Pipe connection for instruments or machines

A pipe connection for instruments or machines, with a flange on the machine side, which has a means of attachment for connecting a flange on the pipe side. The pipe connection is easy to install and can withstand a great amount of stress, and has the following characteristics as primary elements: (a) a free pipe socket is provided on the machine side; (b) the flange on the pipe side, a clamp element, and a chamber part are loosely pushed onto the butted pipe end, and these can be pressed together by the means of attachment; (c) a seal surrounds the joint between the socket and the pipe end, and both axial ends of this seal project into a seal chamber; (d) the flange on the pipe side and the chamber part between them form a clamp chamber into which the clamp element is inserted; and (e) the clamp edge radially interior to the clamp element rests on the pipe end, is overlapped, with respect to a clamp edge which is radially on the exterior, by a clamp surface of the clamp chamber, and projects out of the clamp chamber in an axial direction in such a way that an axial pressure applied to the clamp element results in an increase in the exterior diameter and a decrease in the interior diameter of the clamp element.

DISCLOSURE OF THE INVENTION 
The invention concerns a pipe connection for instruments or machines, with 
a flange on the machine side, which has means of attachment allowing 
connection of a flange on the pipe side. 
Instrument housings are generally cast with integrated standard flanges, 
and these flanges can comprise up to 50% of the total weight of an 
instrument. Instruments which are cast with only a smooth socket require 
complicated pipe connections. 
The object of the invention is to device a pipe connection for instruments 
or machines which is easy to install and can withstand a great amount of 
stress. 
This object is achieved by a pipe connection for connecting an instrument 
or machine to a pipe end, the connection comprising (a) a free socket 
having an outer perimeter and connected to a machine, the free socket 
forming a butt joint with a pipe end, (b) a first chamber member 
surrounding the pipe end and including a first seal chamber, (c) a first 
flange fitted on the pipe end adjacent the first chamber member at a side 
opposite the butt joint, (d) a second flange surrounding the free socket, 
(e) a seal received in the first seal chamber, (f) a first clamp chamber 
formed between the first chamber member and the first flange and having a 
first clamp surface (g), a first clamp element positioned in the first 
clamp chamber and having inner and outer clamp edges defining respectively 
inner and outer diameters, the inner clamp edge being engageable with the 
pipe end, and (h) means for applying an axial pressure to the clamp 
element, thereby increasing the outer diameter and decreasing the inner 
diameter to form a clamping seal on the pipe end.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS 
The invention described hereinbelow has the following features: 
(a) a free socket is provided on the machine side; 
(b) the flange on the pipe side, a clamp element, and a chamber part are 
loosely pushed onto the butted pipe end, and these can be pressed together 
by said means of attachment; 
(c) a seal surrounds the joint between the socket and the pipe end, and 
both axial ends of this seal project into a seal chamber; 
(d) the flange on the pipe side and the chamber part between them form a 
clamp chamber into which the clamp element is inserted; 
(e) the clamp edge radially interior to the clamp element rests on the pipe 
end, is overlapped, with respect to a clamp edge which is radially on the 
exterior, by a clamp surface of the clamp chamber, and projects out of the 
clamp chamber in an axial direction in such a way that axial pressure 
applied to the clamp element results in an increase in the exterior 
diameter and a decrease in the interior diameter of the clamp element. 
The aforementioned flange on the machine side can also be a section of the 
housing or the like. 
The new pipe connection can be installed onto smooth pipe ends which have 
simply been deburred, the only installation tools required being suitable 
wrenches for the threaded connections. This makes welding, soldering, or 
screwing the flanges on unnecessary. The new pipe connection can not only 
be easily installed, it can also be just as easily removed, and can be 
reused many times, with all its individual parts, with the exception of 
the seal. Since the individual parts only have to be set into place and 
pressed together by means of threaded connections, all of the protective 
measures required in explosion-proof environments can be eliminated. The 
pipe connection is built relatively small and leads to weight savings of 
over 40% compared to conventional flange connections. 
For a special embodiment, it is advantageous that the chamber part on the 
pipe side be supported on the flange on the machine side, which is fixed 
in place and which has a seal chamber for the matching axial end of the 
seal, with this seal chamber forming the socket at the same time. The one 
seal chamber is thus integrated into the flange present on the machine 
side or section of housing, with the seal chambers preferably having a 
conical shape. 
It is advantageous that the annular contact surface between the chamber 
part and the flange on the machine side have a crowned shape. In this way, 
the pipe end to be connected can be positioned at an angle to the socket 
on the machine side. It is also possible, however, to do without a flange 
that is an integral part of, and fixed in place on, the instrument or 
machine. In this case, according to the invention, a chamber part and a 
clamp element are also loosely pushed onto the socket on the machine side. 
The sealing force applied to the seal is produced by the threaded 
connection which presses the two flanges against each other when force is 
applied to the two chamber parts in an axial direction directly by the two 
flanges, or by the clamp elements. But provision can also be made for the 
two chamber parts to be pressed together by their own threaded connection. 
Separation of the two functions "sealing" and "interlocking" is essential. 
The seal can be a molded elastomer seal into which a hard or soft inner 
ring is embedded, which ring rests directly against the joint. Because of 
the conical shape of the seal chambers, pressure is applied to the seal in 
an axial and a radial direction when the two chamber parts are pressed 
against one another. 
If the two chamber parts support one another, it is practical that the 
positively interlock radially in the contact area. However, the two 
chamber parts can also support one another via an intermediate ring, a 
concave face on each side of which rests against the crowned, convex 
contact surface of the chamber parts. This facilitates angular offsetting 
between the socket on the machine side and the pipe end to be connected. 
In addition, the intermediate ring can consist of electrically 
non-conductive material, so that a non-conductive pipe connection can be 
produced when using insulated bolts. 
It is furthermore advantageous that the clamp element consist of at least 
one slightly conically shaped disk, and that the wall of the clamp chamber 
running approximately parallel to the joint be adapted to the conicity of 
said disk. This makes it possible to transfer greater tensile forces to 
the pipe nozzles that are to be connected with one another, while 
maintaining the same dimensions, or to make the flange thinner, while 
maintaining the same force. This is particularly significant for aluminum 
connections or pipe connections in the plastics sector. The conical 
embodiment of the clamp elements, i.e., their angular position, even has 
an advantageous effect if the sections of pipe to be connected with one 
another are not exactly aligned. The angle formed between the two pipe 
axes can be so large that the one side of the clamp elements describe an 
angle of precisely 90.degree. with the matching pipe axis when in working 
position, with the other half of the clamp element then describing an 
angle of less than 90.degree. with the pipe axis. 
For better centering, it is practical that the face of the chamber part fit 
into a corresponding recess on the flange. This recess is provided with a 
chamfer for easier installation, and has a size of only a few millimeters. 
With this solution, it is then advantageous that the wall of the recess, 
which runs approximately parallel to the joint, be adapted to the conicity 
of said disk. 
The annular section of the disk-shaped clamp element can have an arc-shaped 
profile in its cross-section, which profile is inclined at an acute angle 
to the plane of the clamp element. 
The flange on the pipe side can also be embodied in the form of a cuff 
having a female thread screwed onto a male thread on the flange on the 
machine side. In this case, the means of attachment between the two 
flanges therefore consists of a threaded connection 20, 21. 
The means of attachment for connection of the flange on the pipe side to 
the flange on the machine side can, however, also consist of a split 
shell, which extends behind the two flanges to clamp them together. The 
split shell can then have axial collar stops. Furthermore, the flange on 
the pipe side can then have a conical lug on the side which faces away 
from the chamber part, against which lug a corresponding conically shaped 
collar of the shell rests. 
In an alternative embodiment, the means of attachment for connection of the 
flange on the pipe side to the flange on the machine side can consist of a 
pipe section with a female thread that is screwed onto male threads 
provided on each of the two flanges. For this, a female simplex thread or 
a duplex thread can be used, in which latter case one of the two male 
threads on the flanges is right-handed and the other left-handed. 
In order to produce a pipe connection according to FIG. 1, a flange 3, a 
clamp element 4 as well as a chamber part 5 are pushed onto a pipe end 2 
which is to be butt-jointed with a free pipe socket 1. The chamber part 5 
has an open, annular clamp chamber 7 facing the flange 3, and into which 
the clamp element 4 is inserted, which clamp element consists of a conical 
or convex disk having a radially interior clamp edge 4a which rests 
against the pipe end 2. An annular clamp surface 7a of the clamp chamber 7 
extends around a radially exterior clamp edge 4b (see FIG. 3). In the 
unstressed state, the clamp element 4 projects beyond the frontal surface 
of chamber part 5. The form of the clamp elements 4 is selected in such a 
way that a force which presses the clamp elements against the rear of the 
clamp chamber 7 in an axial direction results in an increase in the 
outside diameter and at the same time in a decrease in the inside diameter 
of the clamp element. 
Chamber part 5 is provided with a seal chamber 9, which is open in the 
direction of the joint 8 in each case (see FIGS. 3 and 5), with a conical 
shape, in other words which decreases in size in the direction of the 
adjacent flange 3. 
The joint 8 is surrounded by a seal 6, which is embodied as a molded 
elastomer seal, into which an inner ring 10 is embedded. The outside 
contours of the seal 6 approximately match those of the two seal chambers 
9,9', but are larger, so that when the two chamber parts 5,5' are pressed 
together, the pressure applied to the seal is directed inward in an axial 
and a radial direction. 
Tightening is carried out, for example, by means of four screw bolts 11 
which are disposed uniformly around the circumference of the flange, and 
which are inserted through the flange 3 (FIG. 2), or screwed into the 
flange 3' on the machine side (FIG. 1) as standing screw bolts. 
In the embodiment according to FIG. 1, chamber part 5 on the pipe side is 
supported on the flange 3' on the machine side, which can also be formed 
by a section of the housing, is fixed in place and has a seal chamber 9' 
for the matching axial end of the seal 6. The seal chamber 9' at the same 
time forms the pipe socket 1. The annular contact surface 13 between the 
chamber part 5 and the flange 3' on the machine side has a crowned shape. 
In the embodiment according to FIG. 2, a flange 3', a clamp element 4', and 
a chamber part 5' are also loosely pushed onto the pipe socket 1 on the 
machine side. The two chamber parts 5,5' support one another by means of 
an intermediate ring 17, which rests against a corresponding corwned, 
convex contact surface of the chamber parts 5,5' with a concave face 17a 
on each side. 
In the embodiments shown in FIGS. 3 through 5, the two chamber parts 5,5' 
support one another and positively interlock radially with this radial 
interlocking consisting of a tongue-and-groove in the embodiment according 
to FIG. 3 and of lugs 15 which lock into recesses 16 in the embodiment 
according to FIGS. 4 and 5. 
According to FIG. 3, the clamp element consists of at least one slightly 
conical or convex disk. The wall 7b or 7b' of the clamp chamber 7 or 7' 
describes an angle of less than 90.degree. with the pipe axis 18, adapting 
to the conicity of said disk. 
In the embodiment according to FIG. 6, a recess 19 is provided in the 
flange 3 or 3', with which the face of the matching chamber part 5 or 5' 
interlocks. The recess has a chamfer to simplify insertion and centering 
of the chamber part. The wall 19a of the said recess 19, which runs 
approximately parallel to the joint 8, is also adapted to the conicity of 
the clamp element 4 or 4', and therefore describes an angle of less than 
90.degree. with the pipe axis 18. 
FIGS. 7 through 9 show alternative embodiments for the means of attachment 
for connecting the flange on the pipe side to the flange on the machine 
side. 
In the embodiment according to FIG. 7, the flange 3 on the pipe side is 
embodied in the form of a cuff, a female thread 20 on which is screwed 
onto a male thread 21 of the flange 3' on the machine side. 
In the alternative embodiment according to FIG. 8, said means of attachment 
consist of a split shell 22, which extends behind the two flanges 3,3' to 
clamp them together. Here, the flange 3 on the pipe side has a conical lug 
3a on the side which faces away from chamber part 5, against which a 
corresponding conically shaped collar 22a of the shell 22 rests. The split 
shell 22 is provided with axial collar projections. 
The solution shown in FIG. 9 uses a pipe section 23, a female thread 24 on 
which is screwed onto the two flanges 3,3', each of which is provided with 
a male thread 21 and 25.