JPH01159125A - Gear grinding method - Google Patents

Abstract

PURPOSE:To carry out grinding with high precision by the gear grinding method consisting of cutting-in zero grinding, gear grinding method consisting of dividing grinding, and a rough grinding process and finishing grinding process. CONSTITUTION:The number of times of intermediate zero grinding, number of times of rough final zero grinding, and the number of times of finishing grinding are set into the setting parts 31-33, and when the dividing grinding is carried out, the number of teeth corresponding to the starting point of the unit process is set into a setting part 34. In the rough grinding process, grinding is carried out at an ordinary grinding feed speed. Since the cut-in quantity is set to zero in the intermediate zero grinding and the final zero grinding, each deflection of the grindstones 21 and 22 is nearly zero, and grinding is carried out in the state where the chattering due to the elastic vibration of the grindstones 21 and 22 is nearly zero. Since the starting point of the unit process is deflected in the dividing grinding, the backlash of the rotary mechanism of a gear 1 and the influence due to the delicate tendency of a grinding machine or grindstone dresser are dispersed and diluted onto each gear surface of the gear 1. The finishing grinding is carried out at a low grinding feed speed, and the deflection of the supporting shaft for the grindstones 21 and 22 is reduced and the chattering due to the elastic vibration can be reduced.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a gear grinding method for grinding tooth surfaces of gears with high efficiency and precision.

[Conventional technology]

Recently, the requirements for low noise, low vibration, and high efficiency transmission performance of gears have become significantly more sophisticated. Gears that meet these requirements are realized by grinding tooth surfaces with high precision.

Figure fi4 is an explanatory diagram of the gear grinding method. With a pair of grindstones (21 and 22), grind a pair of tooth surfaces (1) of a gear (1).
0a'a at the same time, and each time the grinding of the pair of tooth surfaces QD 02) is completed, the gear (1) which is the material is rotated by one tooth pitch (P) around the central axis 0, and each The gear (1) is made by repeating the unit process of grinding the tooth surface and grinding the entire tooth surface of the gear (1) by a certain amount in one rotation around the central axis a3 of the gear (1), which is the raw material, several times. Finish it into a product.

(Problem to be solved by the invention) However, in the above-mentioned grinding, the grinding wheel (21)
(22) Chattering due to elastic vibration, grinding wheel (21) (22)
) chatter due to the elastic vibration of the shaft, the material gear (
There is a problem that the gear (1), which is the raw material, cannot be uniformly finished with sufficient precision due to unavoidable buff crashes in the aU/I that rotate the gear (1), and subtle variations in the grinding machine and grindstone dresser. Ta.

[Means for solving problems]

The present invention provides a means for solving the above-mentioned problems, and involves simultaneously grinding one pair of tooth surfaces of a gear using a pair of grindstones, and each time grinding of the pair of tooth surfaces is completed. Grinding that consists of multiple unit processes in which the gear is rotated one tooth pitch at a time around the central axis to sequentially grind each tooth surface, and a certain amount of the gold tooth surface is ground with one rotation of the gear around the central axis. A gear grinding method in which one or more of the unit processes is zero-cut grinding, and the gear grinding method is index grinding in which the starting point of the unit process is shifted by one tooth or a plurality of tooth pitches, The gist of the gear grinding method is that the grinding process is comprised of a rough grinding process consisting of unit processes with a normal grinding feed rate, and an improved grinding process consisting of unit processes with a low grinding feed rate. do. Here, the depth of cut refers to grinding by moving a grindstone perpendicularly to the tooth surface, and zero depth of cut grinding refers to grinding in which the depth of cut is 0. Further, the term "grinding feed" refers to moving the grindstone parallel to the tooth surface, and the term "grinding feed rate" refers to the speed of the grinding feed.

Hereinafter, the present invention will be explained based on the drawings. Figure 1 (a)
and (a) is a flowchart of an embodiment of the present invention;
Figure 2 shows an example of a cutting depth setting board, and Figure 3 shows an example of a grinding setting board. The depth of cut setting board has a scale added on the disc, and rotates counterclockwise around the central axis by one scale each time a unit process is completed, that is, rotates forward.

This rotation rotates the grinding wheels (21) (22>) to the tooth surface (It
) Move the grinding wheel (2+) perpendicularly to the specified cut.
1X22). The completion of the unit process is confirmed by a tooth number counter (not shown) which is reset each time the unit process ends, with the number of teeth of the gear (1) as the upper limit.

The grinding setting board consists of an intermediate grinding setting part (31), a rough final zero grinding setting part (32), a finishing grinding setting part (33), and an index setting part (34), and each setting part has the number of grinding operations. is set as an upper limit value, and a grinding number counter that is reset when the set number of times is reached is attached. Here, intermediate zero grinding refers to grinding in which the intermediate unit process in the grinding process is zero grinding, and rough final zero grinding refers to grinding in which the final unit process in the rough grinding process is zero grinding.

To carry out the gear grinding method of the present invention, in advance, rotate the disc of the cutting depth setting board clockwise, that is, reversely, to align the scale corresponding to the total cutting depth with the reference point (S), and
The number of intermediate zero grinding, the number of rough final zero grinding, and the number of finishing grinding are set in the middle mochi zero grinding setting section (31), rough final zero grinding setting section (32), and finishing grinding section (33) of the grinding setting board, respectively. When performing index grinding, the number of teeth corresponding to the starting point of the unit process is set in the index setting section (34). Hereinafter, the manner of this implementation will be explained based on the flowchart in FIG.

In addition to carrying out the usual grinding preparation work such as attaching the material to the grinding machine and adjusting the condition of contact between the grinding wheels (21) (22> and the tooth surface QDQ, that is, the so-called contact), Perform the above settings on the setting board, initialize the intermediate grinding number counter, rough final zero grinding number counter, finish grinding number counter, and tooth number counter to 0, and initialize the grinding mode to the rough grinding mode (■).

Here, the rough grinding mode means that grinding is performed at a normal grinding feed rate. After the initial setting (■), start the rough grinding (■), and every time the grinding of a pair of tooth surfaces Q11021 is completed, the gear (1) is rotated one tooth in the forward direction (■), and the number of teeth is increased. Increase the counter by 1 (■) and grind (
■) Repeat until the number of teeth counter becomes equal to the upper limit (
(2), - At the stage when the unit process is completed, the tooth number counter is reset (■) and the grinding is set to zero grinding mode (■), and the intermediate zero grinding number counter is incremented by 1. (@
l) Here, the zero grinding mote is a state in which the grinding wheel (21X22) contacts the tooth surface (It107J) on the front surface of the cutting depth O.
means. Grinding (■) is repeated in zero grinding mode, and when the intermediate zero grinding count becomes equal to the upper limit value (■), the cutting setting board rotates forward by one scale (■), and when performing index grinding (■), When the starting point of a unit process is deviated (@) and index grinding is not to be performed, reset the number of teeth counter (■) without making the deviation and set grinding to rough grinding mode (■), then Rough grinding and intermediate grinding are repeated in the same manner as described above, and when the scale 0 on the cut setting board reaches the reference point (S), that is, the normal rotation limit (■), the grinding is set to zero grinding mode ( At the same time as @), the number of teeth counter is reset to 0) and rough final zero grinding (@) is started. The zero grinding is similar to the above-mentioned intermediate grinding, and each time the grinding of a pair of tooth surfaces θD025 is completed, the gear (1) is rotated forward at a pitch of 1 m (@), and the number of teeth is increased by 1 (@). > Repeat the grinding (@) while doing so, and when the tooth number counter becomes equal to the upper limit value, increase the roughest I! zero grinding number counter by 1 (O)
(@)1. And furthermore,
The rough maximum zero grinding counter becomes equal to the upper limit value (■)
Continue zero grinding until

After that, when performing finish grinding, set the (@))s grinding to the finish grinding mode (O) and reset the number of teeth counter.@)% Start the grinding (O) of the % finish grinding. Here, the finish grinding mode refers to a grinding surface in which the grinding feed rate is low. In finish grinding, similarly to the above-mentioned intermediate grinding or rough final zero grinding, each time the grinding of a pair of tooth surfaces θυQZ is completed, the gear (1) is rotated forward (O) by one tooth pitch, and the number of teeth counter is set to one. Repeat the grinding (■) while increasing (O), and when the number of teeth reaches the upper limit (■), increase the finish grinding counter by 1 (O) and reduce the number of teeth /
Reset the (@)% and continue grinding (■) until the finish grinding counter reaches the upper limit, and then grind the gear (1).
) finishes grinding. In the case of grinding (■) in which finish grinding is not performed, the gear grinding ff1J ends when the rough maximum zero grinding counter becomes equal to the upper limit value.

[For production]

In intermediate grinding and rough final zero grinding, since the depth of cut is zero, there is almost no deflection of the grinding wheel (21822), and therefore the tooth surface is ground in a cane shape without chatter due to the elastic vibration of the grinding wheel (21 x 22). Grinding is performed.In index grinding, the starting point of the unit process is deviated, so there is unavoidable backlash in the mechanism that rotates the gear (1), which is the material, and slight deviations in the grinding machine and grindstone dresser. The influence is dispersed and diluted on each tooth surface of the gear (watari).In finish grinding, the grinding feed rate is low, so the deflection of the support shaft of the grinding wheel (21 x 22) is small, and therefore chatter due to elastic vibration of the support shaft is reduced. In the method of the present invention, the above-mentioned intermediate grinding, rough and final zero grinding are performed, and index grinding and finishing grinding are performed as necessary, so that the material gear (1) can be made with high precision. Grinding is done.

〔Example〕

Table 2 shows the results when gears having the specifications shown in Table 1 were ground using the conventional method and the embodiment of the method of the present invention.

Table 1 As is clear from Table 2, the gear grinding method of the present invention reduces the required grinding time to about one tenth compared to the conventional method, and also achieves extremely high precision. It can be seen that the repair man-hours are reduced to about 1/30 due to the grinding.

〔Effect of the invention〕

The gear grinding method of the present invention performs intermediate grinding, rough final zero grinding, and index grinding and finish grinding as necessary, so that gears can be ground with extremely high precision. By automating the entire process, it is possible to grind with high efficiency.

[Brief explanation of the drawing]

Figures 1 (A) and (B) are flowcharts of embodiments of the present invention, Figure 2 shows an example of a cutting depth setting board, and Figure 3 shows an example of a zero grinding and index grinding setting board. It is a diagram. 1...Gear 11...Tooth surface 12...Tooth surface 21...Whetstone 22...-Whetstone
13... Central axis 31... Intermediate zero grinding setting part 32... Rough final zero grinding setting part 33... Finish grinding setting part 34... Index grinding setting part P... 1 tooth pift S ...Reference point Well 2 Figure Kaya 3 Reason number 1. Display of the case 1986 Patent Application No. 314874 2 Name of the invention Gear grinding method 3 Name of the person making the amendment Representative Director of Sumikin Osaka Plant Construction Co., Ltd.
Ei 1) Haruo 5, subject of correction

Claims (3)

[Claims] (1) Using a pair of two grindstones, simultaneously grind one pair of tooth surfaces of the gear, and rotate the gear one tooth pitch around the central axis each time the grinding of the pair of tooth surfaces is completed. In the grinding process, which consists of a plurality of unit processes in which each tooth surface is ground in sequence and all the tooth surfaces are ground by a certain amount with one rotation of the gear around the central axis, one or more of the unit processes are cutting. A gear grinding method that is zero-input grinding. (2) The gear grinding method according to claim 1, wherein index grinding is performed in which the starting point of the unit process is shifted by one tooth or a plurality of tooth pitches. (3) Claim 1, wherein the grinding process is comprised of a rough grinding process consisting of unit processes at a normal grinding feed rate, and a finish grinding process consisting of unit processes at a low grinding feed rate. Gear grinding method described.