CN201940635U

CN201940635U - Four-station processing machine

Info

Publication number: CN201940635U
Application number: CN2010206500304U
Authority: CN
Inventors: 薛玉田
Original assignee: FUZHOU JULI MOTOR PARTS Co Ltd
Current assignee: FUZHOU JULI MOTOR PARTS Co Ltd
Priority date: 2010-12-09
Filing date: 2010-12-09
Publication date: 2011-08-24
Anticipated expiration: 2020-12-09

Abstract

The utility model discloses a four-station processing machine, which comprises a rotary working platform. Four stations are arranged on the rotary working platform, identical clamps for a workpiece to be processed are disposed on the stations, the first station is a clamping station, the second station is a rough boring station, the third station is a boring lubricating groove station, the fourth station is a precise boring station, the workpiece to be processed on the clamping station is mounted on the clamp, and driven by the rotary working platform to rotate in a stepped manner, the workpiece to be processed is sequentially adjusted along the clamping station, the rough boring station, the boring lubricating groove station and the precise boring station one by one when rotating once, and a rough boring spindle system, a boring lubricating groove spindle system and a precise boring spindle system which respectively correspond to the second station, the third station and the fourth station are arranged at the peripheral edge of the rotary working platform. The utility model further discloses the technique for processing a connecting rod by the aid of the four-station processing machine. The four-station processing machine and the processing method require only one-step clamping, rough boring and precise boring of large holes and small holes and boring lubricating grooves of the connecting rod can be simultaneously realized on the four-station processing machine, and accordingly quality and production efficiency of products are greatly improved.

Description

Four station processing machines

Technical field

The utility model relates to the metal manufacture field, relates in particular to a kind of four station processing machines.

Background technology

Traditional large and small hole of connecting rod boring and boring oil cavity technology are: operation one, the large and small hole of heavy boring; Operation two, the boring oil cavity; Operation three, the large and small hole of right boring (needs No. three clampings) respectively and machines on three equipment.Because multiple clamping, each clamping all is easy to generate certain error, when often causing the fine finishining hole above the right boring not; If in order guaranteeing above the processing, and allowance to be strengthened, to cause machined surface fineness not reach customer requirement again, also cause row position tolerance overproof easily.Therefore, traditional processing technology machining accuracy is poor, efficient is low.

Summary of the invention

The purpose of this utility model provides a kind of machining accuracy height, four station processing machines that production efficiency is high.

For achieving the above object, four station processing machines of the present utility model comprise rotary table, rotary table is provided with four stations, each station is provided with the identical anchor clamps of work piece, first station is the clamping station, second station is the rough bore station, the 3rd station is a boring lubrication groove station, the 4th station is a right boring hole station, work piece is installed on the anchor clamps on the clamping station, driving step-by-step movement by rotary table rotates, revolution is moving once, work piece is along the clamping station, the rough bore station, boring lubrication groove station, right boring hole station is adjusted a station in proper order, at rotary table periphery corresponding second, three, four stations are respectively equipped with the heavy boring axis system, boring lubrication groove axis system and right boring axis system.

Heavy boring axis system of the present utility model comprises heavy boring macropore mainshaft mechanism and heavy boring aperture mainshaft mechanism, it is set up in parallel on the slide block of board, slide block drives side-to-side movement by servo control mechanism, feed motion before and after the output shaft on heavy boring macropore mainshaft mechanism and the heavy boring aperture mainshaft mechanism is driven by feed mechanism.

Boring lubrication groove axis system of the present utility model is arranged on the slide block of board, feed motion before and after the output shaft on the boring lubrication groove axis system is driven by feed mechanism.

Right boring axis system of the present utility model comprises right boring macropore mainshaft mechanism and right boring aperture mainshaft mechanism, it is set up in parallel on the slide block of board, slide block drives side-to-side movement by servo control mechanism, feed motion before and after the output shaft on right boring macropore mainshaft mechanism and the right boring aperture mainshaft mechanism is driven by feed mechanism.

Adopt the method for processing machine processing connecting rod of the present utility model, it comprises the steps:

Step 1: first connecting rod is fixed on the anchor clamps at the clamping station;

Step 2: the rotary table step-by-step movement is rotated, and drives first connecting rod and enters second station, and the heavy boring axis system of corresponding second station carries out heavy boring to the big aperture of first connecting rod; Second connecting rod is fixed on the anchor clamps at the clamping station simultaneously;

Step 3: after the big aperture heavy boring of first connecting rod was finished, the rotary table step-by-step movement was rotated, and drove first connecting rod and entered the 3rd station, and the boring lubrication groove axis system of corresponding the 3rd station is lubricated the bore hole of groove to first connecting rod; Drive second connecting rod simultaneously and enter second station, the heavy boring axis system of corresponding second station carries out heavy boring to the big aperture of second connecting rod; The 3rd connecting rod is fixed on the anchor clamps at the clamping station;

Step 4: first connecting rod and second connecting rod are respectively after the 3rd station of correspondence and second station machine, the rotary table step-by-step movement is rotated, drive first connecting rod and enter the 4th station, the right boring axis system of corresponding the 4th station carries out right boring to the big aperture of first connecting rod; Drive second connecting rod simultaneously and enter the 3rd station, boring lubrication groove axis system is lubricated the bore hole of groove to second connecting rod; The 3rd connecting rod enters second station, and the heavy boring axis system of corresponding second station carries out heavy boring to the big aperture of the 3rd connecting rod; The 4th connecting rod is fixed on the anchor clamps at the clamping station;

Step 5: first to the 3rd connecting rod is respectively after the 4th to second station of correspondence machines, the rotary table step-by-step movement is rotated, first connecting rod is got back to the clamping station, unload the connecting rod that machines, load onto connecting rod to be processed again on anchor clamps, four connecting rods like this carry out the processing of different station synchronously at four stations.

Rotary table of the present utility model revolves at every turn and turn 90 degrees and lock, and waits for processing next time.

Adopt equipment of the present utility model and processing method, only need carry out clamping No. one time, on four station processing machines, finish the large and small hole of thick right boring and the boring lubrication groove of connecting rod simultaneously.In addition, only need personnel in enterprising luggage folder of clamping station and unmount operations during this equipment work, the system of processing of its excess-three station is processed three connecting rods simultaneously, thereby has significantly improved product quality and production efficiency.

Description of drawings

Below in conjunction with the drawings and specific embodiments the utility model is described in further detail:

Fig. 1 is the structural representation of the utility model four station processing machines;

Fig. 2 is the rotary table structural representation of the utility model four station processing machines;

Fig. 3 is the Machining of Connecting Rod schematic diagram of step 2 in the utility model processing technology;

Fig. 4 is the Machining of Connecting Rod schematic diagram of step 3 in the utility model processing technology;

Fig. 5 is the Machining of Connecting Rod schematic diagram of step 4 in the utility model processing technology.

The specific embodiment

Shown in Fig. 1 to 2, four station processing machines of the present utility model comprise rotary table 1, rotary table 1 is provided with four stations, each station is provided with the identical anchor clamps 15 of work piece, first station 11 is the clamping station, second station 12 is the rough bore station, the 3rd station 13 is boring lubrication groove station, the 4th station 14 is right boring hole station, work piece is being installed on the clamping station 11 on the anchor clamps 15, driving step-by-step movement by rotary table 1 rotates, revolution is moving once, work piece is along clamping station 11, rough bore station 12, boring lubrication groove station 13, station 14 orders in right boring hole are adjusted a station, at rotary table 1 periphery corresponding second, three, four stations 12,13,14 are respectively equipped with heavy boring axis system 2, boring lubrication groove axis system 3 and right boring axis system 4.Heavy boring main shaft of the present utility model 2 systems comprise heavy boring macropore mainshaft mechanism 21 and heavy boring aperture mainshaft mechanism 22, it is set up in parallel on the slide block 23 of board, slide block drives side-to-side movement by servo control mechanism, feed motion before and after the output shaft on heavy boring macropore mainshaft mechanism 21 and the heavy boring aperture mainshaft mechanism 22 is driven by feed mechanism.

Boring lubrication groove axis system 3 of the present utility model is arranged on the slide block 31 of board, feed motion before and after the output shaft on the boring lubrication groove axis system 3 is driven by feed mechanism.

Right boring axis system 4 of the present utility model comprises right boring macropore mainshaft mechanism 41 and right boring aperture mainshaft mechanism 42, it is set up in parallel on the slide block 43 of board, slide block 43 drives side-to-side movement by servo control mechanism, feed motion before and after the output shaft on right boring macropore mainshaft mechanism 41 and the right boring aperture mainshaft mechanism 42 is driven by feed mechanism.

Shown in Fig. 1 to 5, adopt processing machine of the present utility model to carry out the method for Machining of Connecting Rod, it comprises the steps:

Step 1: first connecting rod is fixed on the anchor clamps 15 at clamping station 11;

Step 2: rotary table 1 step-by-step movement is rotated, and drives first connecting rod and enters second station 12, and the heavy boring axis system 2 of corresponding second station 12 carries out heavy boring to the

big aperture

61,62 of first connecting rod; Second connecting rod is fixed on the anchor clamps at clamping station 11 simultaneously;

Step 3: after the big aperture heavy boring of first connecting rod was finished, rotary table 1 step-by-step movement was rotated, and drove first connecting rod and entered the 3rd station 13, and the boring lubrication groove axis system 3 of corresponding the 3rd station 13 is lubricated the bore hole of groove 7 to first connecting rod; Drive second connecting rod simultaneously and enter second station 12, the big aperture of 2 pairs of second connecting rods of heavy boring axis system of corresponding second station 12 carries out heavy boring; The 3rd connecting rod is fixed on the anchor clamps 15 at clamping station 11;

Step 4: first connecting rod and second connecting rod are respectively after the 3rd station 13 of correspondence and second station 12 machine, rotary table 1 step-by-step movement is rotated, drive first connecting rod and enter the 4th station 14, the right boring axis system 4 of corresponding the 4th station 14 carries out right boring to the

big aperture

61,62 of first connecting rod; Drive second connecting rod simultaneously and enter the 3rd station 13,3 pairs of second connecting rods of boring lubrication groove axis system are lubricated the bore hole of groove 7; The 3rd connecting rod enters second station 12, and the big aperture of 2 pairs of the 3rd connecting rods of heavy boring axis system of corresponding second station 12 carries out heavy boring; The 4th connecting rod is fixed on the anchor clamps 15 at clamping station 11;

Step 5: first to the 3rd connecting rod is respectively after the 4th to second station of correspondence machines, rotary table 1 step-by-step movement is rotated, first connecting rod is got back to clamping station 11, unload the connecting rod that machines, load onto connecting rod to be processed again on anchor clamps 15, four connecting rods like this carry out the processing of different station synchronously at four stations.

Rotary table 1 of the present utility model revolves at every turn and turn 90 degrees and lock, and waits for processing next time.

Claims

1. four station processing machines, it is characterized in that: it comprises rotary table, rotary table is provided with four stations, each station is provided with the identical anchor clamps of work piece, first station is the clamping station, second station is the rough bore station, the 3rd station is a boring lubrication groove station, the 4th station is a right boring hole station, work piece is installed on the anchor clamps on the clamping station, driving step-by-step movement by rotary table rotates, revolution is moving once, work piece is along the clamping station, the rough bore station, boring lubrication groove station, right boring hole station is adjusted a station in proper order, at rotary table periphery corresponding second, three, four stations are respectively equipped with the heavy boring axis system, boring lubrication groove axis system and right boring axis system.

2. four station processing machines according to claim 1, it is characterized in that: described heavy boring axis system comprises heavy boring macropore mainshaft mechanism and heavy boring aperture mainshaft mechanism, it is set up in parallel on the slide block of board, slide block drives side-to-side movement by servo control mechanism, feed motion before and after the output shaft on heavy boring macropore mainshaft mechanism and the heavy boring aperture mainshaft mechanism is driven by feed mechanism.

3. four station processing machines according to claim 1 is characterized in that: described boring lubrication groove axis system is arranged on the slide block of board, feed motion before and after the output shaft on the boring lubrication groove axis system is driven by feed mechanism.

4. four station processing machines according to claim 1, it is characterized in that: described right boring axis system comprises right boring macropore mainshaft mechanism and right boring aperture mainshaft mechanism, it is set up in parallel on the slide block of board, slide block drives side-to-side movement by servo control mechanism, feed motion before and after the output shaft on right boring macropore mainshaft mechanism and the right boring aperture mainshaft mechanism is driven by feed mechanism.