roller unit and releases, realize automatic feeding, many continuous feeding side by side of tubular product has been realized, the material loading efficiency has been improved greatly.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (10)

1. The utility model provides a full-automatic tubular product feed mechanism in succession side by side which characterized in that: the pipe storage unit is used for regularly outputting pipes, the conveying unit is used for arranging the pipes output by the pipe storage unit into a row and then conveying the pipes forwards, the supporting roller unit is positioned at the tail end of the conveying unit and upwards supports the pipes at the tail section of the conveying unit to be separated from the surface of the conveying unit, the pushing unit is used for pushing the pipes on the supporting roller unit out along the axial direction of the pipes to realize feeding, and the first blocking unit is positioned at the front end of the supporting roller unit and used for blocking the pipes on the conveying unit from entering the supporting roller unit.

2. The full-automatic pipe side-by-side continuous feeding mechanism according to claim 1, characterized in that: the pipe storage unit comprises a storage bin, an inclined plane supporting plate and a first air cylinder, wherein the inclined plane supporting plate is positioned at the bottom of the storage bin and used for supporting a pipe; and a material receiving plate which is obliquely arranged is arranged on the upper part of the front end baffle of the storage bin.

3. The full-automatic pipe side-by-side continuous feeding mechanism according to claim 2, characterized in that: the tail end of the material receiving plate is provided with a blocking part, and the tail end of the material receiving plate is also provided with a material ejecting unit which ejects the pipe material at the tail end of the material receiving plate upwards and slides into the conveying unit; the material ejecting unit comprises a second air cylinder, a supporting section bar driven by the second air cylinder to move up and down, and a material ejecting top plate which is fixed on the supporting section bar and only ejects one pipe once.

4. The full-automatic pipe side-by-side continuous feeding mechanism according to claim 1, characterized in that: the conveying unit comprises a driving motor, a plurality of conveying belt modules driven by the driving motor to carry out circulating conveying, a height limiting baffle plate which is positioned above the conveying surface of each conveying belt module and only allows one pipe to pass through, and a material guide plate which is positioned at the front end of each conveying belt module, supports the pipe output by the pipe storage unit and guides the pipe to the conveying belt modules.

5. The full-automatic pipe side-by-side continuous feeding mechanism according to claim 4, characterized in that: the feeding device is characterized in that a second material blocking unit for controlling the number of the tubes entering the feeding plate is further arranged above the feeding plate, and the second material blocking unit comprises a third cylinder and a material blocking plate which is driven by the third cylinder to rotate and swing and is positioned above the feeding plate and matched with the feeding plate to limit the tubes to pass through.

6. The full-automatic pipe side-by-side continuous feeding mechanism according to claim 4, characterized in that: the front end of the conveying belt module is further provided with a third material blocking unit for controlling the number of the tubes entering the conveying belt module, the third material blocking unit comprises a fourth cylinder and a first material blocking rod driven by the fourth cylinder to move up and down and blocking the tubes on the material guide plate entering the conveying belt module.

7. The full-automatic pipe side-by-side continuous feeding mechanism according to claim 1, characterized in that: the supporting roller unit comprises a fifth cylinder, a supporting plate driven by the fifth cylinder to move up and down and a supporting roller rotatably arranged on the supporting plate; the tail end of the supporting roller unit is also provided with a limiting stop lever for stopping the advancing direction of the pipe to limit the pipe at the foremost end.

8. The full-automatic pipe side-by-side continuous feeding mechanism according to claim 1, characterized in that: the first material blocking unit comprises a sixth air cylinder and a second material blocking rod which is driven by the sixth air cylinder to move up and down and blocks the pipe in the conveying unit from entering the supporting roller unit.

9. The full-automatic pipe side-by-side continuous feeding mechanism according to claim 1, characterized in that: the material pushing unit comprises a seventh cylinder and a material pushing plate which is driven by the seventh cylinder to push the pipe material from one end of the pipe material in the axial direction.

10. The full-automatic pipe side-by-side continuous feeding mechanism according to claim 1, characterized in that: the output tail end of the pushing unit is also provided with a cleaning brush for cleaning the surface of the pipe.

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