CN219340865U - Antenna tube discharging device - Google Patents

Abstract

The utility model relates to an antenna tube discharging device. The utility model aims to provide an antenna tube discharging device. The technical scheme includes that the automatic feeding and discharging device comprises a main support, a bin combination, a main discharging air cylinder assembly and an auxiliary air cylinder assembly, wherein the bin combination comprises a main bin and an auxiliary bin, a tube placing cavity is formed in the main bin in an inclined mode, a main discharging hole is formed in the front end of the tube placing cavity, a tube transition cavity is formed in the auxiliary bin, the auxiliary bin comprises an auxiliary bin fixing block, an auxiliary bin bottom plate, an auxiliary bin front baffle and a tube middle rotating plate, an auxiliary stop block working hole is formed in the middle of the auxiliary bin front baffle, and a discharging plate working hole is formed between the auxiliary bin front baffle and the auxiliary bin bottom plate. The utility model has the advantages that: adopt two storehouse structures of main feed bin and vice feed bin for antenna tube material is difficult for the jamming in the ejection of compact in-process, and the ejection of compact is more smooth and easy more steady, and processing production efficiency is higher.

Description

Antenna tube discharging device

Technical Field

The utility model relates to the technical field of antenna tube materials, in particular to an antenna tube material discharging device.

Background

The telescopic pipe for the antenna and other places has a structure shown in fig. 11, and comprises a pipe body (50) with a hollow inside, and generally, the pipe body (50) needs to be punched, hole-collecting and other operations at the end part, and the traditional processing mode is to put the pipe material into a storage bin to be manually held for punching and other station operations, so that the operation mode has large workload and low efficiency, and along with the improvement of the degree of automation, the pipe body (50) needs to be improved in a secondary processing mode.

Disclosure of Invention

In order to solve the problems, the utility model aims to provide an antenna tube discharging device.

The antenna tube discharging device adopts the technical scheme that the antenna tube discharging device comprises a main support, a bin combination, a main discharging cylinder assembly and an auxiliary cylinder assembly, wherein the bin combination is arranged on the main support, the bin combination comprises a main bin and an auxiliary bin, the main bin is obliquely arranged and is internally provided with a tube placing cavity for placing a tube, the front end of the tube placing cavity is provided with a main discharging hole, the auxiliary bin is internally provided with a tube transition cavity communicated with the main discharging hole, the auxiliary bin comprises an auxiliary bin fixing block arranged on the main support, an auxiliary bin bottom plate arranged between the two auxiliary bin fixing blocks, an auxiliary bin front baffle and a tube middle rotating plate, an auxiliary baffle working hole for penetrating the auxiliary cylinder assembly is arranged in the middle of the auxiliary bin front baffle, and a discharging plate working hole for penetrating the main discharging cylinder assembly is formed between the auxiliary bin front baffle and the auxiliary bin bottom plate;

the pipe material transfer plate is provided with a transfer plate sequencing opening used for longitudinally arranging the pipe bodies, and the pipe material transfer plate is arranged between the auxiliary air cylinder assembly and the main discharging air cylinder assembly.

The main discharging cylinder assembly comprises a discharging cylinder base, a guide rail arranged on the discharging cylinder base, a discharging cylinder, a sliding block capable of being arranged on the guide rail in a back-and-forth moving mode, a discharging driving block fixed on the sliding block and connected with the output end of the discharging cylinder, and a discharging plate arranged on the discharging driving block, wherein the discharging plate is arranged below the tube material middle rotating plate, a tube material discharging hole corresponding to the sorting hole of the middle rotating plate is arranged on the discharging plate, and the main discharging cylinder assembly is used for discharging a single tube body.

The auxiliary cylinder assembly comprises an auxiliary cylinder fixed on the main support and an auxiliary baffle connected with the output end of the auxiliary cylinder, a pipe material through hole for the pipe body to pass through is formed in the auxiliary baffle, and the auxiliary cylinder assembly is used for limiting the pipe body in the auxiliary storage bin when feeding.

The width of the tube material through hole is larger than that of the sequencing hole of the transfer plate.

The upper end of the front baffle of the auxiliary bin is provided with a main bin positioning groove for supporting the front end of the main bin.

The auxiliary baffle positioning protrusions are arranged on two sides of the auxiliary baffle, auxiliary baffle first positioning notches corresponding to the auxiliary baffle positioning protrusions are arranged on two sides of the auxiliary baffle working opening, and a front baffle positioning groove for positioning the auxiliary bin front baffle and an auxiliary baffle second positioning notch corresponding to the auxiliary baffle positioning protrusions are arranged in the middle of the auxiliary bin fixing block.

And a pipe material transfer plate mounting port for positioning the pipe material transfer plate is also formed in the auxiliary stock bin fixing block.

The main bin is of a trapezoid structure.

And the auxiliary bin fixing block is also provided with a discharge plate orientation groove corresponding to the discharge plate.

The feed bin combination still includes length adjustment plate subassembly, length adjustment plate subassembly including arranging in the main regulating plate of intracavity is placed to the pipe material, with main regulating plate connects and arranges in the vice regulating plate of pipe material transition intracavity, be equipped with regulating plate location portion on the main regulating plate, pipe material is placed the chamber front and back portion and is equipped with the length adjustment mouth, be equipped with on the regulating plate location portion and be used for fixing regulating plate locating hole on the length adjustment mouth.

The antenna tube discharging device has the advantages that: the air cylinder pushing pipe material is used for discharging, the speed is higher, the processing production efficiency is higher, and the main bin and auxiliary bin double-bin structure is adopted, so that the antenna pipe material is not easy to be blocked and blocked in the discharging process, and the discharging is smoother and more stable.

Drawings

The utility model will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic diagram of an antenna tube discharging device according to the present utility model;

FIG. 2 is a schematic view of the structure of the bin assembly of the utility model;

FIG. 3 is a schematic view of the structure of the main silo of the present utility model;

FIG. 4 is a schematic view of the structure of the sub-silo of the present utility model;

FIG. 5 is a schematic view of the structure of the transfer plate of the tubing of the present utility model;

FIG. 6 is a schematic view of the construction of the main take-off cylinder assembly of the present utility model;

FIG. 7 is a schematic view of the construction of the auxiliary cylinder assembly of the present utility model;

FIG. 8 is a schematic view of the structure of the front baffle of the sub-bin of the present utility model;

FIG. 9 is a schematic view of the structure of the sub-bin securing block of the present utility model;

FIG. 10 is a schematic view of the structure of the length adjustment plate assembly of the present utility model;

FIG. 11 is a schematic view of the structure of the tubing of the present utility model.

Detailed Description

As shown in fig. 1-10, the antenna tube discharging device comprises a main bracket 1, a bin combination 2, a main discharging cylinder assembly 3 and an auxiliary cylinder assembly 4, wherein the bin combination 2 is arranged on the main bracket 1, the bin combination 2 comprises a main bin 6 and an auxiliary bin 7, the main bin 6 is obliquely arranged, a tube placing cavity 10 used for placing a tube body 50 is arranged in the main bin 6, a main discharging hole 11 is arranged at the front end of the tube placing cavity 10, a tube transition cavity 12 communicated with the main discharging hole 11 is arranged in the auxiliary bin 7, the auxiliary bin 7 comprises an auxiliary bin fixing block 13 arranged on the main bracket 1, an auxiliary bin bottom plate 14 arranged between the two auxiliary bin fixing blocks 13, an auxiliary bin front baffle 15 and a tube material middle rotating plate 16, an auxiliary baffle working hole 17 used for penetrating the auxiliary cylinder assembly 4 is arranged in the middle of the auxiliary bin front baffle 15, and a discharging plate working hole 18 used for penetrating the main discharging cylinder assembly 3 is formed between the auxiliary bin front baffle 15 and the auxiliary bin bottom plate 14; be equipped with on the pipe material transfer board 16 and be used for transfer board sequencing mouth 20 of body 50 longitudinal arrangement, the pipe material transfer board 16 is arranged in auxiliary cylinder subassembly 4 with main ejection of compact cylinder subassembly 3 is between, carries out the ejection of compact through cylinder propelling movement pipe material, and the speed is faster, and processing production efficiency is higher, adopts main feed bin and the double-deck structure of auxiliary feed bin for antenna pipe material is difficult for the jamming in ejection of compact in-process, blocks up, and the ejection of compact is more smooth and easy more steady.

The main discharging cylinder assembly 3 comprises a discharging cylinder base 22, a guide rail 23 and a discharging cylinder 24 which are arranged on the discharging cylinder base 22, a sliding block 25 which is arranged on the guide rail 23 in a back-and-forth movable mode, a discharging driving block 26 which is fixed on the sliding block 25 and connected with the output end of the discharging cylinder 24, and a discharging plate 27 which is arranged on the discharging driving block 26, wherein the discharging plate 27 is arranged below the pipe material middle rotating plate 16, a pipe material discharging hole 29 which corresponds to the middle rotating plate sorting hole 20 is arranged on the discharging plate 27, and the main discharging cylinder assembly 3 is used for discharging single pipe body 50 and has reliable and stable discharging action.

The auxiliary cylinder assembly 4 comprises an auxiliary cylinder 30 fixed on the main support 1 and an auxiliary baffle plate 31 connected with the output end of the auxiliary cylinder 30, a pipe material through hole 33 used for the pipe body 50 to pass through is formed in the auxiliary baffle plate 31, the auxiliary cylinder assembly 4 is used for limiting the pipe body 50 in the auxiliary storage bin 7 when feeding materials, and the auxiliary cylinder assembly 4 is matched with the main discharging cylinder assembly 3 to act, so that the auxiliary cylinder assembly is stable and free from clamping stagnation when discharging materials.

The width of the tube pass opening 33 is larger than the width of the transfer plate sequencing opening 20.

The upper end of the auxiliary bin front baffle 15 is provided with a main bin positioning groove 35 for supporting the front end of the main bin 6.

Auxiliary baffle plate positioning protrusions 36 are arranged on two sides of the auxiliary baffle plate 31, auxiliary baffle plate first positioning notches 37 corresponding to the auxiliary baffle plate positioning protrusions 36 are arranged on two sides of the auxiliary baffle plate working opening 17, a front baffle plate positioning groove 39 for positioning the auxiliary baffle plate 15 in front of the auxiliary bin and an auxiliary baffle plate second positioning notch 38 corresponding to the auxiliary baffle plate positioning protrusions 36 are arranged in the middle of the auxiliary bin fixing block 13, and the positioning is accurate and the action is stable.

The auxiliary bin fixing block 13 is also provided with a pipe material transfer plate mounting port 40 for positioning the pipe material transfer plate 16, and the pipe material transfer plate mounting port is simple in structure and firm in connection.

The main bin 6 is of a trapezoid structure, so that antenna tube materials can fall conveniently.

The auxiliary bin fixing block 13 is also provided with a discharge plate orientation groove 41 corresponding to the discharge plate 27, so that the positioning is accurate.

The bin combination 2 further comprises a length adjusting plate assembly 43, the length adjusting plate assembly 43 comprises a main adjusting plate 46 arranged in the pipe material placing cavity 10, and an auxiliary adjusting plate 47 connected with the main adjusting plate 46 and arranged in the pipe material transition cavity 12, an adjusting plate positioning part 48 is arranged on the main adjusting plate 46, a length adjusting opening 45 is arranged at the front part and the rear part of the pipe material placing cavity 10, an adjusting plate positioning hole 49 used for being fixed on the length adjusting opening 45 is arranged on the adjusting plate positioning part 48, and the length of the pipe material placing bin combination can be limited according to the length of the pipe material, so that the application range is wide.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. An antenna tube material discharging device which is characterized in that: the automatic feeding device comprises a main support (1), a bin combination (2), a main discharging air cylinder assembly (3) and an auxiliary air cylinder assembly (4) which are arranged on the main support (1), wherein the bin combination (2) comprises a main bin (6) and an auxiliary bin (7), the main bin (6) is obliquely arranged, a tube material placing cavity (10) used for placing a tube body (50) is arranged in the main bin, the front end of the tube material placing cavity (10) is provided with a main discharging hole (11), a tube material transition cavity (12) communicated with the main discharging hole (11) is arranged in the auxiliary bin (7), the auxiliary bin (7) comprises an auxiliary bin fixing block (13) arranged on the main support (1), an auxiliary bin bottom plate (14) arranged between the auxiliary bin fixing blocks (13), an auxiliary bin front baffle (15) and a tube material middle rotating plate (16), an auxiliary stop working hole (17) used for penetrating the auxiliary air cylinder assembly (4) is arranged in the middle of the auxiliary bin front baffle (15) and the auxiliary bin bottom plate (14) to form a discharging hole (18) which is used for penetrating the main air cylinder assembly (3); the pipe material transfer plate (16) is provided with transfer plate sequencing ports (20) used for longitudinally arranging the pipe bodies (50), and the pipe material transfer plate (16) is arranged between the auxiliary air cylinder assembly (4) and the main discharging air cylinder assembly (3).

2. The antenna tube discharge apparatus of claim 1 wherein: the main discharging cylinder assembly (3) comprises a discharging cylinder base (22), a guide rail (23) arranged on the discharging cylinder base (22) and a discharging cylinder (24), a sliding block (25) arranged on the guide rail (23) in a back-and-forth moving mode, a discharging driving block (26) fixed on the sliding block (25) and connected with the output end of the discharging cylinder (24), and a discharging plate (27) arranged on the discharging driving block (26), wherein the discharging plate (27) is arranged below the pipe middle rotating plate (16), a pipe material discharging hole (29) corresponding to the middle rotating plate sorting hole (20) is formed in the discharging plate (27), and the main discharging cylinder assembly (3) is used for discharging a single pipe body (50).

3. The antenna tube discharge apparatus of claim 1 wherein: the auxiliary cylinder assembly (4) comprises an auxiliary cylinder (30) fixed on the main support (1) and an auxiliary baffle (31) connected with the output end of the auxiliary cylinder (30), a pipe material through hole (33) used for the pipe body (50) to pass through is formed in the auxiliary baffle (31), and the auxiliary cylinder assembly (4) is used for limiting the pipe body (50) in the auxiliary storage bin (7) when feeding.

4. An antenna tube discharging device according to claim 3, wherein: the width of the pipe material through hole (33) is larger than that of the transfer plate sequencing hole (20).

5. The antenna tube discharge apparatus of claim 1 wherein: the upper end of the auxiliary bin front baffle (15) is provided with a main bin positioning groove (35) for supporting the front end of the main bin (6).

6. An antenna tube discharging device according to claim 3, wherein: auxiliary baffle (31) both sides are equipped with auxiliary baffle location arch (36), auxiliary baffle work mouth (17) both sides be equipped with auxiliary baffle location arch (36) corresponding auxiliary baffle first location notch (37), auxiliary feed bin fixed block (13) middle part be equipped with be used for preceding baffle (15) location's of auxiliary feed bin preceding baffle constant head tank (39) and with auxiliary baffle second location notch (38) corresponding auxiliary baffle location arch (36).

7. The antenna tube discharge apparatus of claim 1 wherein: and a pipe material middle rotating plate mounting opening (40) for positioning the pipe material middle rotating plate (16) is also formed in the auxiliary bin fixing block (13).

8. The antenna tube discharge apparatus of claim 1 wherein: the main bin (6) is of a trapezoid structure.

9. The antenna tube discharge apparatus of claim 2 wherein: and the auxiliary bin fixing block (13) is also provided with a discharge plate orientation groove (41) corresponding to the discharge plate (27).

10. The antenna tube discharge apparatus of claim 1 wherein: the feed bin combination (2) still includes length adjustment board subassembly (43), length adjustment board subassembly (43) are including arranging in main regulating plate (46) in cavity (10) are placed to the pipe material, with main regulating plate (46) are connected and are arranged in vice regulating plate (47) in pipe material transition chamber (12), be equipped with regulating plate location portion (48) on main regulating plate (46), the cavity (10) is placed to the pipe material front and back portion is equipped with length adjustment mouth (45), be equipped with on regulating plate location portion (48) and be used for fixing regulating plate locating hole (49) on length adjustment mouth (45).

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