CN215999659U - Automatic change vertical row sword double-end processing lathe - Google Patents

Abstract

The utility model discloses an automatic change vertical gang tool double-end processing lathe, including the feed bin, with the feed bin material loading conveyer belt be connected, set up in the processing lathe of feed bin conveyer belt one side, the processing lathe includes the workstation, set up in hydraulic pressure holder power main shaft in the middle of the workstation, set up in the material loading processing agency of hydraulic pressure holder power main shaft one side, set up in hydraulic pressure holder power main shaft keep away from the unloading mechanism of material loading worker mechanism one side, set up in the unloading conveyer belt of unloading mechanism one side. The utility model has the advantages that the utility model can process two ends of shaft and pipe parts simultaneously, and the workpiece can be clamped once, and can process the two ends of the parts simultaneously, such as turning, boring, drilling, tapping, and the like; the automatic feeding and discharging machine integrates an automatic feeding and discharging mechanism with an economical structure, can realize high-efficiency automatic production and processing, can effectively save space, and is convenient for chip removal.

Description

Automatic change vertical row sword double-end processing lathe

Technical Field

The utility model relates to a shaft, pipe part processing technology field, especially an automatic change vertical gang tool double-end processing lathe.

Background

The lathe is a machine tool which mainly uses a turning tool to perform turning processing on a rotating workpiece; the lathe can also be correspondingly processed by a drill bit, a reamer, a screw tap, a die, a knurling tool and the like;

the numerical control lathe comprises a base placed on the ground, a protective cover fixed on the base and used for protection, and an observation window connected with the protective cover in a sliding manner and used for observation, wherein the base is also provided with a workbench used for moving, a machining tool used for machining a part and a pneumatic chuck used for clamping the part; during machining, firstly, a part to be machined is placed in a pneumatic chuck to be fixed, and machining is carried out by matching with a machining cutter on a workbench; the clamping effect is poor when the shaft and pipe parts are machined at present, and only single-end machining can be carried out on the shaft and pipe parts, so that the efficiency is low and the use effect is poor;

in view of the above, there is a need to improve the existing lathe for machining shaft and pipe parts to meet the requirements of double-headed machining of shaft and pipe parts.

SUMMERY OF THE UTILITY MODEL

The clamping effect is poor when the shaft and pipe parts are machined at present, and only single-end machining can be carried out on the shaft and pipe parts, so that the efficiency is low and the use effect is poor; therefore, the automatic vertical type gang tool double-end machining lathe is designed on the basis of the defects of the prior art, the efficiency is high, the clamping effect on workpieces is good, and people can conveniently machine shaft and pipe parts.

The technical scheme of the utility model is that, the automatic vertical gang tool double-head processing lathe comprises a storage bin, a feeding conveyer belt connected with the storage bin, and a processing lathe arranged on one side of the feeding conveyer belt, wherein the processing lathe comprises a workbench, a hydraulic clamping seat power main shaft arranged in the middle of the workbench, a feeding processing mechanism arranged on one side of the hydraulic clamping seat power main shaft, and a discharging mechanism arranged on one side of the hydraulic clamping seat power main shaft away from the feeding mechanical mechanism; and a blanking conveying belt is arranged on one side of the blanking mechanism.

The machining lathe is further supplemented, a chip removal collecting box is arranged on the machining lathe and below the power spindle of the hydraulic clamping seat, and the chip removal collecting box is perpendicular to the machining lathe and is in a cross shape.

According to the technical scheme, the blanking conveyor belt is provided with a blanking receiving vehicle on one side, and the blanking conveyor belt and the blanking receiving vehicle are arranged vertically.

In addition to the technical scheme, a material pushing mechanism is arranged on the feeding conveyor belt and in a position parallel to the feeding processing mechanism.

The technical scheme is further supplemented, and the feeding and processing mechanism comprises a first longitudinal moving mechanism, a first V-shaped frame arranged on the first longitudinal moving mechanism, and a material ejecting mechanism arranged on the first longitudinal moving mechanism and arranged in parallel with the first V-shaped frame; the first longitudinal moving mechanism is installed on the processing lathe.

The technical scheme is further supplemented, the blanking mechanism comprises a second longitudinal moving mechanism, a turnover mechanism arranged on the second longitudinal moving mechanism and a second V-shaped frame connected with the turnover mechanism, the second longitudinal moving mechanism is fixedly arranged on the processing lathe, the turnover mechanism is arranged on the second longitudinal moving mechanism and positioned above the blanking conveying belt, and the second V-shaped frame is connected with the turnover mechanism through a pin shaft.

The technical scheme is further supplemented, and the positions of the blanking conveying belt and the blanking receiving vehicle are also provided with pushing mechanisms.

The technical scheme is further supplemented, and the feeding conveying belt and the blanking conveying belt are arranged in parallel.

The technical scheme is further supplemented, and the material ejecting mechanism, the first V-shaped frame, the hydraulic clamping seat power main shaft and the second V-shaped frame are arranged in a collinear manner.

The pipe-type workpiece clamping device has the beneficial effects that the shaft-type workpiece clamping device can simultaneously process two ends of shaft and pipe-type parts, the workpiece is clamped once, and the two ends of the parts can be simultaneously processed by turning, boring, drilling, tapping and the like; the automatic feeding and discharging machine integrates an automatic feeding and discharging mechanism with an economical structure, can realize high-efficiency automatic production and processing, can effectively save space, and is convenient for chip removal.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1;

FIG. 3 is an enlarged view of a portion B of FIG. 1;

in the figure, 1, a stock bin; 2. a feeding conveyer belt; 3. processing a lathe; 31. a work table; 32. a hydraulic clamping seat power main shaft; 33. a feeding processing mechanism; 331. a first longitudinal movement mechanism; 332. a first V-shaped frame; 333. a material ejecting mechanism; 34. a blanking mechanism; 341. a second longitudinal movement mechanism; 342. a turnover mechanism; 343. a second V-shaped frame; 35. blanking a conveying belt; 4. a chip removal collection box; 5. blanking and receiving vehicle; 6. a material pushing mechanism; 7. a push-out mechanism.

Detailed Description

The clamping effect is poor when the shaft and pipe parts are machined at present, and only single-end machining can be carried out on the shaft and pipe parts, so that the efficiency is low and the use effect is poor; therefore, the automatic vertical type gang tool double-end machining lathe is designed on the basis of the defects of the prior art, the efficiency is high, the clamping effect on workpieces is good, and people can conveniently machine shaft and pipe parts.

In order to make the technical solution more clear to those skilled in the art, the technical solution of the present invention will be described in detail below with reference to fig. 1 to 3: an automatic vertical gang tool double-head processing lathe 3 comprises a bin 1, a feeding conveyer belt 2 connected with the bin 1 and a processing lathe 3 arranged on one side of the feeding conveyer belt 2, wherein the processing lathe 3 comprises a workbench 31, a hydraulic clamping seat power main shaft 32 arranged in the middle of the workbench 31, a feeding processing mechanism 33 arranged on one side of the hydraulic clamping seat power main shaft 32 and a discharging mechanism 34 arranged on one side, far away from the feeding processing mechanism, of the hydraulic clamping seat power main shaft 32; a blanking conveyer belt 35 is arranged on one side of the blanking mechanism 34; a plurality of workpieces are placed in the stock bin 1, the feeding conveyer belt 2 can convey the workpieces, and the machining lathe 3 can machine double heads or single heads of the workpieces better; the blanking conveyor belt 35 can convey the processed workpiece.

Because the hydraulic clamping seat power spindle 32 unit may generate debris when processing a workpiece, a chip removal collection box 4 is arranged on the processing lathe 3 and below the hydraulic clamping seat power spindle 32, and the chip removal collection box 4 is perpendicular to the processing lathe 3 and is in a cross shape.

In order to enable the workpieces on the feeding conveyer belt 2 to smoothly fall onto the feeding processing mechanism 33 and facilitate subsequent processing of the workpieces, a pushing mechanism 6 is arranged on the feeding conveyer belt 2 in a position parallel to the feeding processing mechanism 33, and the pushing mechanism 6 is driven by an air cylinder.

The feeding processing mechanism 33 includes a first longitudinal moving mechanism 331, a first V-shaped frame 332 disposed on the first longitudinal moving mechanism 331, and a material ejecting mechanism 333 disposed on the first longitudinal moving mechanism 331 and disposed parallel to the first V-shaped frame 332; the first longitudinal movement mechanism 331 is mounted on the machining lathe 3; the blanking mechanism 34 comprises a second longitudinal moving mechanism 341, a turnover mechanism 342 arranged on the second longitudinal moving mechanism 341, and a second V-shaped frame 343 connected with the turnover mechanism 342, the second longitudinal moving mechanism 341 is fixedly mounted on the processing lathe 3, the turnover mechanism 342 is mounted on the second longitudinal moving mechanism 341 and located above the blanking conveyor belt 35, and the second V-shaped frame 343 is connected with the turnover mechanism 342 through a pin; the material ejecting mechanism 333 is driven by an air cylinder, and the turnover mechanism 342 is also driven by an air cylinder.

Wherein, a blanking receiving vehicle 5 is arranged on one side of the blanking conveyer belt 35, and the blanking conveyer belt 35 is vertical to the blanking receiving vehicle 5; in order to enable the processed workpiece on the blanking conveying belt 35 to be automatically unloaded without manual unloading, the position of the blanking conveying belt 35 and the position of the blanking receiving vehicle are also provided with a pushing mechanism 7, and the pushing mechanism 7 is driven by an air cylinder.

Preferably, the feeding conveyor belt 2 and the discharging conveyor belt 35 are arranged in parallel, so that the work is facilitated, and the material ejecting mechanism 333, the first V-shaped frame 332, the hydraulic clamping seat power spindle 32 and the second V-shaped frame 343 are arranged in a collinear manner, so that the clamping, feeding and discharging of workpieces are facilitated.

The following description of the system illustrates the overall working principle of the present invention: firstly, a workpiece in a bin 1 is placed on a feeding conveyer belt 2, then the feeding conveyer belt 2 conveys the workpiece, when the workpiece is moved to the position of a pushing mechanism 6, the pushing mechanism 6 pushes the workpiece on the feeding conveyer belt 2 out and moves the workpiece onto a first V-shaped frame 332, then the workpiece on the first V-shaped frame 332 is pushed out and moves onto a hydraulic clamping seat power main shaft 32 under the action of an ejecting mechanism 333 by adjusting a first longitudinal moving mechanism 331 according to the height between the first V-shaped frame 332 and the hydraulic clamping seat power main shaft 32, then the workpiece is clamped by the hydraulic clamping seat power main shaft 32, two ends of the workpiece can be simultaneously processed or single-end processed according to requirements, after the processing is finished, the workpiece is pushed out and moved onto a second V-shaped frame 343 of a blanking mechanism 34 through the ejecting mechanism 333, then under the effect of tilting mechanism 342, the work piece on the second V type frame 343 is turned over and is moved to unloading conveyer belt 35 on, then unloading conveyer belt 35 carries the work piece, waits to move to ejecting mechanism 7 position department, and ejecting mechanism 7 pushes out the work piece on the unloading conveyer belt 35 and falls to unloading and connects the skip 5 on, and degree of automation is high, is convenient for people to use.

Above-mentioned technical scheme has only embodied the utility model discloses technical scheme's preferred technical scheme, some changes that this technical field's technical personnel probably made to some parts wherein have all embodied the utility model discloses a principle belongs to within the protection scope of the utility model.

Claims (9)

1. An automatic vertical gang tool double-end processing lathe is characterized by comprising a bin (1), a feeding conveyer belt (2) connected with the bin (1), and a processing lathe (3) arranged on one side of the feeding conveyer belt (2), wherein the processing lathe (3) comprises a workbench (31), a hydraulic clamping seat power main shaft (32) arranged in the middle of the workbench (31), a feeding processing mechanism (33) arranged on one side of the hydraulic clamping seat power main shaft (32), and a blanking mechanism (34) arranged on one side, far away from the feeding mechanism, of the hydraulic clamping seat power main shaft (32); and a blanking conveying belt (35) is arranged on one side of the blanking mechanism (34).

2. The automatic vertical type double-end lathe for machining the gang tool as claimed in claim 1, wherein a chip removal collection box (4) is arranged on the lathe (3) and below the hydraulic chuck power spindle (32), and the chip removal collection box (4) is perpendicular to the lathe (3) and is in a cross shape.

3. The automatic vertical double-ended lathe for processing the lathe is characterized in that a blanking and receiving vehicle (5) is arranged on one side of the blanking conveying belt (35), and the blanking conveying belt (35) is perpendicular to the blanking and receiving vehicle (5).

4. The automatic vertical double-ended processing lathe with the row of knives as claimed in claim 3, characterized in that the material pushing mechanism (6) is arranged on the material feeding conveyer belt (2) in parallel with the material feeding processing mechanism (33).

5. The automatic vertical type row-cutter double-head processing lathe according to claim 4, wherein the feeding processing mechanism (33) comprises a first longitudinal moving mechanism (331), a first V-shaped frame (332) arranged on the first longitudinal moving mechanism (331), and an ejecting mechanism (333) arranged on the first longitudinal moving mechanism (331) and parallel to the first V-shaped frame (332); the first longitudinal moving mechanism (331) is mounted on a machining lathe (3).

6. The automatic vertical double-ended lathe for processing the lathe with the row of knives as claimed in claim 5, wherein the blanking mechanism (34) comprises a second longitudinal moving mechanism (341), a turnover mechanism (342) arranged on the second longitudinal moving mechanism (341), and a second V-shaped frame (343) connected with the turnover mechanism (342), the second longitudinal moving mechanism (341) is fixedly arranged on the processing lathe (3), the turnover mechanism (342) is arranged on the second longitudinal moving mechanism (341) and positioned above the blanking conveyer belt (35), and the second V-shaped frame (343) is connected with the turnover mechanism (342) through a pin.

7. The automatic vertical double-ended lathe for machining with row knives as claimed in claim 6, characterized in that the position of the blanking conveyer belt (35) opposite to the blanking receiving vehicle (5) is further provided with a push-out mechanism (7).

8. The automatic vertical double-ended lathe for processing with row knives as claimed in claim 7, characterized in that the feeding conveyor belt (2) and the discharging conveyor belt (35) are arranged in parallel.

9. The automatic vertical gang tool double-head machining lathe according to claim 8, characterized in that the ejection mechanism (333), the first V-shaped frame (332), the hydraulic chuck power spindle (32) and the second V-shaped frame (343) are arranged in a collinear manner.

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