DE102017130337A1 - Mounting device for introducing a measuring element into a recess of a component - Google Patents

Abstract

The invention relates to a mounting device for inserting a measuring element (100) into a recess of a component, wherein the mounting device has a base body (1) having a fastening area (3) for fastening the base body (1) to the component and a through-hole (10). and a punch (20) which can be arranged in the through hole (10) and which is movable for insertion of the measuring element (100) into the recess along a longitudinal direction of the through hole (10), the punch (20) having an end face with a positive locking element (10). 21) via which a rotational movement of the measuring element (100) can be blocked.

Description

The invention relates to a mounting device for introducing a measuring element into a recess of a component. Another object of the invention is a system with a measuring element and a mounting device for introducing the measuring element into a recess of a component. Furthermore, the invention relates to a method for introducing a measuring element into a recess of a component.

From the DE 10 2014 204 025 A1 a cylindrical measuring element is known that is pressed for detecting loads of a component of a rolling bearing in a recess in the component. To position the component is in the DE 10 2014 204 025 A1 proposed an aid. With the use of such aids it has been found that a positioning of the measuring element in a desired orientation to an expected force flow in the component is often not possible. In particular, when the measuring element is pressed into the recess in the component, undesirable rotation of the measuring element often occurs which makes positioning in the desired orientation difficult. Such a misalignment can be difficult to correct in retrospect due to the interference fit of the measuring element in the recess.

Against this background, the task is to enable the positioning of a measuring element when introduced into a recess in a component according to a predetermined orientation.

The object is achieved by a mounting device for introducing a measuring element into a recess of a component, wherein the mounting device has a base body which comprises a fastening region for fastening the base body to the component and a through-bore, and a punch which can be arranged in the through-bore and which is for insertion of the measuring element in the recess along a longitudinal direction of the through hole is movable, wherein the punch has an end face with a positive locking element, via which a rotational movement of the measuring element can be blocked.

In the mounting device according to the invention, a fastening region is provided, via which the main body of the mounting device can be fastened to the component, in which the measuring element is introduced, in particular pressed, to be. The base body can be supported on the component via the fastening region, so that forces which occur when the measuring element is introduced into the component are introduced into the component. In addition, the risk that the base body of the mounting device is rotated relative to the component can be reduced. Further, the end face of the punch on a positive locking element, which can be brought into engagement with a corresponding positive locking element of the measuring element, so that an undesired rotation of the measuring element relative to the punch is prevented during insertion into the recess. By these measures the most accurate positioning of the measuring element in the recess of the component can be made possible according to a predetermined orientation.

The form-fitting element of the stamp may be formed for example as a projection which protrudes from the end face of the punch or as a recess in the end face of the punch. Preferably, the form-locking element is disposed decentrally on the end face of the punch and / or has a non-rotationally symmetrical cross-section. By such an arrangement and / or configuration of the positive locking element, the rotatability of the measuring element relative to the punch, in particular about an axis of rotation which is formed parallel to the longitudinal direction of the through hole can be blocked.

An advantageous embodiment provides that the punch is movable against rotation along the longitudinal direction of the through hole. In such an embodiment, the punch is received in the through hole of the main body according to a sliding fit, which allows only a movement in the longitudinal direction of the through hole. When introducing the measuring element into the recess of the component thus rotation of the punch relative to the base body is prevented. Since the main body can be fixed to the component via the fastening region and the measuring element can be secured against rotation relative to the punch by means of the interlocking element, the risk of undesired twisting of the measuring element during insertion can be further reduced.

Preferably, the mounting device on an at least partially insertable into the through hole anti-rotation element for limiting a rotational movement of the punch about an axis parallel to the longitudinal direction of the through hole axis of rotation. The anti-rotation element can be in engagement with a recess, in particular with a groove, in the stamp. The anti-rotation element is preferably arranged in a perpendicular to the through hole arranged Verdrehsicherungselement bore of the body. An embodiment of the anti-rotation element as a screw or as a pin is advantageous, wherein the anti-rotation element in particular in the anti-rotation element bore is movable. About the anti-rotation element, the angular position between the punch and body can be defined. In addition, the anti-rotation element can represent an optically recognizable angle mark on the base body, which indicates the orientation of the punch and thus also of the measuring element.

An alternative preferred embodiment provides that the base body has a linear guide, in particular a guide groove for the punch, which extends in the longitudinal direction of the through hole and prevents rotational movement of the punch. Further alternatively, it can be provided that the through-hole has a non-rotationally symmetrical cross-section.

According to an advantageous embodiment, it is provided that the fastening region has a thread, so that the base body can be screwed into the component. The fastening region preferably has a fine thread. Fine threads have in comparison to standard threads on a lower pitch and are in corresponding standards, for example ISO 261 , specified. Due to the comparatively low pitch of the fine thread, the manual positioning can be facilitated to a predetermined rotational position relative to the component. Alternatively, the attachment region may comprise a bayonet closure element.

A preferred embodiment provides that the base body has a connection region for connecting a pressing tool, via which the punch is movable along the longitudinal direction of the through hole. A pressure on the punch, in particular on a first end face of the punch, can be exerted via the pressing tool so that the punch can press the measuring element into the recess in the component. A pressing tool can be used in particular in those applications in which an interference fit between the measuring element and the component having the recess is desired. The press train can be configured, for example, as a hydraulic pressing tool, in particular a hydraulic cylinder, as an electromotive pressing tool or as a screw. The connection region preferably has a thread, in particular a fine thread. The thread can cooperate for connecting the pressing tool with a corresponding thread or fine thread of the pressing tool.

According to an advantageous embodiment, the base body has a stop, via which a stroke of the punch is limited in the through hole. By such a stop, a Einbringtiefe can be adjusted, in which the measuring element is introduced by the punch in the recess. Preferably, in an end position of the punch, a stop portion connected to the punch is fixed by the stop of the base body. For example, the abutment portion abut in the end position on the stop of the body.

It has proved to be advantageous if the punch has a cable guide for receiving a cable connected to the measuring element. Such a cable guide allows the introduction of measuring elements, which are already connected to a cable, so that can be dispensed with a subsequent binding of a cable to the already introduced into the recess of the component measuring element. The cable guide of the stamp can be designed as a recess, in particular as a groove.

It is advantageous if the main body has a passage opening connected to the through-hole for passing through a cable connected to the measuring element. If necessary, the cable connected to the measuring element can first be led outwards through a cable guide of the stamp and then through the lead-through opening, so that there is no danger of undesired loading of the cable by pressure during the introduction of the measuring element.

In this context, it has been found to be advantageous if the base body has a first base body element and a second base body element, which have an edge which is in a connected state in contact with the respective other base body element, wherein the passage opening for performing a with the measuring element connected cable is formed as a recess in the edge of the first and / or second basic body element. Such a configuration has the advantage that the insertion and removal of the cable from the passage opening is facilitated when the first base body element and the second base body element are separated from each other.

According to an advantageous embodiment, it is provided that the base body has a centering aid for centering the through hole on the recess in the component. The centering aid is preferably designed as a chamfer surrounding an end opening of the through hole.

Preferably, the base body is at least partially made of a light metal, such as aluminum, magnesium or titanium, formed to facilitate handling of the mounting device.

Another object of the invention is a system with a measuring element and a above-described mounting device for introducing the measuring element into a recess of a component.

The invention further relates to a method for introducing a measuring element into a recess of a component, wherein the mounting device comprises a base body comprising a mounting portion for fixing the base body to the component and a through hole, wherein in the through hole, a stamp is arranged, for insertion of the measuring element is moved into the recess along a longitudinal direction of the through hole, wherein the punch has an end face with a positive locking element, via which a rotational movement of the measuring element is blocked.

In the system and method, the same advantages can be achieved as have already been described in connection with the mounting device.

According to an advantageous embodiment, the system comprises a pressing tool connected to the mounting device, in particular a connection region of the mounting device. The press train can be configured, for example, as a hydraulic pressing tool, in particular a hydraulic cylinder, as an electromotive pressing tool or as a screw.

The measuring element of the system is preferably designed as a cylindrical measuring element, in particular as a measuring pin, and the through hole of the base body as a cylindrical bore. The measuring element preferably has a sensor, for example a strain, tension or pressure-sensitive sensor.

An advantageous embodiment of the method provides that the punch is moved by means of a pressing tool. In a preparatory step, the pressing tool can first be connected to the base body of the mounting device, for example by means of a connection region arranged on the mounting device, which in particular has a thread. The pressing tool makes it possible to transmit a force to the punch and the measuring element, which results in the measuring element being frictionally fitted into the recess in the component.

• 1 ein Ausführungsbeispiel eines Grundkörpers einer erfindungsgemäßen Montagevorrichtung in einer perspektivischen Darstellung;
• 2 ein Teil des Grundkörpers nach 1 zusammen mit einem Messelement in einer Schnittdarstellung;
• 3 ein System gemäß einem ersten Ausführungsbeispiel der Erfindung mit einer Montagevorrichtung und einem Messelement in einer Schnittdarstellung;
• 4 eine beispielhafte Stirnfläche eines Messelements in einer Schnittdarstellung;
• 5 ein System gemäß einem ersten Ausführungsbeispiel der Erfindung mit einer Montagevorrichtung und einem Messelement in einer Schnittdarstellung.

Further details and advantages of the invention will be explained below with reference to the embodiments illustrated in the drawings. Hereby shows:

• 1 an embodiment of a main body of a mounting device according to the invention in a perspective view;
• 2 a part of the body after 1 together with a measuring element in a sectional view;
• 3 a system according to a first embodiment of the invention with a mounting device and a measuring element in a sectional view;
• 4 an exemplary end face of a measuring element in a sectional view;
• 5 a system according to a first embodiment of the invention with a mounting device and a measuring element in a sectional view.

In the 1 is a basic body 1 a mounting device according to the invention for introducing a measuring element 100 shown in a recess of a component. The main body 1 is formed of a metal, in particular of a light metal such as aluminum, magnesium or titanium. The main body 1 far a mounting area 3 on, via which the base body can be attached to a component, in which the measuring element introduced, in particular pressed, to be. At the base body 1 according to the embodiment is in the attachment area 3 a thread 4 intended. This thread 4 can be brought into engagement with a corresponding thread on the component to fix the mounting device to the component. The thread 4 is preferably formed as a fine thread.

At one end of the mounting area 3 opens through a running through the body through hole 10 in an opening 2 ,

The attachment area 3 of the basic body 1 is adjacent to a management area 5 of the basic body 1 which is essentially the through hole 10 includes in which a stamp 20 the mounting device 1 can be performed. On one side of the guidance area 5 the attachment area 3 opposite to the attachment to the component, is a connection area 6 provided on which a pressing tool can be connected. According to the Ausführungsbespiel are the attachment area 3 , the leadership area 5 and the connection area 6 formed in the manner of hollow cylinders, which are integrally connected to each other.

The 2 shows a section of a section of the body 1 according to 1 who is the attachment area 3 and the leadership area 5 includes. In addition to the main body 1 the mounting device is in 2 on measuring element 100 shown. The measuring element 100 is designed as a substantially cylindrical measuring pin, which passes through the through hole 10 of the basic body 1 guided in a recess in the respective component can be spent. At an end face of the measuring element 100 is a form-locking element 101 arranged, which as a recess in the end face of the measuring element 100 is designed. The measuring element 100 has a sensor, not shown in the drawings, in particular a strain, tension or pressure-sensitive sensor on.

In the area of the opening 2 the through hole 10 in the attachment area 3 a centering aid for centering the through hole is arranged on the recess in the component. The centering aid is a bevel in an end edge of the mounting area 3 educated.

In the management area 5 indicates the basic body 1 a side opening 9 on that into the through hole 10 empties. Through this opening 9 a cable connected to the measuring element can be led to the outside. Further, in the guidance area 5 of the basic body 1 an anti-rotation element bore 8th arranged. The anti-rotation element hole 8th extends in a substantially radial direction with respect to a longitudinal direction F the hole drilling 10 , In the anti-rotation element hole 8th An anti-rotation element can be received, via which one in the through hole 10 movably mounted stamp against unwanted twisting can be secured.

The 3 shows a mounting device according to an embodiment of the invention in a sectional view. The main body 1 this embodiment corresponds to the in 1 and 2 shown basic body 1 , so that reference is made to the corresponding description of these figures.

Another component of the mounting device is a stamp 20 in the through hole 10 of the base body is arranged and for introducing the measuring element 100 in the recess along the longitudinal direction F the through hole 10 can be moved. The Stamp 20 is formed as a substantially cylindrical pin. At one end of the stamp 20 this has a positive connection element 21 on. The form-locking element 21 acts with the positive locking element 101 of the measuring element 100 so together, the rotational movement of the measuring element 100 is blocked, provided the stamp 20 on the measuring element 100 is applied. The measuring element 100 and the through hole 10 as well as the stamp 20 and the through hole 10 each form a sliding seat fit.

The Stamp 20 is along the longitudinal direction F the through hole 10 is secured against rotation. This is due to the anti-rotation element bore 8th into the through hole 10 an anti-rotation element 7 introduced, for example, a screw or a pin. The anti-rotation element 7 so lies on the stamp 20 that this is true in the longitudinal direction F the through hole 10 can move linearly, a rotation within the through hole 10 but is prevented. For example, the anti-rotation element 7 in an in 3 Not shown recess or groove in the stamp 20 intervention. In the embodiment, by the anti-rotation element 7 be ensured that a given direction of measurement M of the measuring element 100 always perpendicular to a longitudinal axis of the anti-rotation element 7 is aligned. The anti-rotation element acts outwards 7 as a visible angle mark for determining the measuring direction M , The anti-rotation element 7 can be detected by means of a locking element. In a trained as a screw anti-rotation element 7 For example, a nut can be used as a securing element, which on a thread of the anti-rotation element 7 is applied and from the outside to the body 1 is applied.

3 further shows that the main body 1 a connection area 6 for connecting a pressing tool, via which the punch 20 along the longitudinal direction of the through hole 10 is movable. Such a pressing tool may for example be a hydraulic cylinder or an electromotive actuator. In the embodiment is in the connection area 6 a thread designed as an internal thread 13 provided, which can cooperate with a thread of the pressing tool. The in the connection area 6 Tailored pressing tool can on a front side of the punch 20 acting on the measuring element 100 opposite.

To press in the measuring element too far 100 To prevent beyond a desired level, the base body 1 a stop 15 over which the stroke of the punch 20 in the through hole 10 is limited.

The Stamp 20 can only go that far in the direction of the attachment area 3 be moved until one on the stamp 20 arranged stop section in on the stop 15 of the basic body 1 is applied. In the embodiment, the stopper portion is through a shim 11 formed over two mutually braced - ie countered - nuts 12 on the stamp 20 is fixed.

The Stamp 20 also has a cable guide, not shown in the figures, in which a cable connected to the measuring element is received and up to the lead-through opening 9 can be performed in the Grundköper. The cable guide in the stamp 20 can z. B. be configured as a groove or as internal in the punch cable channel.

In the 4 is an exemplary end face of a measuring element 100 shown in a sectional view. This measuring element 100 has at its end face designed as a recess positive locking element 101 on. The recess 101 is arranged decentralized and has a non-rotationally symmetrical cross section, so that a likewise formally arranged and designed with a corresponding cross-section and designed as a projection positive locking element 21 of the punch in the recess 101 can intervene. At the front of the measuring element 100 is also a central recess 104 provided, which has an internal thread. In the internal thread of the recess 104 a tool can be screwed in to disassemble the measuring element 100 from the recess in the component to facilitate. Furthermore, the end face of the measuring element 100 a groove 102 on, through the one with the measuring element 100 connected cable 103 is guided.

In the following, an embodiment of a method for introducing a measuring element 100 be explained in a recess of a component, wherein the mounting device is a base body 1 having a fastening area 3 for attachment of the body 1 on the component and a through hole 10 comprising, wherein in the through hole 10 a stamp 20 is arranged, for introducing the measuring element 100 in the recess along a longitudinal direction of the through hole 10 is moved, the stamp 20 an end face with a positive locking element 21 has, via the rotational movement of the measuring element 100 is blocked.

In the method, a desired offset is first determined in which the measuring element 100 to be pressed in the respective recess in the component. According to this desired Einpresstiefe the shim 11 at a corresponding point along the stamp 20 arranged and over the nuts 12 secured. Then the stamp 20 into the through hole 20 of the basic body 1 plugged in. After the stamp 20 is arranged in the through hole, the anti-rotation element 7 inserted into the lateral anti-rotation element bore until it abuts the punch 20 comes and secures this against turning.

Then that will be done with the measuring element 100 connected cables 103 through the cable guide in the punch and the passage opening 9 of the basic body 1 placed. The measuring element 100 is at the with the positive connection element 21 provided end face of the stamp 20 arranged and in the through hole 10 plugged into the base body, leaving it in positive engagement with the punch 20 stands.

In a next process step, the attachment area 3 of the basic body 1 connected to the component, for example by screwing a thread 4 of the attachment area 3 in a corresponding thread on the component. In this step, the anti-rotation element 7 serve as a visible angle marking, on the basis of which the orientation of the measuring element in the measuring direction M can be tested.

If the main body 1 the mounting device is fixed to the component, is at the connection area 6 of the basic body 1 a pressing tool tied. By means of the pressing tool, the measuring element 100 pressed into the recess. Here, the pressing tool acts on the stamp 20 the measuring element 100 presses into the recess without the measuring element 100 twisted at the same time.

After pressing in, the pressing tool of the connection area 6 of the basic body 1 solved. The anti-rotation element 7 can be optionally dismantled. Then the stamp 20 from the through hole 10 drawn. The cable 103 is through the through hole 10 guided, leaving it on the side of the through hole 10 in the connection area 6 flows out. Finally, the basic body 1 detached from the component and over the cable 103 deducted.

In the 5 a second embodiment of a system according to the invention is shown. In contrast to the first embodiment, the basic body is in this system 100 the assembly device designed in several parts. The main body 1 includes a first body member 1.1 which is the leadership area 5 and the attachment area 4 includes. The first basic body element 1.1 is preferably made of a metal, in particular steel. Furthermore, the basic body comprises 1 a second basic body element 1.2 which is the connection area 6 includes. The second basic body element 1.2 For weight reduction, it is preferably formed from a light metal such as aluminum, magnesium or titanium.

The two basic body elements 1.1 . 1.2 can optionally be separated or - as in 5 shown - connected. The connection of the two basic body elements 1.1 . 1.2 can z. B. via a screw connection.

The first basic body element 1.1 has an edge 16 in the connected state in contact with the second body member 1.2 is. The passage opening 9 for performing the with the measuring element 100 connected cable 103 this body 1 is as a recess in the edge 16 of the first basic body element 1.1 designed. This will make it possible for the cable 103 in a simple manner in the passage opening 9 bring in and remove from it, if the first body element 1.1 and the second basic body element 1.2 are separated from each other.

In a method for introducing a measuring element 100 in a recess of a component, with the mounting device according to 5 carried out, deviating from the first embodiment, first, the first body member 1.1 connected to the component. That with the measuring element 100 connected cables 103 is then in the recess in the edge of the first body member 1.1 equipped passage opening 9 placed. Only then is the second basic body element 1.2 with the first body element 1.1 connected.

After pressing in the measuring element 100 in the component is first the second basic body element 1.2 optionally together with the pressing tool from the first basic body element 1.1 separated. In this disconnected state, the cable becomes 103 removed from the passage opening. Finally, the first basic body element 1.1 detached from the component and over the cable 103 deducted.

The above-described mounting devices for introducing a measuring element 100 in a recess of a component each have a main body 1 on top of a mounting area 3 for attachment of the body 1 on the component and a through hole 10 includes. Furthermore, the mounting devices have a in the through hole 10 arrangeable stamp 20 on, for insertion of the measuring element 100 in the recess along a longitudinal direction of the through hole 10 is movable, the punch 20 an end face with a positive locking element 21 has, via the rotational movement of the measuring element 100 is blockable.

LIST OF REFERENCE NUMBERS

1

body

1.1

Body member

1.2

Body member

2

opening

3

fastening area

4

thread

5

guide region

6

connecting region

7

anti-rotation

8th

Anti-rotation bore

9

Through opening

10

Through Hole

11

shim

12

mother

13

thread

14

Press tool support

15

attack

16

edge

20

stamp

21

Form-fitting element

100

measuring element

101

Form-fitting element

102

groove

103

electric wire

104

recess

M

measuring direction

F

longitudinal direction

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102014204025 A1 [0002]

Cited non-patent literature

• ISO 261 [0010]

Claims (10)

Mounting device for introducing a measuring element (100) into a recess of a component, wherein the mounting device comprises a base body (1), which comprises a fastening region (3) for fastening the base body (1) to the component and a through-bore (10), and a punch (20) which can be arranged in the passage bore (10) and which is movable into the recess along a longitudinal direction of the passage bore (10) for insertion of the measuring element (100), the punch (20) having an end face with a positive locking element (21), via which a rotational movement of the measuring element (100) can be blocked. Mounting device according to Claim 1 , characterized in that the punch (20) along the longitudinal direction of the through hole (10) is non-rotatably movable. Mounting device according to one of the preceding claims, characterized in that the mounting device has an at least partially insertable into the through hole (10) Verdrehsicherungselement (7) for limiting a rotational movement of the punch about an axis parallel to the longitudinal direction of the through hole axis of rotation. Mounting device according to one of the preceding claims, characterized in that the base body (1) has a connection region (6) for connecting a pressing tool, via which the punch (20) along the longitudinal direction of the through hole (10) is movable. Mounting device according to one of the preceding claims, characterized in that the base body has a stop (15) over which a stroke of the punch (20) is limited in the through hole, in particular wherein in an end position of the punch associated with the stamp stop portion (11 ) is determined by the stop of the body. Mounting device according to one of the preceding claims, characterized in that the punch has a cable guide for receiving a cable connected to the measuring element. Mounting device according to one of the preceding claims, characterized in that the base body has a passage opening (9) connected to the through hole for passing a cable (103) connected to the measuring element (100). Mounting device according to Claim 7 , characterized in that the base body (1) has a first base body element (1.1) and a second base body element (1.2), which have an edge (16) which in a connected state in contact with the respective other base body element (1.1, 1.2) is, wherein the passage opening (9) for performing a connected to the measuring element (100) cable (103) as a recess in the edge (16) of the first and / or second basic body element (1.1, 1.2) is formed. System comprising a measuring element and a mounting device for introducing the measuring element (100) into a recess of a component according to one of the preceding claims, wherein the system preferably comprises a pressing tool connected to the mounting device, in particular a connection region (6) of the mounting device. Method for introducing a measuring element (100) into a recess of a component, wherein the mounting device has a base body (1) which has a fastening region (3) for fastening the base body (1) to the component and a through-bore (10), wherein the through-bore (10) a punch (20) is arranged, which is moved to introduce the measuring element (100) into the recess along a longitudinal direction of the through hole (10), wherein the punch (20) has an end face with a positive locking element (21) , via which a rotational movement of the measuring element (100) is blocked.

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