DE102014224088A1 - Tapping Bridge - Google Patents

Abstract

The invention relates to a valve tapping fitting (1) for mounting on a pipe, comprising a housing (2) which has a main section (3) extending in the tapping direction (4) onto the pipe and attachable to the pipe, and a branching section (5). Furthermore, a valve body (8) and a cutting tool (10) are provided, wherein the valve body (8) in the housing (2) via a drive spindle (16) and on the valve body (8) mounted and with the housing (2) in engagement External thread is arranged translationally displaceable. The drive spindle (16) comprises a shaft (17) led out of the housing (2) and a partial section (19) lying in the housing interior (18). The partial section (19) of the drive spindle (16) located inside the housing (18) has at least two driver elements (20) spaced apart radially from the axis of rotation (14). In the valve body (8) corresponding recesses (21) for receiving the driver elements (20) are provided so that the drive spindle (16) and the valve body (8) are coupled for transmitting torque and axially displaceable to each other.

Description

The invention relates to a Ventilanbohrarmatur, as indicated in claim 1.

From the DE 103 20 977 B4 is a Ventilanbohrarmatur with a housing, a pipe attachable to a saddle, a branch pipe, a valve body which is provided with an external thread, wherein the external thread is in engagement with the housing, and a cutting tool known. The valve body and the cutting tool are arranged longitudinally displaceably in the housing via a drive spindle. The drive spindle consists of a shaft led out of the housing and a sleeve arranged on the housing-internal end of the shaft. The sleeve is arranged so axially displaceable to the shaft and the valve body, that in an upper end position of the cutting tool, the sleeve is almost completely receivable in the valve body and at the same time completely slipped over the rigid part of the shaft. The torque transmission between the shaft and sleeve, as well as between the sleeve and the valve body takes place via an at least partially polygonal peripheral contour of the respective components. The sleeve results in a telescopic drive spindle for torque transmission.

Furthermore, countless designs are known from the prior art, in which a drive spindle with a polygonal cross-sectional contour, or with a driver element, forms a direct torque-transmitting connection to a valve body, in which a corresponding recess for receiving the torque is provided. Also in these embodiments, the valve body is displaceable relative to the drive spindle.

The in the DE 103 20 977 B4 described embodiment has the disadvantage that the structure of the drive spindle with an intermediate sleeve is complex. This results in high demands on the production of numerous small parts. The assembly of the valve tapping fitting is difficult due to the small parts. As a result, this valve tapping fitting is not only relatively expensive to produce, but due to the many small parts, there is also a certain susceptibility to errors with regard to the typically long service life or service life of such tapping fittings.

The other known from the prior art embodiments have the disadvantage that the valve body must have a large axial extent in order to achieve a sufficient opening position for free or unhindered flow of a medium can. As a result, the height of such a Ventilanbohrarmatur is undesirably large.

The present invention has for its object to provide an improved Ventilanbohrarmatur.

This object of the invention is achieved by the measures according to claim 1.

According to the invention a Ventilanbohrarmatur for mounting on a pipe, with a housing having a running in the direction of boring on the pipe and fastened to the pipe main portion and a branch portion for a passing of the drilled pipe medium formed. Furthermore, the Ventilanbohrarmatur includes a valve body and a cutting tool, wherein the valve body is arranged in the housing via a drive spindle and an attached to the valve body and standing in engagement with the housing external thread translationally displaceable. The drive spindle comprises a shaft led out of the housing and a partial section located inside the housing, wherein the drive spindle is mounted rotatably in the housing about a rotation axis. The partial section of the drive spindle lying in the interior of the housing has at least two driver elements spaced radially from the axis of rotation. Furthermore, corresponding recesses for receiving the driver elements are provided in the valve body, so that the drive spindle and the valve body are coupled for transmitting torque and axially displaceable to each other.

An advantage of the embodiment of the invention is that a sufficiently high torque can be reliably transmitted from the drive spindle to the valve body by the spacing of the driver elements. Due to the axial displaceability between the drive spindle and the valve body can be achieved that the valve body by means of a rotational movement and due to the valve body mounted, and with the housing engaged external thread, can move axially. Furthermore, the driver elements can be placed by their distance from the axis of rotation so that the valve body with its recesses and connected to the valve body cutting tool can be completely displaced within the driver elements or nested. The advantage here is that thereby the entire valve tapping can be constructed lower than conventional Ventilanbohrarmaturen. This results in the great advantage that such a Ventilanbohrarmatur, which is typically installed in the soil or in a gravel bed when installed, a lower risk of damage subject, as it offers less vulnerability to environmental influences. This is particularly important if, for example, a revision to a house connection made with such a valve tapping attachment works with heavy equipment such as excavators. Furthermore, the simple and robust construction of the tapping fitting is very advantageous in itself, as this is less error prone. This is of considerable advantage, in particular in the typically long-term use or service life of such underground tapping armatures.

Furthermore, it may be expedient that a radial distance of the driver elements of the axis of rotation is dimensioned to be greater than a radial distance of the outer lateral surface of the cutting tool to the axis of rotation, so that the driver elements outside the cutting tool are vorbeiführbar. It is particularly advantageous that is achieved specifically by this measure that the entire valve tapping can be constructed relatively compact or compact. The radial distance of the driver elements is that distance which can be considered along the longitudinal extent of the driver elements substantially as the innermost radial distance to the axis of rotation. For the outer surface of the cutting tool a circular cylindrical contour is assumed.

Furthermore, it may be expedient that extends from a shaft distal lower edge of the driver elements in an upper end position of the cutting tool substantially to a cutting edge of the cutting tool. It is advantageous that thereby the smallest possible height of the valve tapping is achieved. Furthermore, an advantageous flow through the valve tapping fitting can be achieved by this measure, when the cutting tool is in the upper end position and the valve is set to maximum open. In particular, the free flow cross section can thereby be maximized or dimensioned relatively large.

Furthermore, it may be advantageous that an outer diameter of the cutting tool is smaller than a core diameter of the external thread on the valve body. It can thereby be achieved that the cutting tool can be displaced axially within the thread of the housing corresponding to the valve body without damaging it.

Furthermore, it can be provided that the recesses in the valve body, which extend axially in the valve body, are open in the radial direction to the outside, or are formed as a through hole. Depending on the design of the driver elements, each of these variants is advantageous. In driver elements which are tubular segment-like, it may be advantageous, for example, that the recesses are open in the radial direction to the outside, since the recesses are thus easy to manufacture. In particular, a mechanical production by means of milling machine can be carried out easily. In driver elements, which are designed in the form of pins, it may be advantageous if the recesses are formed as a through hole, as they are easy to manufacture, for example by means of a hole.

Furthermore, it may be expedient that the driver elements are formed as tube segments. The advantage here is that pipe segments are ideally suited by their shape to transmit the torque applied to the drive spindle stable or reliable to the valve body. In contrast to comparable pin elements, the stresses and deformations occurring in the driver element are significantly lower when transmitting a specific torque.

Alternatively it can be provided that the driver elements are designed as pins. It is particularly advantageous that such pins are simple and inexpensive to manufacture. Furthermore, the recesses, which can be performed in the valve body as a through hole, particularly easy to manufacture.

Furthermore, it can be provided that the cutting tool is, if necessary, releasably connected to the valve body. The advantage here is that the connection between the valve body and cutting tool can be performed as a screw connection. As a result, two different materials for the cutting tool and for the valve body can be realized, whereby the respective requirements can be optimally met. In addition, these subcomponents can be easily assembled.

According to an advantageous embodiment it can be provided that the external thread attached to the valve body is interrupted in sections by the recesses provided in the valve body for the driver elements. This is advantageous, as this allows a simple and cost-effective processing of the recesses in the radial direction to the valve body or allowed. In terms of the maximum torque transmission of the external thread, these recesses are uncritical.

Furthermore, it can be provided that in a cutting tool facing portion of the valve body, a sealing element on Valve body is attached. It is advantageous here that the valve body in the closed state can stop the flow of the medium and reliably seal, so that, for example, a domestic water connection can be made pressure-free. The sealing element can in this case be designed as a sealing ring, which seals radially relative to the surrounding housing. Furthermore, for example, a flat gasket may be designed, which may be mounted in the axial direction in a shoulder of the valve body, and may develop its sealing effect by contact with the housing.

According to an expedient embodiment, it is provided that the sealing element is arranged in a radial direction on the valve body, wherein a radial distance of the driver elements is dimensioned larger by the axis of rotation than a radial distance of the sealing element. It is advantageous that the sealing element can be guided past the driver elements, whereby a low construction of Ventilanbohrarmatur can be implemented. As the radial distance of the sealing element of the outermost distance of the sealing element is seen. The radial distance of the driver elements is that distance which can be considered along the longitudinal extent of the driver elements substantially as the innermost radial distance to the axis of rotation.

Finally, it may be appropriate that the driver elements are connected by a material connection to the drive spindle. It is advantageous here that high forces can be transmitted through such a material connection and this is furthermore easy to produce. Preferably, in this case, a welded joint or brazed joint is constructed.

By turning the drive spindle, the torque is transmitted to the valve body, which is thereby also rotated. Characterized in that the valve body is coupled by a thread to the housing, there is a displacement of the valve body along the Anbohrrichtung the Ventilanbohrarmatur, in particular a translational adjustment of the valve body and the cutting tool within the main portion of the housing.

For a better understanding of the invention, this will be explained in more detail with reference to the following figures.

In each case, in a highly simplified, schematic representation:

1 a vertical longitudinal section through a Ventilanbohrarmatur along the central axis, in particular according to the lines II 2 , wherein the valve body is in a lower end position or in the closed position;

2 a vertical cross section through a Ventilanbohrarmatur along the central axis, in particular according to the lines II-II 1 ;

3 a perspective view of a male inside the housing of a Ventilanbohrarmatur valve body with drive spindle and cutting tool, wherein the valve body is in a lower end position;

4 a vertical longitudinal section through a Ventilanbohrarmatur along the central axis, in particular according to the lines II 2 , wherein the valve body is in an upper end position or in the open position;

5 a perspective view of the valve body according to 3 , wherein the valve body is in an upper end position;

6 a perspective view of another embodiment of a valve body with drive spindle and cutting tool, wherein the valve body is in a lower end position or in an intermediate position.

By way of introduction, it should be noted that in the differently described embodiments, the same parts are provided with the same reference numerals or the same component names, wherein the disclosures contained in the entire description can be mutatis mutandis to the same parts with the same reference numerals or component names. Also, the location information chosen in the description, such as top, bottom, side, etc. related to the immediately described and illustrated figure and these position information in a change in position mutatis mutandis to transfer to the new location.

The 1 to 5 show a first embodiment of a Ventilanbohrarmatur 1 , which is shown in several different sectional views and perspective views. Furthermore, different opening states of the valve tapping fitting are in the different representations 1 shown.

1 shows a section through a valve tapping 1 according to the lines II in 2 , The valve tapping fitting shown in this illustration 1 includes a housing 2 which a main section 3 having, which for fastening the Ventilanbohrarmatur 1 in drilling direction 4 serves at the pipe to be drilled. Furthermore, the housing includes 2 a branching section 5 to which the pipeline to the house connection are attached can. It can be provided that the branching section 5 as shown at an angle of 90 ° to the main section 3 or to the direction of drilling 4 is appropriate.

The main section 3 the valve tapping fitting 1 is preferably designed so that it can be fixed by means of a simple connection, such as a screw, by means of a pipe clamp on the pipe to be drilled. However, it can also be provided that the main section 3 by means of a material connection, such as a welded joint, is attached to the pipe to be drilled. The main section 3 can have a cup-shaped, in particular half-shell-shaped foot or coupling portion.

It can be provided that in the housing 2 an insert element 6 is arranged, which is an internal thread 7 having. Such an insert element 6 can have advantages in the mechanical production of the internal thread 7 entail.

Furthermore, the advantage of such an insert element 6 insist that for the insert element 6 Materials can be used which can be processed well in the course of mechanical production. For the case 2 Lightweight and easy to pour materials can be used. Such an insert element 6 However, it is not absolutely necessary, since it can also be provided that the internal thread 7 directly in the housing 2 is integrated.

Because such an insert element 6 which is in the housing 2 is not mandatory, the further description is continued as if the housing 2 the internal thread 7 have, and thus such an insert element 6 does not exist. Of course, all statements in this description are to be read so that a version with insert element 6 is included.

In the case 2 can be a valve body 8th with an internal thread 7 corresponding or corresponding outer thread 9 be screwed. The one in the case 2 screwed valve body 8th can be a cutting tool 10 have, which is used for tapping the pipe to be drilled. In this case, a circular section of the tubular jacket is cut out. This circular section cut out of the pipe jacket preferably remains in the interior of the hollow cylindrical cutting tool 10 , For secure support of the cut-out portion can on the inner surface of the cutting tool 10 groove-like or thread-shaped elevations may be formed. The valve body 8th can also be attached to a cutting tool 10 facing section 11 a sealing element 12 exhibit.

Such a sealing element 12 For example, can be performed as a sealing ring, which in the radial direction 13 on a rotation axis 14 of the valve body 8th seen acts. This seals the sealing element 12 the valve seat between the valve body 8th and housing 2 from. Especially in a lower end position 15 that is, in the closed position of the valve body 8th , It is thus achieved that the flow of the medium is stopped and thereby the branching section 5 or a domestic water connection can be depressurized.

A rotational movement of the valve body 8th can by interaction of the valve body 8th attached external thread 9 with the case 2 attached internal thread 7 in a translational adjusting movement of the valve body in the boring direction 4 or against the Anbohrrichtung 4 being transformed. The rotational movement is in this case by a drive spindle 16 in the valve body 8th initiated.

The drive spindle 16 includes a guided out of the housing shaft 17 , which may be adapted to receive a socket wrench, by means of which the torque in the drive spindle 16 is initiated. The shaft 17 can, as shown in this embodiment, be executed as a square. Furthermore, it is also possible that the shaft 17 has another polygonal cross-sectional contour or another coupling agent. Another possibility is that the drive spindle 16 is driven by means of a hexagon socket connection. For this purpose, it may be provided that not a shank 17 guided to the outside, but the drive spindle has a recess in the form of a hexagon socket.

In the illustrated embodiment, the drive spindle comprises 16 in addition to outside the case 2 lying end portion one inside the housing 18 lying subsection 19 , This section 19 the drive spindle 16 has at least two radial to the axis of rotation 14 spaced driver elements 20 on. These driver elements 20 are formed so that they are in at least one of the driver elements 20 adapted recess 21 of the valve body 8th engage in order to initiate a rotational movement on the valve body can. At the same time these recesses 21 designed such that an axial Relativverschiebbarkeit between the driver elements 20 and the valve body 8th ensured, if due to the threaded coupling between the valve body 8th and the housing 2 the valve body 8th inside the housing is translationally adjusted.

The driver elements 20 are in this embodiment as pipe segments 22 executed, which by a material connection, such as weld or braze, with the drive spindle 16 can be connected. However, it is also conceivable that the driver elements 20 for example by a screw connection with the drive spindle 16 are connected. As a further variant, it is also conceivable that the driver elements 20 and the drive spindle 16 molded in one piece from a casting.

According to an expedient measure it is provided that a radial distance 23 the driver elements 20 from the axis of rotation 14 is greater than a radial distance 24 an outer lateral surface 25 of the cutting tool 10 to the same axis of rotation 14 ,

As a radial distance 23 the driver elements 20 is essentially the minimum distance of a driver element 20 from the axis of rotation 14 designated. In particular, here is that area of the drive spindle 16 or the driver elements 20 considered, which from the lower end position 15 marking line, up to an upper end position 26 extending marking line.

This can be achieved that the valve body 8th together with the attached cutting tool 10 so far against the Anbohrrichtung 4 can be moved upward until the valve body 8th in the upper end position 26 located. In this upper end position 26 is the valve body 8th moved so far upwards that a deck area 27 of the valve body 8th a drive spindle lower edge 28 essentially touched. This condition represents the fully opened condition of the valve body 8th is and will be in 4 and 5 described in more detail later.

In order to obtain an expedient construction of the valve tapping fitting, it can further be provided that the radial distance 23 the driver elements 20 from the axis of rotation 14 is greater than a radial distance 29 of the sealing element 12 to the axis of rotation 14 , This will ensure that the sealing element 12 by the relative movement with respect to the driver element 20 not damaged. As a radial distance 29 of the sealing element 12 from the axis of rotation 14 becomes that point of the sealing element 12 denotes which furthest from the axis of rotation 14 is removed.

To optimize the construction of the valve tapping attachment 1 Furthermore, it is practicable if an outside diameter 31 of the cutting tool 10 smaller than a core diameter 32 of external thread 9 on the valve body 8th ,

In the 1 illustrated Ventilanbohrarmatur 1 is shown in an operating position in which the valve body 8th with the attached cutting tool 10 in a lower end position 15 and therefore defines the closed position of the valve.

Will the valve body 8th after mounting the valve tapping fitting 1 at the pipe to be drilled for the first time from the upper end position 26 in the lower end position 15 moved, so cuts a cutting edge 33 of the cutting tool 10 a plug from the pipe to be drilled. This graft will be inside the cutting tool 10 added. At the same time, when the valve body 8th in the lower end position 15 is the flow connection from the pipe into the branching section 5 or for house connection interrupted and sealed.

When adjusting the valve body 8th from the lower end position 15 in an upper end position 26 , which is done by turning the shaft 17 is accomplished, the hole made in the pipe to be drilled is released for the passage of a medium. Thus, there is a flow from the main section 3 to the branching section 5 , in particular to a domestic water connection, manufactured.

If necessary, this flow connection can be interrupted at any time by a torque on the shaft by means of a tool or a permanently attached handle, for example a setting wheel 17 the drive spindle 16 is applied. This torque or the resulting rotational movement is from the drive spindle 16 on the driver elements 20 transmitted, by which the torque or the rotational movement in the valve body 8th can be initiated. The in the valve body 8th initiated rotary motion is thereby by the valve body 8th attached external thread or the housing 2 attached internal thread 7 in a translational movement of the valve body 8th transformed. After between the driver elements 20 and the valve body 8th or its recesses 21 a slidable Relativverschiebbarkeit in the axial direction of the axis of rotation 14 is present, the valve body 8th be adjusted in the axial direction. The drive spindle 16 together with the driver elements 20 is rotatable in the housing 2 stored, with the drive spindle 16 and the driver elements 20 in the axial direction of the axis of rotation 14 fixed in position or secured against displacement in the housing 2 are included.

2 shows a section through a valve tapping 1 according to the lines II-II 1 , In this sectional view is clearly visible, as the external thread 9 of the valve body 8th in the inner thread 7 of the housing 2 or the insert element 6 intervenes.

Furthermore, here is clearly visible that a housing cover 30 by means of another threaded connection 34 or about a welded joint with the housing 2 can be connected. Here are more sealing elements 35 are used, which on the one hand the housing cover 30 to the housing 2 can seal and the transition between housing cover 30 and drive spindle 16 can seal.

The out of the case 2 led out shaft 17 the drive spindle 16 is preferably through the housing cover 30 guided. In further embodiments, it is also conceivable that instead of a housing cover 30 directly the case 2 a frontal closure to the housing interior 18 forms.

3 shows a perspective view of a drive spindle 16 including driver elements 20 and shaft 17 , In this view, the same arrangement of components with the same position as in 1 shown, however, are the housing 2 , the housing cover 30 and the insert element 6 hidden. This is the valve body 8th with the attached cutting tool 10 in a lower end position 15 ,

In 3 is further the outer contour of the valve body 8th good to see. It can be seen that at least one of the recesses 21 is formed open to the outside, wherein the geometry of these recesses 21 with the contour of the driver elements 20 corresponds such that a torque transmitting and longitudinally displaceable connection is established. At further or adjacent sections of the lateral surface of the substantially cylindrical valve body 8th is the external thread 9 designed, which for the positioning of the valve body 8th or responsible for the conversion of the rotational movement into a translatory movement. By way of example, two diametrically opposed recesses 21 or cuts in the lateral surface of the valve body 8th educated.

Depending on the embodiment, the ratio between the surface stress of the external thread 9 and the surface stress of the at least one recess 21 on the valve body 8th be chosen differently. If, for example, a high force and thus a high torque must be applied for tapping the pipe or closing the valve, it makes sense to use a rather small angular range 36 from the circumference of the valve body 8th for the external thread 9 is claimed. This allows the driver elements 20 solid or highly stable, whereby a high torque can be transmitted. However, it should be noted that the surface pressure on the thread flanks of the external thread 9 or of the corresponding internal thread 7 due to the axial force is not too big.

In a variant in which only little force or little torque on the valve body 8th must be applied, it makes sense from a production point of view, if the driver elements 20 with respect to the circumferential direction of the valve body 8th rather narrow and thus a large angular range 36 for the external thread 9 can be claimed. The angle range 36 can thus be in a range between 5 ° and 180 °, preferably between 45 ° and 135 °, in particular between 70 ° and 120 °.

4 shows the embodiment of the valve tapping 1 according to 1 in a different operating state. Also, the cut line guide was accordingly 1 according to the line II in 2 selected. In contrast to 1 is the valve body 8th together with the attached cutting tool 10 not in the lower end position 15 but in the upper end position 26 , in particular in the maximum open position.

The valve is thus completely open and thus released for the flow of a medium. As can be seen in this figure, it may be expedient if one of the shaft 17 distal lower edge 37 the driver elements 20 essentially at the same height as the cutting edge 33 of the cutting tool 10 located when the valve body 8th or the cutting tool 10 in the upper end position 26 located. By this measure can be achieved that the Ventilanbohrarmatur 1 the lowest possible height 38 claimed.

5 shows a perspective view of the drive spindle 16 or the valve body 8th and the cutting tool 10 according to 3 , As in 4 is the valve body 8th with the attached cutting tool 10 in an upper end position 26 , It can be clearly seen that the valve body 8th and the cutting tool 10 completely within the driver elements 20 are included. In particular, while the valve body 8th and the cutting tool 10 from the driver elements 20 at least partially bounded outside. That is, the valve body 8th and the cutting tool 10 at least largely within an envelope or within a virtual, by the driver elements 20 defined circular cylindrical envelope level lie.

In 6 is another, possibly independent embodiment of the drive spindle 16 and the valve body 8th shown, again with the same parts the same reference numerals or component names are used as in the previous figures. To avoid unnecessary repetition, reference is made to the detailed description in the preceding figures.

6 shows a variant of a drive spindle 16 or a valve body 8th in a similar embodiment as in 3 , In this embodiment, the driver elements 20 however in the form of pencils 39 educated.

On or in the valve body 8th are corresponding recesses 21 in the form of through holes 40 trained with the pins 39 correspond. In this embodiment, the pins are 39 designed as a circular cylindrical elements.

However, it is also possible that the pins 39 For example, have a rectangular or a polygonal cross-section. Accordingly, the cross sections of the through holes must be 40 at least approximately to the geometry or to the cross-sectional shape of the pins 39 be adjusted.

The embodiments show possible embodiments of Ventilanbohrarmatur 1 , It should be noted at this point that the invention is not limited to the specifically illustrated embodiments thereof, but rather also various combinations of the individual embodiments are possible with each other and this possibility of variation due to the teaching of technical action by objective invention in the ability of this on this technical Area professional.

Furthermore, individual features or combinations of features from the different exemplary embodiments shown and described can also represent independent, inventive or inventive solutions.

The task underlying the independent inventive solutions can be taken from the description.

All statements of value ranges in the present description should be understood to include any and all sub-ranges thereof, e.g. is the statement 1 to 10 to be understood that all sub-areas, starting from the lower limit 1 and the upper limit 10 are included, ie. all sub-areas begin with a lower limit of 1 or greater and end at an upper limit of 10 or less, e.g. 1 to 1.7, or 3.2 to 8.1, or 5.5 to 10.

Above all, the individual in the 1 - 5 and 6 shown embodiments form the subject of independent solutions according to the invention. The relevant objects and solutions according to the invention can be found in the detailed descriptions of these figures.

For the sake of order, it should finally be pointed out that for a better understanding of the structure of the valve tapping fitting 1 , these or their components were partially displayed to scale and / or enlarged and / or reduced.

LIST OF REFERENCE NUMBERS

1

 Ventilanbohrarmatur

2

 casing

3

 main section

4

 Anbohrrichtung

5

 branch portion

6

 insert element

7

 inner thread

8th

 valve body

9

 external thread

10

 cutting tool

11

 facing section

12

 sealing element

13

 radial direction

14

 axis of rotation

15

 lower limit position

16

 drive spindle

17

 shaft

18

 housing interior

19

 part Of

20

 dogging

21

 recess

22

 pipe segment

23

 radial distance

24

 radial distance

25

 outer jacket surface

26

 upper end position

27

 cover surface

28

 Drive spindle bottom edge

29

 radial distance

30

 housing cover

31

 outer diameter

32

 core diameter

33

 cutting edge

34

 further threaded connection

35

 another sealing element

36

 angle range

37

 lower edge

38

 height

39

 pen

40

 Through Hole

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 10320977 B4 [0002, 0004]

Claims (10)

Valve tapping fitting ( 1 ) for mounting on a pipe, with a housing ( 2 ), one in the boring direction ( 4 ) extending on the tube and attachable to the pipe main section ( 3 ) and a branching section ( 5 ) for a medium passing from the drilled pipe, a valve body ( 8th ) and a cutting tool ( 10 ), wherein the valve body ( 8th ) in the housing ( 2 ) via a drive spindle ( 16 ) and one on the valve body ( 8th ) and with the housing ( 2 ) engaged external thread ( 9 ) is arranged translationally displaceable, wherein the drive spindle ( 16 ) one out of the housing ( 2 ) led out shaft ( 17 ) and inside the case ( 18 ) subsection ( 19 ) and the drive spindle ( 16 ) about its axis of rotation ( 14 ) rotatable in the housing ( 2 ), characterized in that the inside of the housing ( 18 ) subsection ( 19 ) of the drive spindle ( 16 ) at least two radially to the axis of rotation ( 14 ) spaced driver elements ( 20 ), and in that in the valve body ( 8th ) with corresponding recesses ( 21 ) for receiving the driver elements ( 20 ) are provided so that the drive spindle ( 16 ) and the valve body ( 8th ) are coupled for the transmission of torques and axially displaceable relative to each other. Ventilanbohrarmatur according to claim 1, characterized in that a radial distance ( 23 ) of the driver elements ( 20 ) from the axis of rotation ( 14 ) is greater than a radial distance ( 24 ) an outer circumferential surface ( 25 ) of the cutting tool ( 10 ) to the rotation axis ( 14 ), so that the driver elements ( 20 ) outside the cutting tool ( 10 ) are passable. Valve tapping fitting according to claim 1 or 2, characterized in that one of the shaft ( 17 ) distal lower edge ( 37 ) of the driver elements ( 20 ) in an upper end position ( 26 ) of the cutting tool ( 10 ) substantially to a cutting edge ( 33 ) of the cutting tool ( 10 ). Valve tapping fitting according to one of the preceding claims, characterized in that an outer diameter ( 31 ) of the cutting tool ( 10 ) is smaller than a core diameter ( 32 ) of the external thread ( 9 ) on the valve body ( 8th ). Ventilanbohrarmatur according to any one of the preceding claims, characterized in that the recesses ( 21 ) in the valve body ( 8th ), which in the valve body ( 8th ) axially extend in the radial direction ( 13 ) are open to the outside, or as a through hole ( 40 ) are formed. Valve tapping fitting according to one of the preceding claims, characterized in that the entrainment elements ( 20 ) as pipe segments ( 22 ) are formed, and / or that the driver elements ( 20 ) as pens ( 39 ) are formed. Valve tapping fitting according to one of the preceding claims, characterized in that the cutting tool ( 10 ) as needed releasably with the valve body ( 8th ) connected is. Valve tapping fitting according to one of the preceding claims, characterized in that the valve body ( 8th ) mounted external thread ( 9 ) by the in the valve body ( 8th ) recesses ( 21 ) for the driver elements ( 20 ) is interrupted in sections. Valve tapping fitting according to one of the preceding claims, characterized in that in a the cutting tool ( 10 ) facing section ( 11 ) of the valve body ( 8th ) a sealing element ( 12 ) on the valve body ( 8th ), and that preferably the sealing element ( 12 ) in a radial direction ( 13 ) acting on the valve body ( 8th ), wherein a radial distance ( 23 ) of the driver elements ( 20 ) from the axis of rotation ( 14 ) is greater than a radial distance ( 29 ) of the sealing element ( 12 ) from the axis of rotation ( 14 ). Valve tapping fitting ( 12 ) according to one of the preceding claims, characterized in that the entrainment elements ( 20 ) by a material connection with the drive spindle ( 16 ) are connected.

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