KR20160018541A - Screw connection of at least two adjacent components - Google Patents

Abstract

The present invention relates to threaded connections of two or more adjacent parts (2, 4). In the present application, the threaded screw 14 is guided through a recess in the two parts 2 and 4, in which case the head 18 of the threaded screw is directly or indirectly connected to the first part 2 . The nut part 20, which is threadably engageable with the through screw and is provided in contact with the side surface of the second part 4 remote from the first part, is provided with a section 34, And these sections surround the screws with clearance.

Description

[0001] SCREW CONNECTION OF AT LEAST TWO ADJACENT COMPONENTS [0002]

The present invention relates to a screw connection having the features described in the preamble of claim 1.

Screw connections are commonly known measures for releasably connecting two or more parts to one another. The starting point of the invention is to form such a threaded connection in which the parts to be connected come into contact with one another, in which case the threaded-through is guided through a recess in the parts to be connected, And a nut screwed on the through thread.

Operational conditions that cause fluctuating operating forces or temperature fluctuations, among other things, cause pre-stress loss, which can lead to disassembly of the threaded connections. In such cases, it is common to use a longer rigid screw in addition to an expansion sleeve, in addition to the use of an expansion screw, in which case the expansion sleeve has parts to be connected with the screw, And is disposed between the coupled nuts. The purpose of this measure, which has been proven to be particularly useful when connecting relatively thin components in the connection direction, is to reduce the pre-stress loss at the threaded connections to the longer clamping length of the threads and the greater flexibility of the threads .

Especially in the case of difficult access to the screw end where the nut must be screwed after the expansion sleeve is raised, the formation of the screw connection is proved to be generally difficult because the expansion The sleeve must also be secured in this position by the person until the nut is also seated on the screw. Depending on the situation, two people may be required to form the screw connection.

It is an object of the present invention to provide a screw connection of the above-described type which can be formed quickly and simply even under adverse assembly conditions.

The above object is solved by a screw connection having the features of claim 1. Preferred improvements of such threaded connections are evident from the dependent claims, the following detailed description and the drawings. Herein, the features recited in the dependent claims may contribute to the formation of the invention, preferably in the combination described and, if technically feasible, alone or in other combinations.

The threaded connection of two or more adjacent parts proposed in accordance with the invention has a threaded thread which is guided through a recess in the part. The recess formed in the parts to be connected to each other is preferably a through hole aligned in alignment with each other in the connecting direction of the parts or a slot starting from the outer edge of the part and aligned with each other. The through screw is preferably a rigid screw. In a conventional manner, the head of the through-thread, which is guided through the recess of the component, is in contact with the first component either directly or indirectly through an intermediate member such as a disc or sleeve. The through screw is screwed with a nut part provided adjacent to the side of the second part remote from the first part. The second part can be understood as a component part of a part composite to be formed, which is usually farthest from the first part when two or more parts are connected to each other.

According to the invention, the nut part has a section with an expanded inner surface adjacent to the second part, and this section surrounds the screw with clearance. In other words, the inner lumen of the nut part does not have threads extending over the entire length of the lumen. Instead, only one section of the lumen of the nut part is threaded. The section of this nut part is axially spaced apart from the second part at the nut part adjacent to the second part, in which case an extended section of the lumen is arranged between the second part and the thread section, The through screw is spaced apart from the inner wall of the nut part.

With this arrangement, the nut part can be provided with a through thread with a longer clamping length to compensate for the pre-stress loss, in which case the desired clamping length is obtained by the use of an extended section of the nut part Determine the axial dimension. In a preferred manner, by incorporating the functions of the expansion sleeve and nut which the nut part of the threaded connection according to the invention has so far required in one part, the formation of the threaded connection can be achieved in a screw connection of the above- In comparison with particularly disadvantageous assembly conditions, because only two disassembly parts, that is, only the threaded screw and nut parts, have to be manipulated for the formation of threaded joints.

According to a preferred refinement of the invention, the end of the nut part facing the second part is engaged in the recess formed in the second part for the penetration of the through screw. In this case, the recess formed in the second part preferably has a cross-section corresponding to the outer cross-section of the nut part, preferably at the end section of the nut part in the area where the end part of the nut part is engaged. The engagement of the nut part in the recess formed in the second part makes the formation of the screw connection simpler because the nut part is not in the correct position in the second part before it is engaged in the recess formed in the parts to be connected, In this case, by engaging in the recess of the second part, the nut part is prevented from being displaced laterally with respect to the connecting direction of the parts.

The end of the nut part facing towards the second part can completely penetrate the recess formed in the second part or can engage only one partial area of the recess. In the latter case, the recess may be formed in the form of a shoulder, in which the cross-section of the recess in the outer region, where the end of the nut part engages, forms a cross-section corresponding to the end of the nut part, Respectively. The thus formed shoulder restricts the depth at which the nut part is inserted into the recess of the second part.

For example, if the recess formed in the second part has a cross-section corresponding to the outer cross-section of the nut part, as is preferably provided, more simply and continuously in the manufacturing technique, May be preferably limited by providing stop means on the nut part for this purpose. This stop means is preferably disposed or formed on the nut part such that when the nut part engages in the recess of the second part, the stop means abuts the rim of the recess of the second part.

It is furthermore proved to be particularly advantageous if the end of the nut part facing towards the second part is formed by a shoulder with a rotationally asymmetrical cross section and in this case the cross section of the recess formed in the second part is in the cross- Respectively. It should be noted here that the recess formed in the second part only has to have a rotationally asymmetric cross-section in the area where the end of the nut part is engaged, and only the penetration of the penetrating screw in the remaining part. Preferably, the recess formed in the second part has a cross-section corresponding to the shoulder of the nut part over its entire length. Since the cross-sectional shape of the recess of the second part and the cross-sectional shape of the end of the nut part engaging in such recess are rotationally asymmetric, distortion of the nut part relative to the second part is prevented, For example, by adhesive bonding, it is possible to form a threaded connection without the aid of a fixing tool for fixing the nut part. At this time, the fixing of the nut part is carried out when the first part or the remaining parts to be connected to the second part are not yet mounted on the second part and the outer part of the second part remote from the remaining parts for arranging the nut part Particularly when it is still easy to access the surface.

The cross-sectional shape of the recess and the cross-sectional shape of the shoulder formed on the end side of the nut part, when the cross-section of the recess of the second part and the cross-section of the end of the nut part engaging in this recess are rotationally asymmetric, It is basically arbitrary unless the shape is circular. Manufacturing Technically advantageously, the shoulder of the nut part preferably has a rectangular outer contour and correspondingly the recess formed in the second part has a rectangular inner contour.

The type of stop means that is preferably provided to limit the depth into which the nut part is inserted into the recess of the second part is likewise essentially arbitrary. Thus, as the stopping means, each protrusion which is laterally aligned with respect to the connecting direction of the parts to be connected at the outer surface of the nut part can be used. These protrusions may be integral parts of the nut part or may be formed by separate parts mounted on the nut part. Preferably, however, it is provided that the nut part has as a stop means a radially projecting annular shoulder which restricts the end of the shoulder away from the second part, the annular shoulder being at least partly And extends over the cross-sectional profile of the shoulder in the radial direction.

More preferably, in the threaded connection according to the present invention, a bearing bush for the threaded screw is arranged in the recess formed in the first part for penetrating the threaded screw, The outer edge of the remote recess is tangent to the shape of the shape. Correspondingly, the recess formed in the first part is larger than the cross-section of the shaft of the threaded screw and has a cross-section corresponding to the outer cross-section of the bearing sleeve for the threaded screw, while at one end of the bearing sleeve, An annular shoulder is formed which abuts the outer rim of the sheath and projects radially.

Preferably, the bearing bush is disposed completely within the recess formed in the first part. For this purpose, a radial extension may be formed at the end through which the through thread is inserted into such a recess or into a bearing bush disposed within such a recess, Preferably an annular shoulder formed in the bearing bush, so that one end side of the annular shoulder formed in the bearing sleeve is aligned with the outer surface of the first part.

In this connection it is more preferred that the head of the through thread is embedded in the bearing bush so that the through thread does not protrude above the outer surface of the first part. For this purpose, the bearing bush preferably has an extension for receiving the screw head at the front end of such bearing bush when viewed in the insertion direction of the through-thread. At least a nut component having a shoulder with a rotationally asymmetric cross-section at its end towards the second component, wherein such a shoulder engages within a correspondingly formed recess of the second component to prevent twisting of the nut component , The head of the through thread and preferably the extension formed in the bearing bush are also formed in rotational symmetry. Thus, the through-thread may comprise, for example, a cylinder head, and the extension formed in the bearing bush may be formed in a correspondingly cylindrical shape to receive the screw head.

The threaded connections according to the invention are particularly suitable for connecting parts exposed to varying actuation forces or temperature variations. Such operating conditions occur, for example, while using a military submarine. Therefore, it is desirable to dismountably connect certain components in the submarine with the screw connection according to the invention. Therefore, the present invention also relates to a submarine in which two or more parts are connected by a screw connection as described above.

The submarine typically has a pressure body and an enclosure that at least partially surrounds the pressure body at the outer surface. The envelope is typically formed by cladding parts made of a fibrous composite material, which are secured to a support disposed on the outer surface of the pressure body. In this connection, it is particularly preferable to fix the covering portion forming the envelope to the support disposed on the outer surface of the pressure body using the screw connection according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the drawings. The drawings are shown in schematic, very strongly simplified form and on different scales.

Figure 1 shows a screw connection of two adjacent parts in plan view,
Fig. 2 is a cross-sectional view of the screw connection according to Fig. 1 taken along line II-II in Fig. 1,
FIG. 3 is a perspective exploded view of the screw connection according to FIG. 1,
Fig. 4 is a perspective view of the nut part of the screw connection according to Figs. 1 to 3. Fig.

The threaded connections shown in the figures are used to connect the part 2 to the part 4. The component 2 is fixed to a support member 4 in the form of a component 4 disposed on the outer surface of the submarine pressure body, and the outer skin of the submarine, not shown in the figure, is used. In the figure, only one of the outer skin or part 2 and the supporting part or part 4, but only one rectangular section in the region of the screw connection, is shown schematically. In order to connect the part 2 with the part 4, the two parts 2 and 4 are tangent to each other.

The part 2 has a recess 6 in the form of a through-hole and this recess extends through the part 2 in the direction of connection of the parts 2 and 4. The recess 6 is formed in a substantially cylindrical shape, in which case the recess has a conical extension 8 adjacent to the outer surface of the part 2 remote from the part 4.

The part 4 is provided with a recess 10 which extends through the part 4 in the direction of connection of the parts 2 and 4. The recesses 10 have a square cross section and are arranged so that the central axes A of the recesses 6 and 10 coincide.

A bearing bush 12 for the through screw 14 is inserted in the recess 6 of the first part 2. Corresponding to the shape of the extension part 6, the bearing bushing 12 has a cylindrical basic body, and at the end of the basic body remote from the part 4, the outer surface of the part 2 remote from the part 4 And an annular shoulder 16 is formed which extends in a conical shape toward the direction of the arrow. The bearing bush 12 abuts flat against the annular shoulder 16 at the conical extension 8 of the recess 6 of the part 2. The bearing bushing 12 is completely embedded in the recess 6 so that the front face of the annular shoulder 16 is aligned with the outer surface of the part 2 remote from the part 4.

The threaded screw 14 is guided through the recess 6 of the first part 2 and through the recess 10 of the part 4 via the bearing bushing 12, The end section of the through thread 14 far from the head 18 of the component 4 protrudes from the component 4 at the outer surface of the component 4 remote from the component 2. The head 18 of the threaded screw 14 is completely embedded within the extension of the lumen of the bearing bush 12, which is not visible in the figure.

At the end section of the through thread 14 projecting from the component 4, the through thread is threadedly engaged with the nut component 20. The nut component 20 has a cylindrical basic body 22. At one end of the nut part 20 is formed a shoulder 24 having a square outer cross-section. The external cross-sectional contour of the shoulder 24 corresponds to the cross-sectional contour of the recess 10 of the component 4 and is correspondingly square. The nut component 20 is engaged in the recess 10 by the shoulder 24. An annular shoulder 26 is formed immediately after the shoulder 24 in the nut part 20 to limit the depth of the nut part 20 inserted into the recess 10, Protrudes radially with respect to the base body 22 of the base 20. The diameter of the annular shoulder 26 is configured such that the annular shoulder extends over the cross-sectional profile of the shoulder 24. The area of such an annular shoulder 26 protruding above the shoulder 24 causes the annular shoulder to abut the rim of the recess 10 on the outer surface of the part 4 remote from the part 2, 10) of the nut part (20) inserted into the nut part (20).

A screw thread 30 for threaded engagement with the through thread 14 is formed in the inner lumen of the nut part 20. The thread 30 does not extend over the entire length of the lumen 28 of the nut component 20 but rather is formed only in one end section 32 of the lumen 28 remote from the shoulder 24, In the end section 32, a cross section of the lumen 28 is extended and a section 34 extending to the front of the shoulder 24 is connected, consequently, the through thread 14 causes the lumen 28 to move radially Lt; RTI ID = 0.0 > radial < / RTI >

2: Parts
4: Parts
6: recess
8: Extension part
10: recess
12: Bearing Bush
14: Through thread
16: Annular shoulder
18: Head
20: nut parts
22: Basic body
24: Shoulder
26: Annular shoulder
28: lumen
30: Threaded
32: end section
34: Section
A: Center axis

Claims (10)

And a through thread 14 guided through the recesses 6 and 10 in the parts 2 and 4. The head 18 of the through thread is directly or indirectly adjacent to the first part 2 And a nut part (20) threadably engageable with the through thread (14) and provided to abut the side of the second part (4) remote from the first part (2) And 4,
Characterized in that the nut part (20) has a section (34) which is adjacent to the second part (4) and has an enlarged inner surface and which surrounds the through thread (14) . 3. The nut component according to claim 1, characterized in that one end of the nut part (20) facing the second part (4) is engaged in the recess (10) formed so as to penetrate the through screw (14) Screw connection. The screw connection according to claim 2, characterized in that the nut part (20) is provided with stop means for limiting the engagement of the nut part (20) in the recess (10) formed in the second part (4). 4. A nut part (20) according to claim 2 or 3, wherein one end of the nut part (20) facing towards the second part (4) is formed by a shoulder (24) having a rotational asymmetric cross section, Characterized in that the cross-section of the recess (10) formed in the shoulder (24) corresponds to the cross-section of the shoulder (24). The screw connection according to claim 4, characterized in that the shoulder (24) of the nut part (20) has a rectangular outer contour. 6. A nut according to claim 4 or 5, characterized in that the nut part (20) has an annular shoulder (26) projecting radially adjacent the end of the shoulder (24) remote from the second part (4) Extends radially at least partially across the cross-sectional profile of the shoulder (24). A bearing according to any one of claims 1 to 6, characterized in that a bearing bushing (12) for the through-thread (14) is provided in the recess (6) formed in the first part (2) And the bearing bushes are in contact with the outer rim of the recesses (6) distanced from the second component (4) in a shape-fitting manner. 8. A screw connection according to claim 7, characterized in that the head (18) of the through thread (14) is embedded in the bearing bush (12). Characterized in that two or more parts (2, 4) are connected to the submarine or submarine by screw connections having the features of claims 1 to 5. 10. The support of claim 9, wherein the submarine has a pressure body and an enclosure that at least partially surrounds the pressure body at an outer surface, wherein at least one portion of the enclosure is located on the outer surface of the pressure body. A submarine characterized in that it is fixed by a threaded connection having the features of claim 5.

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