Title of Invention	DISTRIBUTOR MAST OF A CONCRETE PUMP HAVING AN PRESSURE FEED LINE AND AN END HOSE FOR THE DISCHARGE OF LIQUID CONCRETE
Abstract	End hose for discharge of thick substances The invention relates to an end hose for discharge of thick substances, particularly of liquid concrete. The end hose (12) can be connected with its entry-side end to a pressure feed line (14) of a mobile thick-matter pump, and has a discharge opening (16) for the thick substances at its exit-side end, and consists of a flexible material. In order to prevent the end hose (12) from kicking out when blockages are loosened, it has at least two hose parts (26, 28) having different bending rigidity, connected with one another at a transition point (30).

Title of Invention

DISTRIBUTOR MAST OF A CONCRETE PUMP HAVING AN PRESSURE FEED LINE AND AN END HOSE FOR THE DISCHARGE OF LIQUID CONCRETE

Abstract

End hose for discharge of thick substances The invention relates to an end hose for discharge of thick substances, particularly of liquid concrete. The end hose (12) can be connected with its entry-side end to a pressure feed line (14) of a mobile thick-matter pump, and has a discharge opening (16) for the thick substances at its exit-side end, and consists of a flexible material. In order to prevent the end hose (12) from kicking out when blockages are loosened, it has at least two hose parts (26, 28) having different bending rigidity, connected with one another at a transition point (30).

Full Text	- 1 - End hose for discharge of thick substances Specification The invention relates to an end hose for discharge of thick substances, particularly of liquid concrete, which can be connected with its entry-side end to a pressure feed line and has a discharge opening for the thick substances at its exit-side end, and which consists of flexible material. End hoses of this type are, for example, components of a feed device for liquid concrete. There, they form the end of a pressure feed device, whose pressure feed lines can be disposed on the concrete distributor mast of a stationary or mobile concrete pump. The end hose is connected, at its entry-side end, with the pressure feed line to which liquid concrete is applied by way of a pump, and hangs vertically down from the mast tip in the operating state. In order for an operator (end hose operator) to be able to guide it, with its discharge opening, to an application site, by hand, within a certain circumference, it has not only its articulated suspension on the mast tip but also a certain flexibility. Therefore it consists predominantly of a flexible material, for example of rubber or of an elastomer plastic. In the feed of thick substances of this type, blockage - 2 - formations in the feed lines or in the end hose can always occur, again and again. Such blockages are generally loosened by means of building up a corresponding excess pressure in the pressure feed line. Greater forces occur at the end hose when blockages are loosened, and because of the flexibility of the end hose, these forces can cause the end hose to kick out. Kicking out of the end hose can also occur when the thick substance column is first pumped up, or if air inclusions are released. In this connection, situations that are hazardous for the operator can occur, when the operator can no longer keep hold of the end hose. Proceeding from this, the invention is based on the task of improving the end hose of the type indicated initially in such a manner that the risk of the end hose kicking out when blockages are loosened is reduced. To accomplish this task, the combination of characteristics indicated in claim 1 is proposed. Advantageous embodiments and further developments of the invention are evident from the dependent claims. The solution according to the invention proceeds from the idea that at least two hose parts having different bending rigidity, connected with one another at a transition point, are provided. A - 3 - preferred embodiment of the invention provides that the bending rigidity of the exit-side hose part is greater than that of the entry-side hose part. It is advantageous if the lower bending rigidity is achieved by means of a lesser hardness. The region of lesser hardness makes it possible to position and distribute the exiting thick-matter material, while the region of greater rigidity and hardness prevents the end hose from kicking out during the pressure discharge. According to an advantageous embodiment of the invention, the hose parts having different bending rigidity accordingly have an elastomer material having different material hardness. The hose parts having different bending rigidity can have a different wall thickness while having the same hose material. In particular, in this connection, the wall thickness of the hose parts is configured to be increasing or decreasing in the transition region, whereby it is practical if the inside diameter in the hose parts having different bending rigidity is constant. It is advantageous if at least one of the hose parts has a woven fabric insert. The woven fabric inserts in the hose parts having great rigidity can be more tightly braided or woven, in this connection, than in the hose part having low rigidity. The same - 4 - can be done by means of a change in the distance of the insert from the bending line. Another advantageous embodiment variant consists of the fact that at least one of the hose parts has a material having greater strength, e.g. a steel wire insert. Here again, the insert amount or density can be selected to be different in the different hose parts. In a special case, the steel wire insert in the hose part having greater rigidity can be wound more tightly than in the hose part having lower rigidity. Another advantageous embodiment of the invention provides that the hose part having greater rigidity has a steel wire insert and the hose part having lesser rigidity has a woven fabric insert. When using a hose material made of a wound plastic non-woven fabric, e.g. carbon fiber reinforced plastic, woven fiber reinforced plastic, or compound non-woven fabric, the different bending thickness can also be achieved by means of different winding density. It is advantageous if the hose parts having different bending rigidity are connected with one another in one piece at the transition point. Fundamentally, however, it is also possible - 5 - that the hose parts having different bending rigidity are releasably coupled with one another at the transition point. The end hoses according to the invention are preferably used in connection with pressure feed lines for thick substances, particularly for liquid concrete, whereby the end hose is disposed at the end of the pressure feed line. In this connection, it is practical if the pressure feed line is disposed on a distributor mast of a stationary or mobile thick-matter pump, which mast has several mast arms connected with one another at bending joints. The pressure feed line in turn is composed of several segments that carry the end hose at their one end. The feed line segments can consist of a metal, preferably of steel, or of a composite material, preferably of fiber-reinforced plastic with a friction-wear-resistant inner coating. In the following, the invention will be explained in greater detail using exemplary embodiments shown schematically in the drawing. This shows: Fig. 1 the mast tip of a distributor mast of a mobile concrete pump having an end hose; - 6 - Fig. 2a to 2f different variants of an end hose having different bending rigidity over the length, in a representation in partial section, and reduced in length. Fig. 1 shows the mast tip 10 of a distributor mast, not shown for the remainder, configured as a bending mast, of a mobile concrete pump, which carries an end hose 12 that hangs vertically down in an operating state, which hose is connected with a pressure feed line 14 to which concrete is applied by way of a pump, guided along the concrete distributor mast at its upper end, and through the outlet opening 16 of which hose, which faces down, the transported liquid concrete exits into an application site on the construction site. The end hose 12 carries a metallic connector piece 20 on its entry-side end 18, with which piece it is connected with the exit-side end 22 of the pressure feed line 14, so as to rotate. So that the operator 24 (end hose operator) can pivot the end hose 12 when the mast tip 10 is standing in place, in a certain circumference above the application site, the end hose 12 consists of a flexible material, for example of rubber or of an elastomer plastic. On the other hand, the flexibility of the end hose 12 is not allowed to be so great, particularly in the exit-side lower region, that kicking out of the end hose can - 7 - occur when loosening blockages, since this could represent a hazard for the operator 24. In order to achieve this, the end hose 12 consists, in the case of the exemplary embodiment shown in Fig. 1, of two hose parts 26, 28, of which the upper hose part 26 has a lesser bending rigidity, and the lower hose part 28 has a greater bending rigidity. The two hose parts 26, 28 are connected with one another, in one piece, in a transition region 30. The exemplary embodiments shown schematically in Fig. 2a to 2f show different variants for the internal structure of an end hose having hose parts having different rigidity. In the case of the embodiment variant shown in Fig. 2a, the end hose consists of a rubber material that is uniform over the entire length, which contains a woven fabric insert 32 in the region of the upper hose part 26 and a steel wire insert 34 in the region of the lower hose part 28. In the transition region 30, the woven fabric insert 32 and the steel wire insert 34 are linked with one another. The structure material 36, which consists of rubber, has the same Shore hardness over the entire length of the end hose 12. The different bending rigidity of the - 8 - two hose parts 26 and 28 results exclusively from the different flexibility of the inserts 32, 34. In the case of the exemplary embodiment according to Fig. 2b, a woven fabric insert that is continuous from the top to the bottom is provided. The structure material 36, which consists of rubber, consists of rubber having the same Shore hardness throughout. The different bending rigidity is achieved in that the woven fabric insert 3 8 has a greater mesh width in the region of the upper hose part 26 than in the region of the lower hose part 28. The woven fabric insert 38 is also not interrupted in the transition region 30. Instead, all that happens there is that the mesh width is changed, constantly or in steps, from top to bottom. With these measures, as well, a greater bending rigidity is obtained in the lower hose part 28 than in the upper hose part 26. In the case of the exemplary embodiment according to Fig. 2c, there is a woven fabric insert 4 0 having a constant mesh width in the upper and lower hose part 26, 28. Here, the end hose 12 is composed of two partial hoses that contain a softer rubber mixture, forming the upper hose part 26, and a harder rubber mixture in the lower hose part 28. The transition region 30 is formed by a vulcanization region in which the two hose parts 26, 2 8 have been vulcanized onto one another. - 9 - In the case of the exemplary embodiment according to Fig. 2d, a hose having a continuous woven fabric insert 42 and a uniform structure material 36 is provided. In the lower part, an additional elastomer cover hose 44 is vulcanized on, to form the lower hose part 2 8 that has greater bending rigidity. In the case of the exemplary embodiment according to Fig. 2e, a continuous rubber hose with a woven fabric insert 46 is provided, the inside diameter of which is constant and which has a smaller wall thickness in the region of the upper hose part 22 than in the region of the lower hose part 28. The wall thickness of the hose constantly increases in the transition region 30, from top to bottom. The exemplary embodiment shown in Fig. 2f essentially corresponds to the exemplary embodiment according to Fig. 2d. Here again, a rubber hose with a continuous woven fabric insert 42 is provided, onto which a cover hose 44 is vulcanized. Here, a metal spiral 48 is let into the cover hose 44, which makes it possible to reduce the wall thickness of the cover hose 4 0 while keeping the bending rigidity the same, as compared with the exemplary embodiment according to Fig. 2d. - 10 - In summary, the following should be stated: The invention relates to an end hose for discharge of thick substances, particularly of liquid concrete. The end hose 12 can be connected with its entry-side end to a pressure feed line 14 of a mobile thick-matter pump, and has a discharge opening 16 for the thick substances at its exit-side end, and consists of a flexible material. In order to prevent the end hose 12 from kicking out when blockages are loosened, it has at least two hose parts 26, 28 having different bending rigidity, connected with one another at a transition point 30. 11 Claims 1. Distributor mast of a concrete pump, having several mast arms connected with one another at bending joints, and having a pressure feed line composed of several segments, guided by way of the mast arms, to which liquid concrete is applied by way of a pump, at the end of which line, in the region of the mast tip, an end hose that hangs down vertically, consisting of flexible material, having an entry-side hose part, is connected, which has a discharge opening for the liquid concrete at its exit-side hose part, whereby the entry-side hose part and the exit-side hose part are connected with one another at a transition point (30), whereby the bending rigidity of the exit-side hose part, starting from the transition point (30), is greater than that of the entry-side hose part, and whereby the hose parts (26, 28) having different bending rigidity have an elastomer hose material (36) having different material hardness. 2. Distributor mast of a concrete pump, particularly according to claim 1, having several mast arms connected with one another at bending joints, and having a pressure feed line composed of several segments, guided by way of the mast arms, to which liquid concrete is applied by way of a pump, at the end of which line, in the region of the mast tip, an 12 end hose that hangs down vertically, consisting of flexible material, having an entry-side hose part, is connected, which has a discharge opening for the liquid concrete at its exit-side hose part, whereby the entry-side hose part and the exit-side hose part are connected with one another at a transition point (30), whereby the bending rigidity of the exit-side hose part, starting from the transition point (30), is greater than that of the entry-side hose part, and whereby the hose parts (26, 28) having different bending rigidity have an elastomer hose material (36) having different wall thickness. 3. Distributor mast of a concrete pump, particularly according to claim 1 or 2, having several mast arms connected with one another at bending joints, and having a pressure feed line composed of several segments, guided by way of the mast arms, to which liquid concrete is applied by way of a pump, at the end of which line, in the region of the mast tip, an end hose that hangs down vertically, consisting of flexible material, having an entry-side hose part, is connected, which has a discharge opening for the liquid concrete at its exit-side hose part, whereby the entry-side hose part and the exit-side hose part are connected with one another at a transition point (30) , whereby the bending rigidity of the exit-side hose part, starting from the transition point 13 (30), is greater than that of the entry-side hose part, and whereby the hose parts (26, 28) having different bending rigidity have an elastomer hose material (36) having different inserts. 4. Distributor mast according to claim 3, characterized in that at least one of the hose parts (26, 28) contains a woven fabric insert (32; 38; 40; 42; 46). 5. Distributor mast according to one of claims 1 to 4, characterized in that at least one of the hose parts (26, 28) contains a steel wire insert (34; 48). 6. Distributor mast according to one of claims 3 to 5, characterized in that the insert amount or density of the different hose parts (26, 28) is different. 7. Distributor mast according to one of claims 1 to 6, characterized in that the inside diameter of the hose parts (26, 28) having different bending rigidity is constant. 8. Distributor mast according to one of claims 1 to 7, characterized in that the hose parts (26, 28) are connected with one another in one piece at the transition point (3 0) . -14- 9. Distributor mast according to one of claims 1 to 8, characterized in that the wall thickness of the hose parts (26, 28) increases or decreases in the transition region. 10. Distributor mast according to one of claims 5 to 9, characterized in that the steel wire inserts in the hose parts having greater rigidity are wound more tightly than in the hose parts having lower rigidity. 11. Distributor mast according to one of claims 4 to 9, characterized in that the woven fabric inserts in the hose parts having greater rigidity are braided or woven more tightly than in the hose parts having lower rigidity. 12. Distributor mast according to one of claims 1 to 11, characterized in that the hose parts having greater rigidity carry a reinforcement cover (44). 13. Distributor mast according to claim 12, characterized in that the reinforcement cover consists of elastomer plastic, preferably with a reinforcement insert (48). 14. Distributor mast according to one of claims 1 to 13, characterized in that the hose parts of the transition point (30) are releasably coupled with one another. 15 15. Distributor mast according to one of claims 1 to 14, characterized in that the hose part having greater rigidity contains a steel insert, and the hose part having lesser rigidity contains a woven fabric insert. 16. Distributor mast according to one of claims 1 to 15, characterized in that the pressure feed line consists of several line segments of a metal or a composite material, preferably of fiber-reinforced plastic with a friction-wear- resistant inner coating. - 16 - End hose for discharge of thick substances The invention relates to an end hose for discharge of thick substances, particularly of liquid concrete. The end hose (12) can be connected with its entry-side end to a pressure feed line (14) of a mobile thick-matter pump, and has a discharge opening (16) for the thick substances at its exit-side end, and consists of a flexible material. In order to prevent the end hose (12) from kicking out when blockages are loosened, it has at least two hose parts (26, 28) having different bending rigidity, connected with one another at a transition point (30).

Full Text

- 1 -
End hose for discharge of thick substances
Specification
The invention relates to an end hose for discharge of thick
substances, particularly of liquid concrete, which can be
connected with its entry-side end to a pressure feed line and has
a discharge opening for the thick substances at its exit-side
end, and which consists of flexible material.
End hoses of this type are, for example, components of a feed
device for liquid concrete. There, they form the end of a
pressure feed device, whose pressure feed lines can be disposed
on the concrete distributor mast of a stationary or mobile
concrete pump. The end hose is connected, at its entry-side end,
with the pressure feed line to which liquid concrete is applied
by way of a pump, and hangs vertically down from the mast tip in
the operating state. In order for an operator (end hose operator)
to be able to guide it, with its discharge opening, to an
application site, by hand, within a certain circumference, it has
not only its articulated suspension on the mast tip but also a
certain flexibility. Therefore it consists predominantly of a
flexible material, for example of rubber or of an elastomer
plastic. In the feed of thick substances of this type, blockage

- 2 -
formations in the feed lines or in the end hose can always occur,
again and again. Such blockages are generally loosened by means
of building up a corresponding excess pressure in the pressure
feed line. Greater forces occur at the end hose when blockages
are loosened, and because of the flexibility of the end hose,
these forces can cause the end hose to kick out. Kicking out of
the end hose can also occur when the thick substance column is
first pumped up, or if air inclusions are released. In this
connection, situations that are hazardous for the operator can
occur, when the operator can no longer keep hold of the end hose.
Proceeding from this, the invention is based on the task of
improving the end hose of the type indicated initially in such a
manner that the risk of the end hose kicking out when blockages
are loosened is reduced.
To accomplish this task, the combination of characteristics
indicated in claim 1 is proposed. Advantageous embodiments and
further developments of the invention are evident from the
dependent claims.
The solution according to the invention proceeds from the idea
that at least two hose parts having different bending rigidity,
connected with one another at a transition point, are provided. A

- 3 -
preferred embodiment of the invention provides that the bending
rigidity of the exit-side hose part is greater than that of the
entry-side hose part. It is advantageous if the lower bending
rigidity is achieved by means of a lesser hardness. The region of
lesser hardness makes it possible to position and distribute the
exiting thick-matter material, while the region of greater
rigidity and hardness prevents the end hose from kicking out
during the pressure discharge.
According to an advantageous embodiment of the invention, the
hose parts having different bending rigidity accordingly have an
elastomer material having different material hardness. The hose
parts having different bending rigidity can have a different wall
thickness while having the same hose material. In particular, in
this connection, the wall thickness of the hose parts is
configured to be increasing or decreasing in the transition
region, whereby it is practical if the inside diameter in the
hose parts having different bending rigidity is constant.
It is advantageous if at least one of the hose parts has a woven
fabric insert. The woven fabric inserts in the hose parts having
great rigidity can be more tightly braided or woven, in this
connection, than in the hose part having low rigidity. The same

- 4 -
can be done by means of a change in the distance of the insert
from the bending line.
Another advantageous embodiment variant consists of the fact that
at least one of the hose parts has a material having greater
strength, e.g. a steel wire insert. Here again, the insert amount
or density can be selected to be different in the different hose
parts. In a special case, the steel wire insert in the hose part
having greater rigidity can be wound more tightly than in the
hose part having lower rigidity.
Another advantageous embodiment of the invention provides that
the hose part having greater rigidity has a steel wire insert and
the hose part having lesser rigidity has a woven fabric insert.
When using a hose material made of a wound plastic non-woven
fabric, e.g. carbon fiber reinforced plastic, woven fiber
reinforced plastic, or compound non-woven fabric, the different
bending thickness can also be achieved by means of different
winding density.
It is advantageous if the hose parts having different bending
rigidity are connected with one another in one piece at the
transition point. Fundamentally, however, it is also possible

- 5 -
that the hose parts having different bending rigidity are
releasably coupled with one another at the transition point.
The end hoses according to the invention are preferably used in
connection with pressure feed lines for thick substances,
particularly for liquid concrete, whereby the end hose is
disposed at the end of the pressure feed line. In this
connection, it is practical if the pressure feed line is disposed
on a distributor mast of a stationary or mobile thick-matter
pump, which mast has several mast arms connected with one another
at bending joints. The pressure feed line in turn is composed of
several segments that carry the end hose at their one end. The
feed line segments can consist of a metal, preferably of steel,
or of a composite material, preferably of fiber-reinforced
plastic with a friction-wear-resistant inner coating.
In the following, the invention will be explained in greater
detail using exemplary embodiments shown schematically in the
drawing. This shows:
Fig. 1 the mast tip of a distributor mast of a mobile
concrete pump having an end hose;

- 6 -
Fig. 2a to 2f different variants of an end hose having different
bending rigidity over the length, in a
representation in partial section, and reduced in
length.
Fig. 1 shows the mast tip 10 of a distributor mast, not shown for
the remainder, configured as a bending mast, of a mobile concrete
pump, which carries an end hose 12 that hangs vertically down in
an operating state, which hose is connected with a pressure feed
line 14 to which concrete is applied by way of a pump, guided
along the concrete distributor mast at its upper end, and through
the outlet opening 16 of which hose, which faces down, the
transported liquid concrete exits into an application site on the
construction site. The end hose 12 carries a metallic connector
piece 20 on its entry-side end 18, with which piece it is
connected with the exit-side end 22 of the pressure feed line 14,
so as to rotate. So that the operator 24 (end hose operator) can
pivot the end hose 12 when the mast tip 10 is standing in place,
in a certain circumference above the application site, the end
hose 12 consists of a flexible material, for example of rubber or
of an elastomer plastic. On the other hand, the flexibility of
the end hose 12 is not allowed to be so great, particularly in
the exit-side lower region, that kicking out of the end hose can

- 7 -
occur when loosening blockages, since this could represent a
hazard for the operator 24.
In order to achieve this, the end hose 12 consists, in the case
of the exemplary embodiment shown in Fig. 1, of two hose parts
26, 28, of which the upper hose part 26 has a lesser bending
rigidity, and the lower hose part 28 has a greater bending
rigidity. The two hose parts 26, 28 are connected with one
another, in one piece, in a transition region 30.
The exemplary embodiments shown schematically in Fig. 2a to 2f
show different variants for the internal structure of an end hose
having hose parts having different rigidity.
In the case of the embodiment variant shown in Fig. 2a, the end
hose consists of a rubber material that is uniform over the
entire length, which contains a woven fabric insert 32 in the
region of the upper hose part 26 and a steel wire insert 34 in
the region of the lower hose part 28. In the transition region
30, the woven fabric insert 32 and the steel wire insert 34 are
linked with one another. The structure material 36, which
consists of rubber, has the same Shore hardness over the entire
length of the end hose 12. The different bending rigidity of the

- 8 -
two hose parts 26 and 28 results exclusively from the different
flexibility of the inserts 32, 34.
In the case of the exemplary embodiment according to Fig. 2b, a
woven fabric insert that is continuous from the top to the bottom
is provided. The structure material 36, which consists of rubber,
consists of rubber having the same Shore hardness throughout. The
different bending rigidity is achieved in that the woven fabric
insert 3 8 has a greater mesh width in the region of the upper
hose part 26 than in the region of the lower hose part 28. The
woven fabric insert 38 is also not interrupted in the transition
region 30. Instead, all that happens there is that the mesh width
is changed, constantly or in steps, from top to bottom. With
these measures, as well, a greater bending rigidity is obtained
in the lower hose part 28 than in the upper hose part 26.
In the case of the exemplary embodiment according to Fig. 2c,
there is a woven fabric insert 4 0 having a constant mesh width in
the upper and lower hose part 26, 28. Here, the end hose 12 is
composed of two partial hoses that contain a softer rubber
mixture, forming the upper hose part 26, and a harder rubber
mixture in the lower hose part 28. The transition region 30 is
formed by a vulcanization region in which the two hose parts 26,
2 8 have been vulcanized onto one another.

- 9 -
In the case of the exemplary embodiment according to Fig. 2d, a
hose having a continuous woven fabric insert 42 and a uniform
structure material 36 is provided. In the lower part, an
additional elastomer cover hose 44 is vulcanized on, to form the
lower hose part 2 8 that has greater bending rigidity.
In the case of the exemplary embodiment according to Fig. 2e, a
continuous rubber hose with a woven fabric insert 46 is provided,
the inside diameter of which is constant and which has a smaller
wall thickness in the region of the upper hose part 22 than in
the region of the lower hose part 28. The wall thickness of the
hose constantly increases in the transition region 30, from top
to bottom.
The exemplary embodiment shown in Fig. 2f essentially corresponds
to the exemplary embodiment according to Fig. 2d. Here again, a
rubber hose with a continuous woven fabric insert 42 is provided,
onto which a cover hose 44 is vulcanized. Here, a metal spiral 48
is let into the cover hose 44, which makes it possible to reduce
the wall thickness of the cover hose 4 0 while keeping the bending
rigidity the same, as compared with the exemplary embodiment
according to Fig. 2d.

- 10 -
In summary, the following should be stated:
The invention relates to an end hose for discharge of thick
substances, particularly of liquid concrete. The end hose 12 can
be connected with its entry-side end to a pressure feed line 14
of a mobile thick-matter pump, and has a discharge opening 16 for
the thick substances at its exit-side end, and consists of a
flexible material. In order to prevent the end hose 12 from
kicking out when blockages are loosened, it has at least two hose
parts 26, 28 having different bending rigidity, connected with
one another at a transition point 30.

11
Claims
1. Distributor mast of a concrete pump, having several mast
arms connected with one another at bending joints, and
having a pressure feed line composed of several segments,
guided by way of the mast arms, to which liquid concrete is
applied by way of a pump, at the end of which line, in the
region of the mast tip, an end hose that hangs down
vertically, consisting of flexible material, having an
entry-side hose part, is connected, which has a discharge
opening for the liquid concrete at its exit-side hose part,
whereby the entry-side hose part and the exit-side hose part
are connected with one another at a transition point (30),
whereby the bending rigidity of the exit-side hose part,
starting from the transition point (30), is greater than
that of the entry-side hose part, and whereby the hose parts
(26, 28) having different bending rigidity have an elastomer
hose material (36) having different material hardness.
2. Distributor mast of a concrete pump, particularly according
to claim 1, having several mast arms connected with one
another at bending joints, and having a pressure feed line
composed of several segments, guided by way of the mast
arms, to which liquid concrete is applied by way of a pump,
at the end of which line, in the region of the mast tip, an

12
end hose that hangs down vertically, consisting of flexible
material, having an entry-side hose part, is connected,
which has a discharge opening for the liquid concrete at its
exit-side hose part, whereby the entry-side hose part and
the exit-side hose part are connected with one another at a
transition point (30), whereby the bending rigidity of the
exit-side hose part, starting from the transition point
(30), is greater than that of the entry-side hose part, and
whereby the hose parts (26, 28) having different bending
rigidity have an elastomer hose material (36) having
different wall thickness.
3. Distributor mast of a concrete pump, particularly according
to claim 1 or 2, having several mast arms connected with one
another at bending joints, and having a pressure feed line
composed of several segments, guided by way of the mast
arms, to which liquid concrete is applied by way of a pump,
at the end of which line, in the region of the mast tip, an
end hose that hangs down vertically, consisting of flexible
material, having an entry-side hose part, is connected,
which has a discharge opening for the liquid concrete at its
exit-side hose part, whereby the entry-side hose part and
the exit-side hose part are connected with one another at a
transition point (30) , whereby the bending rigidity of the
exit-side hose part, starting from the transition point

13
(30), is greater than that of the entry-side hose part, and
whereby the hose parts (26, 28) having different bending
rigidity have an elastomer hose material (36) having
different inserts.
4. Distributor mast according to claim 3, characterized in that
at least one of the hose parts (26, 28) contains a woven
fabric insert (32; 38; 40; 42; 46).
5. Distributor mast according to one of claims 1 to 4,
characterized in that at least one of the hose parts (26,
28) contains a steel wire insert (34; 48).
6. Distributor mast according to one of claims 3 to 5,
characterized in that the insert amount or density of the
different hose parts (26, 28) is different.
7. Distributor mast according to one of claims 1 to 6,
characterized in that the inside diameter of the hose parts
(26, 28) having different bending rigidity is constant.
8. Distributor mast according to one of claims 1 to 7,
characterized in that the hose parts (26, 28) are connected
with one another in one piece at the transition point (3 0) .

-14-
9. Distributor mast according to one of claims 1 to 8,
characterized in that the wall thickness of the hose parts
(26, 28) increases or decreases in the transition region.
10. Distributor mast according to one of claims 5 to 9,
characterized in that the steel wire inserts in the hose
parts having greater rigidity are wound more tightly than in
the hose parts having lower rigidity.
11. Distributor mast according to one of claims 4 to 9,
characterized in that the woven fabric inserts in the hose
parts having greater rigidity are braided or woven more
tightly than in the hose parts having lower rigidity.
12. Distributor mast according to one of claims 1 to 11,
characterized in that the hose parts having greater rigidity
carry a reinforcement cover (44).
13. Distributor mast according to claim 12, characterized in
that the reinforcement cover consists of elastomer plastic,
preferably with a reinforcement insert (48).
14. Distributor mast according to one of claims 1 to 13,
characterized in that the hose parts of the transition point
(30) are releasably coupled with one another.

15
15. Distributor mast according to one of claims 1 to 14,
characterized in that the hose part having greater rigidity
contains a steel insert, and the hose part having lesser
rigidity contains a woven fabric insert.
16. Distributor mast according to one of claims 1 to 15,
characterized in that the pressure feed line consists of
several line segments of a metal or a composite material,
preferably of fiber-reinforced plastic with a friction-wear-
resistant inner coating.

- 16 -

End hose for discharge of thick substances
The invention relates to an end hose for discharge of thick
substances, particularly of liquid concrete. The end hose (12)
can be connected with its entry-side end to a pressure feed line
(14) of a mobile thick-matter pump, and has a discharge opening
(16) for the thick substances at its exit-side end, and consists
of a flexible material. In order to prevent the end hose (12)
from kicking out when blockages are loosened, it has at least two
hose parts (26, 28) having different bending rigidity, connected
with one another at a transition point (30).

Documents:

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Patent Number

269141

Indian Patent Application Number

2072/KOLNP/2007

PG Journal Number

41/2015

Publication Date

09-Oct-2015

Grant Date

01-Oct-2015

Date of Filing

07-Jun-2007

Name of Patentee

PUTZMEISTER ENGINEERING GMBH

Applicant Address

MAX-EYTH-STRASSE 10, D-72631 AICHTAL,GERMANY

Inventors:

#	Inventor's Name	Inventor's Address
1	QUIER, AUSTIN	HILLTOP, CASTLE MOUNT WAY, BAKEWELL, DERBYSHIRE DERBYSHIRE DE45 1BQ

PCT International Classification Number

E04G 21/04

PCT International Application Number

PCT/EP2005/012610

PCT International Filing date

2005-11-25

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	102004060106.2	2004-12-13	Germany