RU2134187C1 - Method of restoring conjugation of bushing secured in body with shaft - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: method includes preliminary formation of auxiliary bushing, mechanical working of conjugation surfaces to be restored and coupling of auxiliary bushing with conjugation parts. Auxiliary bushing is obtained by bending of sheet material and placing of workpiece obtained in body hole so that auxiliary bushing end protrudes beyond chamfer preliminarily made in body hole. Then beading pf the end is performed in body hole chamfer. Prior to applying force for displacement of bushing into auxiliary bushing hole, through slot is made in bushing, the latter is installed with interference fit in operating mandrel, with starting section protruding from operating mandrel. Bushing is then fixed in auxiliary bushing hole by means of starting section. EFFECT: enlarged production capabilities. 2 cl, 4 dwg

Description

 The invention relates to the field of restoration of mates of cylindrical surfaces in the repair of machine parts.

 A known method of installing the bushings in the female part with an interference fit, in which before applying force to move the sleeve into the female part, the sleeve is installed in the technological mandrel with an interference fit to form a lead-in portion protruding from the technological mandrel, after which the sleeve is fixed through the lead-in portion in the hole of the female part / 1/.

 The possibility of using the known method is limited by the permissible reduction (up to 1.2%) of the initial diameter of the sleeve / 1 /.

 A known method of connecting the housing and the covered part, in which the covered part is obtained by bending the sheet material and installing the resulting workpiece in the housing opening so that the end of the covered part protrudes over the bevel existing or previously obtained in the housing opening, then the specified end is selected in the housing opening chamfer / 2 /.

 The possibility of using this method is limited by the area of restoration of a stationary press connection of parts of the shaft-housing type / 2 /.

 The closest in technical essence is the method of restoring the coupling fixed in the housing of the sleeve with the shaft, which consists in pre-receiving an additional sleeve, machining the restored mating surfaces, connecting the additional sleeve with the mating parts / 3 /.

 In the known method, the additional sleeve is pressed into the main sleeve or onto the shaft. Based on technological capabilities, the minimum thickness of the additional sleeve is taken no less than 2 - 2.5 mm, while the diameter of the shaft neck or the thickness of the main sleeve is reduced, which makes it impossible to use this method when repairing such parts in which a significant decrease in strength is not allowed / 3 / .

 The objective of the invention is to expand the range of restored mates through the use of a thin-walled additional sleeve without a significant decrease in the strength of the restored parts.

The problem is solved due to the fact that in the method of restoring the mating of the sleeve fixed in the housing with the shaft, which consists in pre-receiving an additional sleeve, machining the restored mating surfaces, joining the additional sleeve with the mating parts, according to the invention, the additional sleeve is obtained from sheet material by bending it into the cylinder and installing the resulting workpiece into the bore of the body so that the end face of the additional sleeve protrudes beyond the existing or pre A chamfer obtained in the hole of the housing, then the specified end is selected in the chamfer of the housing hole, before applying force to move the sleeve in the hole of the additional sleeve in the sleeve, a through groove is made, it is inserted into the technological mandrel with an interference fit to form a lead-in portion protruding from the technological reference, after whereby the sleeve is fixed by means of the lead-in portion in the hole of the additional sleeve, while the width of the through groove in the sleeve is determined by the formula b = 2 • π (t-δ),
where t is the thickness of the sheet material of the additional sleeve, δ is the specified tightness of the sleeve in the housing.

In addition, the method is characterized in that the thickness of the sheet material of the additional sleeve is determined by the formula t = t ₁ + t ₂ , where t ₁ is the minimum thickness, defined as the sum of the allowances for machining the body, sleeve and shaft, t ₂ is the allowance for reduction minimum thickness of the sheet material to standard or specified.

 In FIG. 1 shows the connection of parts immediately after installing an additional sleeve in the housing, a longitudinal section; in FIG. 2 shows the connection of parts after flanging the end of the additional sleeve in the chamfer of the housing opening, a longitudinal section; in FIG. 3 is a transverse section of the sleeve after performing a through groove in it; in FIG. 4 - connection of parts after installing the sleeve in the technological mandrel and fixing the lead-in section of the sleeve in the hole of the additional sleeve, a longitudinal section.

 The method is as follows.

The additional sleeve 1 is performed by bending the sheet material into a cylinder with an outer diameter D equal to the nominal value of the inner diameter D of the housing 2. The thickness t of the sheet material is determined by the formula t = t ₁ + t ₂ , where t ₁ is the minimum thickness, defined as the sum of the allowances for machining the housing 2, the sleeve 3 and the shaft 4. The size of the allowances is determined depending on the degree of wear and the specified geometric parameters of the working surfaces of these parts; t ₂ - allowance for bringing the estimated minimum thickness of the sheet material to standard or specified.

 The resulting blank of the additional sleeve 1 is installed in the hole of the housing 2 so that the end face 5 of the additional sleeve 1 protrudes beyond the edge of the chamfer 6 that is available or previously obtained in the hole of the housing 2 by the value of h, which is determined from the relation h = (0.9 - 2.2) t, where t is the thickness of the sheet material of the additional sleeve 1.

 Then carry out the flanging of the end 5 of the additional sleeve 1 in the chamfer 6 of the hole of the housing 2.

 Before the sleeve 3 is pressed into the hole of the additional sleeve 1 in the sleeve 3, a through groove 7 is made, the width of which is determined by the formula b = 2 • π (t-δ), where t is the thickness of the sheet material of the additional sleeve 1; δ is the specified interference sleeve 3 in the housing 2.

After that, the sleeve 3, having the initial outer diameter D, is compressed in the technological mandrel 8 to the outer diameter D ₁ equal to the nominal inner diameter of the additional sleeve 1. As a technological mandrel 8, for example, a collet clamp, a cam chuck or a coupling clamp can be used. Moreover, the sleeve 3 is installed in the technological mandrel 8 with the formation of the lead-in section 9, through which the sleeve 3 is fixed in the hole of the additional sleeve 1.

Then the sleeve 3 is pressed into the hole of the additional sleeve 1. At that, the flanging of the end face 5 of the additional sleeve 1 prevents it from moving in the housing 2 at the time of pressing the sleeve 3. The width “b” of the through groove 7 made according to the above formula reduces the initial outer diameter D sleeve 3 to a size equal to the sum of the inner diameter D _{1 of the} additional sleeve 1 and a predetermined tension δ of the sleeve 3 in the housing 2. At the same time, the initial inner diameter d of the sleeve 3 is reduced to a predetermined size d ₁ .

Sources of information:
1. USSR author's certificate N 1082603, B 23 P 11/02.

 2. USSR author's certificate N 1680482, B 23 P 11/02.

 3. Klebanov B. V. Car and tractor repair. Part I - M .: Mashgiz, 1961, p. 112.

Claims (2)

 1. The method of restoring the coupling fixed in the housing of the sleeve with the shaft, including pre-receiving an additional sleeve, machining the restored mating surfaces, connecting the additional sleeve with the mating parts, characterized in that the additional sleeve is obtained from sheet material by flexible it into a cylinder, in the hole of the housing chamfer, install the mentioned additional sleeve in the hole of the housing with the formation of the protruding beyond the edge of the chamfer end, carry out flanging in The protruding end of the additional sleeve along the chamfer of the hole in the housing, a through groove is made in the sleeve, it is inserted into the technological mandrel with an interference fit and a protruding portion protrudes from it, which is pressed into the hole of the additional sleeve, while the width of the through groove of the sleeve is determined by the formula b = 2π (t-δ), where t is the thickness of the sheet material of the additional sleeve, δ is the specified tightness of the sleeve in the housing. 2. The method according to claim 1, characterized in that the thickness of the sheet material of the additional sleeve is determined by the formula t = t ₁ + t ₂ , where t ₁ is the minimum thickness, defined as the sum of the allowances for machining the body, sleeve and shaft, t ₂ - allowance to bring the minimum thickness of the sheet material to standard or specified.

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