KR0165702B1 - Honing method and related honing head structure - Google Patents

Abstract

The present invention provides a honing processing method and a processing thereof in which a cooling liquid is supplied from an upper portion to a lower portion on an inner surface of a workpiece to perform uniform cooling while honing processing is performed on the inner surface of the workpiece, thereby enabling uniform honing finish. It is to provide a honing head structure for use in the method.

The inner surface B of the workpiece CB is supplied from the outside when honing is performed with a plurality of grindstones 9 mounted on the honing tool 7 at the front end of the honing head 1, which is free to rotate and free to reciprocate. The introduced coolant is introduced into the coolant introduction groove 11 formed in the outer circumference of the honing tool 7 by the coolant introduction pins 5A, 5B and 5C provided in the honing head 1, The coolant is introduced into the inner surface B of the workpiece CB from the coolant introduction groove 11 and cooled.

Description

Honing processing method and honing head structure used for the processing method

1 is a front view of the honing head of one embodiment for performing the honing process of the present invention.

2 is a diagram showing a temperature distribution at each position of a bore during honing according to the present invention.

3 is a view showing the shape distribution at each position of the bore after the honing process according to the present invention.

* Explanation of symbols for main parts of the drawings

1: Honing Head 3: Shaft

5A, 5B, 5C: Fin for introducing coolant 7: Honing tool

9: grindstone 11: groove for introducing coolant

13 nozzle for cooling liquid 15 ring member

B: Bore CB: Cylinder Block

TECHNICAL FIELD The present invention relates to a honing processing method for honing the inner surface of a workpiece, particularly a bore of a cylinder block, etc., and a structure of a honing head used in the processing method.

Conventionally, when performing a high-precision honing process on the inner surface of a workpiece, especially the bore of a cylinder block, etc., it is common to supply a cooling liquid with a hose in a workpiece, and to cool the hole of a workpiece. As the supply means of the cooling liquid, the cooling liquid simply flows down along the hole of the workpiece by gravity, so that the lower portion of the hole of the workpiece cools down as the upper portion of the hole of the workpiece is cooled, but proceeds downward. There was no problem.

As an improvement means which cools the inner surface of this to-be-processed object, for example, as disclosed in Japanese Unexamined-Japanese-Patent No. 56-48460, it is a some thing in the honing tool of a honing head toward the tip side from the base of a honing head. It is known that a coolant discharge passage is provided, and a coolant discharge port is provided on the outer peripheral surface of the body portion of the honing tool connected to each of the coolant introduction passages.

Therefore, the cooling liquid is introduced into the passage for introducing the cooling liquid, and the cooling liquid is introduced into the inner surface of the workpiece through the cooling liquid discharge port from the passage for introducing the cooling liquid, thereby cooling the inner surface of the workpiece.

By the way, as the improvement means for cooling the inner surface of the conventional workpiece described above, the diameter of each cooling liquid introduction passage is limited and the flow rate of the cooling liquid supplied to the cooling liquid introduction passage is small, so that the inner surface of the workpiece is subjected to honing. During the process, the coolant does not go to the lower part of the inner surface of the workpiece, so that the lower part of the inner surface cannot be cooled in comparison with the upper part.

That is, since the lower portion of the inner surface cannot be cooled compared to the upper portion, the lower portion of the inner surface generates heat and expands as compared with the upper portion of the inner surface due to thermal expansion (surface pressure decreases). Therefore, after performing a honing process, there existed a problem that the upper part of an inner surface became wider than the lower part of an inner surface.

Accordingly, an object of the present invention is to uniformly cool by supplying a coolant from the upper part to the lower part in the inner surface of the workpiece while honing the inner surface of the workpiece in order to improve the conventional problems described above. The present invention provides a honing processing method and a honing head structure used for the processing method that enable uniform honing finishing.

In order to achieve the above object, the present invention provides a coolant supplied from the outside when honing is performed with a plurality of grindstones installed on a honing tool at the tip of a honing head that is free to rotate and to reciprocate on an inner surface of a workpiece. A coolant introduction fin installed in the honing head, which is introduced into a coolant introduction groove formed at an outer circumference of the honing tool and cools the coolant by introducing it into the inner surface of the workpiece. It is a honing processing method.

In addition, the present invention provides a honing head freely rotatable and reciprocating, a plurality of grindstones provided on the honing tool at the tip of the honing head, a coolant introduction pin provided on the shaft portion of the honing head, and an outer peripheral portion of the honing tool. The formed coolant introduction groove was formed to constitute a honing head structure.

By adopting the honing processing method of the present invention and the honing head structure used in the processing method, the honing processing is performed on the inner surface of the workpiece with a plurality of whetstones installed on the honing tool at the tip of the honing head by rotating and honing the honing head. Is done.

When performing this honing process, the cooling liquid supplied from the exterior is introduce | transduced into the cooling liquid introduction pin provided in the honing head. Further, the coolant is introduced into the coolant introduction groove formed in the outer peripheral portion of the honing tool from the coolant introduction pin. Since the coolant is introduced into the inner surface of the workpiece from the coolant introduction groove and uniformly cooled from the upper portion to the lower portion on the inner surface of the workpiece, the upper portion on the inner surface of the workpiece after the honing process is the lower portion of the inner surface. It does not become wider compared with the case, and uniform honing is performed.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention;

Referring to FIG. 1, a cylinder block CB of an internal combustion engine, for example, as a work piece is set by positioning with a work attachment jig provided on a head (not shown). The cylinder block CB is provided with a honing head 1 at a position above the bore B that is free to rotate and free to reciprocate in the vertical direction. This honing head 1 is rotated by a known drive device and reciprocated. A plurality of cooling liquid introduction fins 5A, 5B, and 5C are integrally fixed in a spiral shape to the shaft portion 3 of the honing head 1. A honing tool 7 is provided at the tip of the honing head 1, which is the lower part of the shaft portion 3 in which the fins 5A, 5B, and 5C for introducing the coolant are integrated. On the outer peripheral portion of the honing tool 7, a plurality of grindstones 9 are provided at appropriate intervals.

Between the grindstones 9 provided on the outer periphery of the honing tool 7, a coolant introduction groove 11 extending in the axial direction (up and down in Fig. 1), for example, having a semicircular cross section, is the honing tool. It is formed in the outer peripheral part of (7). As shown in Fig. 1, the three coolant introduction pins 5A, 5B, and 5C are fixed to the shaft portion 3 at substantially equal intervals, so that each lower end (tip) is also at equal intervals. The lower ends of the coolant introduction pins 5A, 5B, and 5C are arranged in the vicinity of the coolant introduction groove 11, respectively.

On the cylinder block CB positioned and set by the workpiece attachment jig, for example, a ring member 15 having a plurality of coolant nozzles 13 attached thereto is provided, and the coolant is injected from the coolant nozzles 13. And introduced into the respective cooling liquid introduction pins 5A, 5B, and 5C.

Each of the coolant nozzles 13 is connected to a coolant storage tank (not shown). For example, the coolant is sprayed from each coolant nozzle 13 through a pipe from a coolant storage tank by a hydraulic pump. It is.

According to the above configuration, when the honing head 1 is rotated from the upper position of the bore B of the cylinder block CB and lowered and reciprocated in the vertical direction, the honing tool 7 at the tip of the honing head 1 is rotated. Honing is performed on the inner surface of the bore (B) of the cylinder block (CB) with a plurality of grindstones (9) provided in the shaft.

When this honing process is performed, coolant is injected from the plurality of coolant nozzles 13 attached to the attachment ring member 15 provided on the cylinder block CB, and the coolant is supplied to the shaft portion of the honing head 1 ( It rotates and falls through the coolant introduction pins 5A, 5B, and 5C provided in 3), and is evenly introduced into the coolant introduction groove 11, and from this coolant introduction groove 11, a cylinder is opened. It is introduced into the block bore B and cooled from the upper part to the lower part of the inner surface of the bore B.

As described above, as the inside of the bore B of the cylinder block CB was cooled, the temperature at each position from the upper part to the lower part of the bore B during the honing was measured. The temperature distribution as shown by the solid line of the figure was obtained. In addition, the temperature distribution shown by the dotted line of FIG. 2 is cooled with the conventional cooling means.

As can be seen from the temperature distribution shown by the solid line and the dotted line in Fig. 2, in the conventional cooling means, the temperature of the bore B increases as the position of the bore B moves from the upper part to the lower part. On the other hand, in the cooling of this embodiment, even if the position of the bore B goes from the upper part to the lower part, the temperature distribution is almost the same at each position, and it will be understood that cooling is performed uniformly from this.

Moreover, although the shape change of the bore B after honing was measured, the shape deformation as shown by the solid line of FIG. 3 was obtained. On the other hand, the shape distribution shown by the dotted line of FIG. 3 is cooled with the conventional cooling means.

As can be seen from the shape distribution shown by the solid line and the dotted line in Fig. 3, in the conventional cooling means, as the position of the bore B moves from the upper part to the lower part, the deformation of the shape of the bore B becomes smaller. have. On the other hand, in the cooling of the present embodiment, even if the position of the bore B goes from the upper part to the lower part, the shape distribution is almost the same, and from this, it will be understood that uniform cooling is performed.

Therefore, with the honing head structure mentioned above, a cooling liquid is supplied from the upper part to the lower part in the inner surface of the bore B of the cylinder block CB by performing a honing process by cooling the inner surface of the bore B of the cylinder block CB. As a result, uniform cooling can be performed, and the upper portion of the inner surface of the bore B of the cylinder block CB becomes uniform rather than wider than the lower portion, and thus uniform honing can be performed. That is, since the coolant introduction groove 11 is formed over the entire axial length of the honing tool 7, the coolant is supplied over the entire length of the groove 11 and the grindstone 9 sliding with the inner surface of the bore B. Is supplied over the entire length of By this action, the inner surface of the bore (B) is uniformly cooled from the upper part to the lower part, so that the completion diameter of the inner surface of the bore (B) is equalized from the upper part to the lower part. In addition, the honing process of this embodiment obtains a greater effect on the side applied to the fine honing process than the rough honing process.

In addition, this invention is not limited to the Example mentioned above, It can implement in another aspect by changing suitably. In this embodiment, the cylinder block CB of the internal combustion engine is described as an example of the workpiece, but needless to say, it is applied to honing the inner surface of the other workpiece. The number of grooves for introducing the coolant may not correspond to the number of fins for introducing the coolant.

As will be understood from the description of the embodiments as described above, according to the present invention, since it is the configuration as described in the claims, it is possible to remove the upper part from the inner surface of the workpiece while honing the inner surface of the workpiece. The cooling liquid can be supplied to the lower portion to perform uniform cooling, and the upper portion of the inner surface of the workpiece can be made uniform without being wider than the lower portion, and uniform honing can be performed.

Claims (2)

When honing is performed with a plurality of grindstones installed on the honing tool at the tip of the honing head that is free to rotate on the inner surface of the workpiece and freely reciprocates, the cooling liquid supplied from the outside is honed by a coolant introduction pin provided to the honing head. And a coolant introduction groove formed in the outer peripheral portion of the tool, and the coolant is introduced into the inner surface of the workpiece from the coolant introduction groove and cooled. Honing head freely rotated and freely reciprocating, a plurality of grindstones provided on the honing tool at the tip of the honing head, a coolant introduction pin provided on the shaft portion of the honing head, and a coolant introduction formed on the outer circumference of the honing tool. Honing head structure comprising a groove.