JPH11138358A - Insertion and engagement structure for boss and shaft - Google Patents

Abstract

PROBLEM TO BE SOLVED: To execute on-site work depending on no factory facility by enabling highly reliable engagement, and using comparatively lightweight and simple facility. SOLUTION: In engaging a key 3-bearing tapered hole 2a-worked boss 2 with a key groove 1a-applied tapered shaft 1, the inside diameter of the boss 2 is expanded by pressing a high-pressure evaporative liquid in a groove on the inner surface of the boss 2 worked by avoiding the key groove 1a. Simultaneously, the boss 2 is pressed in the shaft 1 direction by means of a hydraulic jack 5 for engagement.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an insertion fitting structure of a shaft hole formed in a boss and a shaft inserted into the shaft hole.

[0002]

2. Description of the Related Art A conventional method of attaching and detaching a shaft is disclosed in
In this type of conventional fitting structure, keyless fitting is used, and a viscous liquid such as oil is used as the high-pressure liquid for expanding the boss. FIG. 5 shows a gear as a conventional object to be detached. In the figure, 21 indicates the entire gear, 22 is a boss at the center thereof, 22a is a shaft hole formed in the boss 22 and is tapered.
A shaft is inserted and fitted into the shaft hole. Reference numeral 23 denotes a hole for applying oil pressure to the fitting tapered portion, and reference numeral 24 denotes an oil groove to which oil pressure is transmitted. Note that a viscous fluid other than oil may be used. The dimensions of the shaft hole 22a are respectively d ₁ = 204 m
m, d ₂ = 208 mm, b = 200 mm, so that the taper is 1
/ 50.

FIG. 6 shows a shaft 25 inserted into the gear 21 of FIG. Reference numeral 26 denotes a tapered portion to be fitted into the shaft hole 22a, the taper of which is 1/50 the same as the shaft hole, and the shaft diameter of the tapered portion is made slightly larger than the shaft hole. I have. That is, d ₃ = 204.4 mm, d ₄ = 20
It is 8.4 mm. In addition, all the finishes are polishing finishes.

FIG. 7 shows a state in which the shaft 25 is inserted into the gear 21. When no oil pressure is applied to the hole 23, the shaft 25 protrudes from the gear 21 by only 20 mm. When a hydraulic pressure is applied and a force P is applied in the direction of the center axis of the shaft 25, the shaft hole is enlarged by the hydraulic pressure.
Can be easily pushed into the shaft bore. However, the pushing amount depends on the degree of pressurization, but 3 to 5 mm
It is.

[0005] In this pushing operation, the operation of increasing the oil pressure after slightly pushing in and then pushing in the shaft is repeated, and the pushing amount usually decreases gradually. In the case of the conventional example, when P = 1000 kg / cm ² , the pushing amount of the shaft was 20 mm in total. In this case, the shaft 25 and the gear 2
The fitting strength of 1 is 128 even if the friction coefficient of both is 0.1.
t can be obtained.

[0006]

Since the conventional shaft insertion fitting structure is constructed as described above, the main purpose is to insert or remove the keyless taper boss by expanding the hydraulic pressure. There was no fitting using the processed expansion groove. Also, the medium fluid for expanding the boss is
Normally, viscous fluids such as oil are used, and if these are used for fitting, inclusions (oil film etc.) that adversely affect the torque transmission between the shaft and the boss will be left, requiring reliability. It has a drawback that it cannot be used for fitting.

Therefore, the conventional insertion fitting of the shaft and the boss is performed by shrink-fitting or by cooling and shrink-fitting the shaft side, which requires a large amount of equipment, energy, and time. Was needed. For this reason, the fitting work requires a well-equipped place, such as a factory, and the fitting work cannot be performed in a place without facilities, such as an installation site of a fitting.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems. The expansion of the keyed boss is performed by a high-pressure evaporative liquid, and at the same time, another hydraulic jack or the like for pushing and inserting is used. An object of the present invention is to eliminate the need for a conventional fitting operation by shrink fitting by performing fitting.

Further, by using an evaporating liquid which evaporates after fitting and does not leave a residue which adversely affects the torque transmission between the fitted shaft and the boss, the conventional sintering liquid is used for the expanding liquid of the boss. An object is to obtain a highly reliable fitting corresponding to a fitting.

In view of the above, it is an object of the present invention to provide a fitting structure which enables highly reliable fitting with relatively lightweight and simple equipment and enables on-site work which does not depend on factory equipment.

[0011]

According to a first aspect of the present invention, there is provided a boss-shaft insertion fitting structure in which a tapered shaft and a tapered shaft hole fitted to the shaft are machined. And a key arranged in the tapered shaft hole so as to be fitted into the key groove, and the key groove is processed on the inner surface of the tapered shaft hole while avoiding the key groove. The boss expansion groove into which the evaporative liquid for expanding the inner diameter of the boss is press-fitted, and means for pressing the boss in the axial direction are provided.

According to a second aspect of the present invention, there is provided an insert-fitting structure for a boss and a shaft. In the combined structure, in the tapered shaft hole, the key fitted to the key groove is arranged, and the key is processed to avoid the key groove and the evaporability for expanding the inner diameter of the boss A boss expansion groove into which liquid is press-fitted, and means for pressing the boss in the axial direction are provided.

A boss-shaft insertion fitting structure according to a third aspect of the present invention uses a low-temperature evaporating liquid as the evaporating liquid.

[0014]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiment 1 Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a side view showing an insertion fitting structure of a boss and a shaft according to a first embodiment of the present invention. In the figure, reference numeral 1 denotes a shaft which is machined in a tapered shape, in which a keyway 1a is machined. Reference numeral 2 denotes a boss formed with a tapered shaft hole 2a fitted to the shaft 1, and a key 3 is disposed on a fitting surface between the shaft and the boss. 4
Are frame seats attached to the boss 2 for inserting the boss, 5
Is a hydraulic jack for boss insertion attached to the frame seat 4,
6 is a high-pressure evaporable liquid pressure pump for expanding the boss 2, 7 is a high-pressure evaporable liquid introduction groove provided on the boss 2,
8 is a hydraulic pump for sending hydraulic pressure to the boss insertion hydraulic jack 5, 8a is a hydraulic pressure introducing hole, and 8b is a hydraulic discharging hole.

FIG. 2 is a side sectional view showing the boss 2, and FIG. 3 is a front sectional view taken along line AA in FIG. In the figure, reference numeral 9 denotes a boss extending groove formed on the inner surface of the tapered shaft hole 2a of the boss 2 so as to avoid the key groove 1a and communicate with the introduction groove 7. The liquid is press-fitted, and the inner diameter of the boss 2 is expanded by the evaporating liquid pressure.

Next, the operation will be described. First, the hydraulic jack 5 is attached to the frame seat 4, and the shaft 1 is inserted into the boss 2 and fitted. At this time, first, the hydraulic pump 8 is operated lightly,
The inner surface of the tapered shaft hole 2 a provided in the boss 2 is made to follow the tapered shaft 1. Then, the high-pressure evaporable liquid pressure pump 6 is operated to introduce the high-pressure evaporable liquid into the boss expansion groove 9 through the introduction hole 7 to expand the boss 2. At the same time, the hydraulic jack 5 is operated and the boss 2 is pushed in. The fitting is performed by the above operation.

The working fluid for expanding the boss 2 may be a viscous fluid such as oil for the fitting operation. However, if a viscous fluid is used, a residue (oil film or the like) is left on the fitting surface after the fitting. ) Remains, and the torque transmission is adversely affected. Therefore, in this embodiment, water, alcohol, thinner or the like, a liquid that evaporates is used to eliminate the residue, and to obtain a highly reliable fitting effect equivalent to that of the conventional shrink fit. I have.

In this way, by expanding the boss 2 with the high-pressure evaporating liquid and performing the insertion using the hydraulic jack 5 or the like, the equipment and work at the factory can be reduced, and This enables a highly reliable fitting equivalent to the conventional shrink fit.

Embodiment 2 In the first embodiment, the boss expansion groove 9 is formed on the inner surface of the shaft hole 2a of the boss 2 by the key 3.
4, the boss expansion groove 10 and the liquid introduction groove 11 communicating with the boss expansion groove 10 are formed on the shaft 1 so as to avoid the key 3 as shown in FIG. Good.

Further, in the above description, an example is shown in which a normal-temperature evaporating liquid is used as the working liquid for expanding the boss 2. However, if a low-temperature evaporating liquid, for example, liquid nitrogen, is used, the fitting can be performed. Since the hour shaft 1 side is contracted at a low temperature, a large fitting interference is easily obtained, and the fitting is facilitated.

As described above, by injecting the low-temperature evaporable high-pressure liquid material for expanding the boss into the groove 10 machined on the shaft 1 side, the shrinkage of the shaft can be utilized to reduce the fitting interference. It can be easily fitted.

[0022]

According to the boss-shaft insertion fitting structure according to the first aspect of the present invention, the shaft having a tapered shape and the boss having a tapered shaft hole fitted with the shaft. And a key arranged inside the tapered shaft hole so as to fit into the key groove, and a key shaft is formed on the inner surface of the tapered shaft hole while avoiding the key groove, and the inner diameter of the boss is reduced. The boss expansion groove into which the evaporative liquid for expansion is press-fitted, and the means for pressing the boss in the axial direction are provided, so the work and equipment at the factory are reduced, and the conventional A highly reliable fitting operation equivalent to shrink fit can be made possible.

According to the boss-shaft insertion fitting structure according to the second aspect of the present invention, the shaft formed into a tapered shape and the boss formed with a tapered shaft hole fitted into the shaft are formed. An insert-fitting structure in which a key is fitted in a key groove in a tapered shaft hole, and evaporation is performed on the shaft to avoid the key groove and expand the inner diameter of the boss. The boss expansion groove into which the liquid is injected and the means for pressing the boss in the axial direction are provided, reducing work and equipment at the factory, and equivalent to conventional shrink fit, including on-site work. A highly reliable fitting operation can be performed.

According to the boss-shaft insertion fitting structure according to the third aspect of the present invention, the low-temperature evaporating liquid is used as the evaporating liquid. However, it can be easily fitted.

[Brief description of the drawings]

FIG. 1 is a side view showing a boss-shaft insertion fitting structure according to a first embodiment of the present invention.

FIG. 2 is a side sectional view showing a boss according to the first embodiment of the present invention.

FIG. 3 is a sectional view taken along line AA in FIG. 2;

FIG. 4 is a side sectional view showing a boss-shaft insertion fitting structure according to a second embodiment of the present invention.

FIG. 5 is a side sectional view showing an example of a conventional gear.

FIG. 6 is a side view showing an example of a conventional shaft.

7 is a side sectional view showing a state where the conventional gear and shaft shown in FIGS. 5 and 6 are inserted and fitted.

[Explanation of symbols]

1 shaft, 1a key groove, 2 boss, 2a shaft hole, 3 keys, 9, 10 boss expansion groove.

Claims (3)

[Claims] 1. An insertion fitting structure of a tapered shaft and a boss formed with a tapered shaft hole fitted to the shaft, wherein the boss is disposed in the tapered shaft hole. A key fitted into a key groove provided on a shaft, and an evaporative liquid for expanding the inner diameter of the boss is pressed into the inner surface of the tapered shaft hole while being worked around the key groove. A boss-shaft insertion fitting structure, comprising a boss expansion groove and means for pressing the boss in the axial direction. 2. An insertion fitting structure of a tapered shaft and a boss formed with a tapered shaft hole to be fitted to the shaft, wherein the boss is disposed in the tapered shaft hole. A key fitted in a key groove provided in the shaft, and a boss expansion in which the tapered shaft is worked so as to avoid the key groove and into which an evaporative liquid for expanding the inner diameter of the boss is press-fitted. And a means for pressing the boss in the axial direction. 3. The boss-shaft insertion fitting structure according to claim 2, wherein a low-temperature evaporating liquid is used as the evaporating liquid.