CA1274792A - Apparatus for repairing buried pipes - Google Patents
Apparatus for repairing buried pipesInfo
- Publication number
- CA1274792A CA1274792A CA000558509A CA558509A CA1274792A CA 1274792 A CA1274792 A CA 1274792A CA 000558509 A CA000558509 A CA 000558509A CA 558509 A CA558509 A CA 558509A CA 1274792 A CA1274792 A CA 1274792A
- Authority
- CA
- Canada
- Prior art keywords
- tube
- pipes
- set forth
- packing device
- apparatus set
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
Links
- 238000012856 packing Methods 0.000 claims abstract description 48
- 239000003566 sealing material Substances 0.000 claims abstract description 30
- 239000013013 elastic material Substances 0.000 claims abstract description 4
- 239000000463 material Substances 0.000 claims description 11
- 239000004570 mortar (masonry) Substances 0.000 claims description 10
- 239000000203 mixture Substances 0.000 claims description 7
- 239000011888 foil Substances 0.000 claims description 4
- 238000000926 separation method Methods 0.000 claims description 3
- 239000011347 resin Substances 0.000 claims 4
- 229920005989 resin Polymers 0.000 claims 4
- 238000007789 sealing Methods 0.000 description 4
- 229920003002 synthetic resin Polymers 0.000 description 3
- 239000000057 synthetic resin Substances 0.000 description 3
- 239000004033 plastic Substances 0.000 description 2
- 230000000903 blocking effect Effects 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 239000004744 fabric Substances 0.000 description 1
- 239000012530 fluid Substances 0.000 description 1
- 230000035515 penetration Effects 0.000 description 1
- 230000003068 static effect Effects 0.000 description 1
Landscapes
- Pipe Accessories (AREA)
Abstract
Abstract Apparatus for Repairing Buried Pipes There is disclosed apparatus for repairing pipes buried underground such as sewer pipes, comprising a cylindrical packing device which is capable of being inflated by compressed air and has pipes for the supply of sealing material, leading to the outside of the packing device between the inflatable end portions.
The packing device has a hose extending over its whole length and made of elastic material such as rubber, which is of smaller wall thickness or greater ability to expand in the region of the two ends, which are closed by means of rigid end pieces, than in its central region.
The packing device has a hose extending over its whole length and made of elastic material such as rubber, which is of smaller wall thickness or greater ability to expand in the region of the two ends, which are closed by means of rigid end pieces, than in its central region.
Description
7~' Apparatus for Repairing Buried~e~
The invention relates to apparatus for repairing pipes which are buried underground, such as sewer pipes, the apparatus comvrising a cylindrical packing device which can be inflated with compressed air, together with pipes for feeding in a sealing material and which lead to the outside surface of the packing device point between the inflatable end portions.
Known, apparatus of this kind (DE-PS 2212330) has a rigid cylinder of a diameter which is significantly smaller than the diameter of the pipes to be sealed, on which are arranged mutually spaced apart inflatable bodies which are designed to isolate the region within which the leakage point is to be sealed from the remaining parts of the pipe when they are inflated. However this apparatus is not only expensive in its construction but also has the drawback that in operation a clearance remains between the cylinder and the inner wall of the pipe between the inflated ends, and this clearance can at best be only partially filled with the sealing material, which remains in the repaired pipe after the packing has been removed. Accordingly a relatively large amount of sealing material is required. Actual fractures of pipes cannot be sealed.
Furthermore this known apparatus is relat~vély complicated and accordingly expensive.
The object of the invention is to provide an economical form of apparatus for repairing pipes buried underground, such as sewer pipes, by which leakages and fractures in the pipes can be rapidly sealed off in such a way that the inside diameter of the pipe is not ~h~7`f~9Z
reduced by the presence of the sealing material and no unnecessary amount of sealing material is used.
This problem is solved according to the invention in that the packing device comprises a hose made of an elastic material such as rubber, having in the region of its two ends, which are closed by means of rigid end pieces, a smaller wall thickness or a greater ability to expand than in its intermediate region. In other words there is proposed according to the invention a packing arrangement which over its entire length comprises a and but which is indeed capable of being inflated and accoxdingly to be increased in diameter over its whole length but which can be expanded more in its end regions than in its intermediate regions.
Accordingly the packing device according to the invention is in a posi~ion to achieve the desired sealing between the packing device and the pipe at the ends of the device, but in the central region, namely the faulty region where the points in the pipe which are to be sealed are present, it engages the inner wall of the pipe with only a relatively low pressure so that the sealing ma~erial which is fed in can still be introduced and can penetrate into the broken or indeed completely fractured points in the pipe, but is also simultaneously urged around the hose and into the points or fractures or openings which are to be sealed and is held in these until setting has taken place. In this way it is still possible to feed in the pa~king material between the inflated, and accordingly sealed, ends of the packing device, which material can reach the holes, fractures and the like in the pipe which is to be repaired, but the central portion of the packing arrangement according to the invention achieves the result that this sealing material does not also build up inside the pipe but only flows to the holes, fractures of the like in the pipe to be repaired and is held there until it sets. Accordingly when the sealing material in injected the inside diameter of the pipe is not reduced.
Preferably the hose forming the packing device according to the invention has a smooth non-stick surface so that the material which is forced into the holes, fractures or other opening in the pipe undergoing repair cannot become bonded to the surface of the packing device, but on the contrary allows the packing device to be released from the set mass of sealing material without difficulty.
In a particularly simple and preferred embodiment of the invention thë hose of the packing device has its central region a cylindrical insert of likewise plastic or expandable material so ~hat one can limit accurately where the more expandahle and the less expandable portions of the packing lie. It is important that the packing should not only have expandable and thereby sealing portions in its end regions, but that it should also be expandable in its central region so that it can in fact take up the clearance cross-section of the pipe which is to be repaired, while still allowing the penetration of the sealing material which i9 to be fed to the holes, fractures or other openings in the pipe undergoing repair, without the material having to project significantly beyond the inside diameter o~ the pipe.
The packing according to the invention is therefore constructed in such a way that sealing material can be fed to its central region but because of the central portion of the packing engaging against the inner wall of the pipe with massive pressure the material is forced into the points which are to be sealed and into the ground outside, so that it can harden in the desired sealing position. In this way the problems are overcome of the sealing material reducing the useful cross section of the pipe under repair and an unnecessarily large quantity of sealing material being used up.
By means of the apparatus according to the invention it is possible not only to fill and thereby seal off with sealing material any holes or fractures in the underground pipes to be repaired, but moreover to repair regions where the pipe has burst outwards because the central portion of the packing according to the invention lies like a shell against the region of the points to be sealed and thereby to be repaired, so the sealing material fed in under pressure matches the original surface shape of the inner wall of the surface to be repaired.
Accordingly, by means of the apparatus according to the invention, it is possible not only to seal off holes or fractures in pipes but also bursts, i~e.
points at which pieces of the pipe itself have broken away, because the packing according to the invention not only achieve the desired supply of sealing material but also ensures that this sealing material restores the original shape of the pipe.
The packing according to the invention is furthermore constructed so that a two-component synthetic resin can be employed as the sealing material, of which both components are brought together only directly ahead of the point of repair,i.e. only immediately before emerging from the packing. With ~7~
this in mind the packing is fitted with two separate pipe connections for supplying the two components of the sealing material, but ending in a common nozzle.
In this way rapid-hardening seal~ng materials are can be allowed to react, i.e. for sxample synthetic resins which react together as soon as their two components are brought together. The hardening times in the~e cases are short and so the pac~ing has to be present at the individual repair points only for relatively short periods. Therefore the repair work can be carried out more rapidly and more economically. On the other hand the danger of blocking the supply pipes by hardening of the sealing material is only slight because the components of the sealing material are only brought together in the immediate neigh~ourhood of the pipe connection leading to the outside of the packin~.
An embodiment of the apparatu~ according to the invention for repai~ing underground pipes is illustrated diagrammatically in the drawing by way of example, and in the drawing:
Figure 1 is a longitudinal section of the apparatus in its rest condition, i.e. non-inflated condition, and Figure 2 is a side view of the inflated device, but in which no pipe is present, so that the end regions which expand to a greater degree on infl~tion can be clearly seen.
The apparatus comprises substantially a packing device 1 formed by a cylindrical hose 2 with rigid end caps 3 and 4 inserted in its ends. The hose or tube
The invention relates to apparatus for repairing pipes which are buried underground, such as sewer pipes, the apparatus comvrising a cylindrical packing device which can be inflated with compressed air, together with pipes for feeding in a sealing material and which lead to the outside surface of the packing device point between the inflatable end portions.
Known, apparatus of this kind (DE-PS 2212330) has a rigid cylinder of a diameter which is significantly smaller than the diameter of the pipes to be sealed, on which are arranged mutually spaced apart inflatable bodies which are designed to isolate the region within which the leakage point is to be sealed from the remaining parts of the pipe when they are inflated. However this apparatus is not only expensive in its construction but also has the drawback that in operation a clearance remains between the cylinder and the inner wall of the pipe between the inflated ends, and this clearance can at best be only partially filled with the sealing material, which remains in the repaired pipe after the packing has been removed. Accordingly a relatively large amount of sealing material is required. Actual fractures of pipes cannot be sealed.
Furthermore this known apparatus is relat~vély complicated and accordingly expensive.
The object of the invention is to provide an economical form of apparatus for repairing pipes buried underground, such as sewer pipes, by which leakages and fractures in the pipes can be rapidly sealed off in such a way that the inside diameter of the pipe is not ~h~7`f~9Z
reduced by the presence of the sealing material and no unnecessary amount of sealing material is used.
This problem is solved according to the invention in that the packing device comprises a hose made of an elastic material such as rubber, having in the region of its two ends, which are closed by means of rigid end pieces, a smaller wall thickness or a greater ability to expand than in its intermediate region. In other words there is proposed according to the invention a packing arrangement which over its entire length comprises a and but which is indeed capable of being inflated and accoxdingly to be increased in diameter over its whole length but which can be expanded more in its end regions than in its intermediate regions.
Accordingly the packing device according to the invention is in a posi~ion to achieve the desired sealing between the packing device and the pipe at the ends of the device, but in the central region, namely the faulty region where the points in the pipe which are to be sealed are present, it engages the inner wall of the pipe with only a relatively low pressure so that the sealing ma~erial which is fed in can still be introduced and can penetrate into the broken or indeed completely fractured points in the pipe, but is also simultaneously urged around the hose and into the points or fractures or openings which are to be sealed and is held in these until setting has taken place. In this way it is still possible to feed in the pa~king material between the inflated, and accordingly sealed, ends of the packing device, which material can reach the holes, fractures and the like in the pipe which is to be repaired, but the central portion of the packing arrangement according to the invention achieves the result that this sealing material does not also build up inside the pipe but only flows to the holes, fractures of the like in the pipe to be repaired and is held there until it sets. Accordingly when the sealing material in injected the inside diameter of the pipe is not reduced.
Preferably the hose forming the packing device according to the invention has a smooth non-stick surface so that the material which is forced into the holes, fractures or other opening in the pipe undergoing repair cannot become bonded to the surface of the packing device, but on the contrary allows the packing device to be released from the set mass of sealing material without difficulty.
In a particularly simple and preferred embodiment of the invention thë hose of the packing device has its central region a cylindrical insert of likewise plastic or expandable material so ~hat one can limit accurately where the more expandahle and the less expandable portions of the packing lie. It is important that the packing should not only have expandable and thereby sealing portions in its end regions, but that it should also be expandable in its central region so that it can in fact take up the clearance cross-section of the pipe which is to be repaired, while still allowing the penetration of the sealing material which i9 to be fed to the holes, fractures or other openings in the pipe undergoing repair, without the material having to project significantly beyond the inside diameter o~ the pipe.
The packing according to the invention is therefore constructed in such a way that sealing material can be fed to its central region but because of the central portion of the packing engaging against the inner wall of the pipe with massive pressure the material is forced into the points which are to be sealed and into the ground outside, so that it can harden in the desired sealing position. In this way the problems are overcome of the sealing material reducing the useful cross section of the pipe under repair and an unnecessarily large quantity of sealing material being used up.
By means of the apparatus according to the invention it is possible not only to fill and thereby seal off with sealing material any holes or fractures in the underground pipes to be repaired, but moreover to repair regions where the pipe has burst outwards because the central portion of the packing according to the invention lies like a shell against the region of the points to be sealed and thereby to be repaired, so the sealing material fed in under pressure matches the original surface shape of the inner wall of the surface to be repaired.
Accordingly, by means of the apparatus according to the invention, it is possible not only to seal off holes or fractures in pipes but also bursts, i~e.
points at which pieces of the pipe itself have broken away, because the packing according to the invention not only achieve the desired supply of sealing material but also ensures that this sealing material restores the original shape of the pipe.
The packing according to the invention is furthermore constructed so that a two-component synthetic resin can be employed as the sealing material, of which both components are brought together only directly ahead of the point of repair,i.e. only immediately before emerging from the packing. With ~7~
this in mind the packing is fitted with two separate pipe connections for supplying the two components of the sealing material, but ending in a common nozzle.
In this way rapid-hardening seal~ng materials are can be allowed to react, i.e. for sxample synthetic resins which react together as soon as their two components are brought together. The hardening times in the~e cases are short and so the pac~ing has to be present at the individual repair points only for relatively short periods. Therefore the repair work can be carried out more rapidly and more economically. On the other hand the danger of blocking the supply pipes by hardening of the sealing material is only slight because the components of the sealing material are only brought together in the immediate neigh~ourhood of the pipe connection leading to the outside of the packin~.
An embodiment of the apparatu~ according to the invention for repai~ing underground pipes is illustrated diagrammatically in the drawing by way of example, and in the drawing:
Figure 1 is a longitudinal section of the apparatus in its rest condition, i.e. non-inflated condition, and Figure 2 is a side view of the inflated device, but in which no pipe is present, so that the end regions which expand to a greater degree on infl~tion can be clearly seen.
The apparatus comprises substantially a packing device 1 formed by a cylindrical hose 2 with rigid end caps 3 and 4 inserted in its ends. The hose or tube
2 is capable of being expanded elastically, as further explained below~
The end caps 3 and 4 are connected together by a cable S so that their mutual separation .is limited.
Furthermore between the end caps 3 and 4 there extends a flexible tube or hose 6 which serves to carry h television cable or other leads, not shown.
The cylindrical bag 2 comprises a elastic hose, for example of rubber, in the ends of which are inserted the rigid end caps 3 and 4. A hoop 7 ritted over the outside ensures a durable and tight but releasable clamped connection between the rubber hose which forms the bag 2 and ~he respective end caps 3 and ~.
Inserted in the central region of the elastic hose forming the bag 2 is a hose portion 8 which is preferably made of the same material as the bag 2 and which is bonded to its inner surface over the entire area and permanently. Accordingly the central portion 9 of the bag 2 has a greater wall thickness than its ends portions 10 and 11 so that the central portion 9 is able to expand to a smaller degree than the end portions 10 and 11, as indicated in Figure 2. The expansion ratio between the portions 9 on the one hand the 10 and 11 on the other hand are not necessarily shown to scale in Figure 2. On the contrary, Figure 2 simply aims to indicate clearly that the bag 2 is able to expand more over its end reyions than over its central region when compressed air is introduce~into the bag 2 through a ho~se connection 12 connected to the end cap 3.
In addition two separate mutually parallel pipe connections 13 and 14 are conducted through the end cap
The end caps 3 and 4 are connected together by a cable S so that their mutual separation .is limited.
Furthermore between the end caps 3 and 4 there extends a flexible tube or hose 6 which serves to carry h television cable or other leads, not shown.
The cylindrical bag 2 comprises a elastic hose, for example of rubber, in the ends of which are inserted the rigid end caps 3 and 4. A hoop 7 ritted over the outside ensures a durable and tight but releasable clamped connection between the rubber hose which forms the bag 2 and ~he respective end caps 3 and ~.
Inserted in the central region of the elastic hose forming the bag 2 is a hose portion 8 which is preferably made of the same material as the bag 2 and which is bonded to its inner surface over the entire area and permanently. Accordingly the central portion 9 of the bag 2 has a greater wall thickness than its ends portions 10 and 11 so that the central portion 9 is able to expand to a smaller degree than the end portions 10 and 11, as indicated in Figure 2. The expansion ratio between the portions 9 on the one hand the 10 and 11 on the other hand are not necessarily shown to scale in Figure 2. On the contrary, Figure 2 simply aims to indicate clearly that the bag 2 is able to expand more over its end reyions than over its central region when compressed air is introduce~into the bag 2 through a ho~se connection 12 connected to the end cap 3.
In addition two separate mutually parallel pipe connections 13 and 14 are conducted through the end cap
3 into the interior of the bag 2, through which the components of the sealing material to be used for the 7~
repair can be introduced separately. The pipe connections 13 and 14 lead to a junction point 15 present in the central region of the bag 2, ~rom which a relatively short length of pipe 16 leads to a nozzle 17 which forms an outlet opening for the sealing material leading to the outside of the bag 2.
The two components of the sealing material which are introduced initially separately through the pipe connections 13 and 14 are mixed together in the region of the pipe section 16 between the connecting point 15 and the nozzle 17 in order to form the two-component sealing material to be used for the repair. Within the pipe section 16 there can be kinks or deflections 18 so that the pipe section 16 acts as a kind of static mixer to ensure good mixing of the two components of the sealing material.
On the outside of the rubber hose which forms the bag 2 there is a foil l9 having a surface which is smooth and which in particular is non-sticking to synthetic resin. This oil prevents any sealing material which emerges from the nozzle 17 from being able to bond itself to the rubber of the bag 2.
Accordingly, after hardening of the sealins material injected into holes that are to be repaired in a pipe, the packing device 1 can be removed from the region of the repair without problems, simply in that the bag 2 is deflated by means of the hose connection 12 an~ the bag collapses elastically and shrinks in diameter.
The packing arrangement illustrated in the drawing can be connected to apparatus capable of being moved along a pipe in a manner not illustrated further, or equally well it can be moved in the usual manner by means of a cable, not shown.
For moving .it along, the packing arrangement is provided at its two ends with wheels 20 mounted on the end caps 3 and 4. Moreovar the packing device 1, which i5 only under a low air pressure, can be moved along a pipe to the desired .repair point without its surface, and in particular the foil 19, coming into contact with the wa].l of the pipe.
The packing device 1 is suitable not only for repairing pipes of circular cross-section but also for repairing pipes of other cross sections, for example uniform cross sections or egg shapes.
_9_ ~7~
~ig. 3 is a longitudinal section of another embodiment of the device being inflated but not within a pipe so that the end por-tions which are more expanded by inflation are well to be recognized.
The packing device (21) shown in Fig. 3 comprises a cylindrical hose (22) of elastically expandable material with rigid end caps (23 ancl 24), respectively, inserted in its ends.
The end caps (23 and 24) are connected together by a cable ~25) extending within the tube or hose (22) so their mutual separation is limited.
Furthermore, a flexible tube or hose as shown in Fig. 1 which serves to carry a television cable or other leads can extend in longitudinal direction through this packing device (21), but such tube or hose is not shown in F;g. 3.
In the central port;on of packing device (21) a sleeve ~26) is provided on tube or hose (22) which comprises of a substantially non-expandable foil or layer comprising a fabric inlay or ply so that said sleeve rules the maximum diameter of the central portion of the inflated pack;ng device.
Sleeve ~26) is provided with a smooth surface in order that sealing material expelled from the packing device (21) for repairing purposes does not stick to the surface of the packing device.
Also, by means of sleeve (26) the wall stickness of the repaired underground lines or sewers can be adjusted or - in other words - the inner diameter of the repaired pipeline or sewer can be adjusted accordingly.
In the center of the packing device ~21) a head member (27) is fixed within hose ~22) at the inner side thereof which opens in rad;al d;r~ct;on to the outer surface or outside of the packing device. Two lines (28 and 29) open into said head element or member (27) through which two components of a mortar m;xture can be supplied which components should be expelled as mixture to the outside of the packing device. As those components quickly react with one another they should not ccme into contact unless immediately before they are expelled or pressed out of the packing device. This is important for mortar mixtures which can be used for repairing of underground pipes, pipelines or sewers since their components begin to react immediately after they came ln contact w;th one another so that the mixture is hardening or curing quickly, and there is little time for expelling the mixture in a fluid or plastic condition.
A pneumatic cylinder (31) is connected to head (27) by means of a bracket (30). Said pneumatic cyl;nder (31) includes a piston with an extendable piston rod (32). Another piston (33) is connected to the distal end of said piston rod (32) which is slidably moveable within head member (27) in order that all remainders of the mortar mixture can be expelled or removed from the interior of head member (27) as soon as the pressing step for expelling the mortar mixture is term;natedO In this manner ;t can be avoided that mortar can cure or harden within head member (27) which would block the interior thereof. In addition, slidable piston (33) closes the ends of lines (28 and 29) when in its extended position so that mortar components cannot escape from such lines if not desired.
For actuating the pneumatic cylinder (31) compressed air can be supplied through a line (34). This l;ne (34) can be used also for releaving or releasing said cylinder (313 so that a pressure spring provided within said cylinder and not shown in the drawings can return the p1ston together with its piston rod (32) in its original position as shown in Fig. 3 if cylinder (31) is releaved.
For supplying pressured air into tube or hose (22) a flexible hose (35) is inserted into end cap (23), which hose is connected to a air pressure source not shown which can be used also to supply pressur;zed air through said line (34).
End caps (23 and 24) which are fixed to hose (22) in a manner as in~theembodiment of Figs. 1 and Z are provided, similar as shown in Fig. 1 and 2, with wheels (36) which are mounted on end caps (23 and 24) thus that the packing device (21) can be moved on said wheels along a pipe or pipeline to the desired repair po;nt if not inflated without its surface coming into contact the wall or bottom of said pipe or pipeline.
G/mr.
repair can be introduced separately. The pipe connections 13 and 14 lead to a junction point 15 present in the central region of the bag 2, ~rom which a relatively short length of pipe 16 leads to a nozzle 17 which forms an outlet opening for the sealing material leading to the outside of the bag 2.
The two components of the sealing material which are introduced initially separately through the pipe connections 13 and 14 are mixed together in the region of the pipe section 16 between the connecting point 15 and the nozzle 17 in order to form the two-component sealing material to be used for the repair. Within the pipe section 16 there can be kinks or deflections 18 so that the pipe section 16 acts as a kind of static mixer to ensure good mixing of the two components of the sealing material.
On the outside of the rubber hose which forms the bag 2 there is a foil l9 having a surface which is smooth and which in particular is non-sticking to synthetic resin. This oil prevents any sealing material which emerges from the nozzle 17 from being able to bond itself to the rubber of the bag 2.
Accordingly, after hardening of the sealins material injected into holes that are to be repaired in a pipe, the packing device 1 can be removed from the region of the repair without problems, simply in that the bag 2 is deflated by means of the hose connection 12 an~ the bag collapses elastically and shrinks in diameter.
The packing arrangement illustrated in the drawing can be connected to apparatus capable of being moved along a pipe in a manner not illustrated further, or equally well it can be moved in the usual manner by means of a cable, not shown.
For moving .it along, the packing arrangement is provided at its two ends with wheels 20 mounted on the end caps 3 and 4. Moreovar the packing device 1, which i5 only under a low air pressure, can be moved along a pipe to the desired .repair point without its surface, and in particular the foil 19, coming into contact with the wa].l of the pipe.
The packing device 1 is suitable not only for repairing pipes of circular cross-section but also for repairing pipes of other cross sections, for example uniform cross sections or egg shapes.
_9_ ~7~
~ig. 3 is a longitudinal section of another embodiment of the device being inflated but not within a pipe so that the end por-tions which are more expanded by inflation are well to be recognized.
The packing device (21) shown in Fig. 3 comprises a cylindrical hose (22) of elastically expandable material with rigid end caps (23 ancl 24), respectively, inserted in its ends.
The end caps (23 and 24) are connected together by a cable ~25) extending within the tube or hose (22) so their mutual separation is limited.
Furthermore, a flexible tube or hose as shown in Fig. 1 which serves to carry a television cable or other leads can extend in longitudinal direction through this packing device (21), but such tube or hose is not shown in F;g. 3.
In the central port;on of packing device (21) a sleeve ~26) is provided on tube or hose (22) which comprises of a substantially non-expandable foil or layer comprising a fabric inlay or ply so that said sleeve rules the maximum diameter of the central portion of the inflated pack;ng device.
Sleeve ~26) is provided with a smooth surface in order that sealing material expelled from the packing device (21) for repairing purposes does not stick to the surface of the packing device.
Also, by means of sleeve (26) the wall stickness of the repaired underground lines or sewers can be adjusted or - in other words - the inner diameter of the repaired pipeline or sewer can be adjusted accordingly.
In the center of the packing device ~21) a head member (27) is fixed within hose ~22) at the inner side thereof which opens in rad;al d;r~ct;on to the outer surface or outside of the packing device. Two lines (28 and 29) open into said head element or member (27) through which two components of a mortar m;xture can be supplied which components should be expelled as mixture to the outside of the packing device. As those components quickly react with one another they should not ccme into contact unless immediately before they are expelled or pressed out of the packing device. This is important for mortar mixtures which can be used for repairing of underground pipes, pipelines or sewers since their components begin to react immediately after they came ln contact w;th one another so that the mixture is hardening or curing quickly, and there is little time for expelling the mixture in a fluid or plastic condition.
A pneumatic cylinder (31) is connected to head (27) by means of a bracket (30). Said pneumatic cyl;nder (31) includes a piston with an extendable piston rod (32). Another piston (33) is connected to the distal end of said piston rod (32) which is slidably moveable within head member (27) in order that all remainders of the mortar mixture can be expelled or removed from the interior of head member (27) as soon as the pressing step for expelling the mortar mixture is term;natedO In this manner ;t can be avoided that mortar can cure or harden within head member (27) which would block the interior thereof. In addition, slidable piston (33) closes the ends of lines (28 and 29) when in its extended position so that mortar components cannot escape from such lines if not desired.
For actuating the pneumatic cylinder (31) compressed air can be supplied through a line (34). This l;ne (34) can be used also for releaving or releasing said cylinder (313 so that a pressure spring provided within said cylinder and not shown in the drawings can return the p1ston together with its piston rod (32) in its original position as shown in Fig. 3 if cylinder (31) is releaved.
For supplying pressured air into tube or hose (22) a flexible hose (35) is inserted into end cap (23), which hose is connected to a air pressure source not shown which can be used also to supply pressur;zed air through said line (34).
End caps (23 and 24) which are fixed to hose (22) in a manner as in~theembodiment of Figs. 1 and Z are provided, similar as shown in Fig. 1 and 2, with wheels (36) which are mounted on end caps (23 and 24) thus that the packing device (21) can be moved on said wheels along a pipe or pipeline to the desired repair po;nt if not inflated without its surface coming into contact the wall or bottom of said pipe or pipeline.
G/mr.
Claims (12)
1. Apparatus for repairing underground pipes such as sewer pipes, comprising a cylindrical packing device capable of being inflated by compressed air, and pipes for supplying sealing material, said pipes opening through said packing device between its inflatable end portions to the outside of said packing device, wherein said packing device comprises a hose-like tube made of elastic material over its entire length, said tube having said end portions closed by rigid end pieces and said end portions having a greater ability to expand than the central region of said tube between said portions.
2. The apparatus set forth in claim 1, wherein said tube has a smooth non-sticky external surface.
3. The apparatus set forth in claim 1, wherein the central region of said tube contains a cylindrical insert of elastic material.
4. The apparatus set forth in claim 1, wherein clamps detachably connect to said end pieces to said tube.
5. The apparatus set forth in claim 1, wherein said rigid end pieces are connected together by means of a flexible element which limits their maximum mutual separation.
6. The apparatus set forth in claim 1, wherein said packing device contains two separate pipes for separately supplying the components of a two-component sealing material, said pipes leading to a common outlet.
7. The apparatus set forth in claim 6, wherein said two pipes lead into a common pipe section designed to act as a mixer.
8. The apparatus set forth in claim 1, wherein a substantially non-expandable sleeve is provided externally on said expandable tube in the central region of said tube.
9. The apparatus set forth in claim 8, wherein said sleeve comprises of a flexible and reinforced foil having a non-sticky smooth surface.
10. The apparatus set forth in claim 1, wherein in the centre portion of said tube a head member for expelling highly reactive and quickly hardening or curing mortar or resin material radially out of said packing device under pressure is attached to the inner wall of said tube, at least two separate supply lines for pressurized supplying different components for said mortar or resin mass which should come into contact with one another within said head member opening into the interior of said head member.
11. The apparatus set forth in claim 10, wherein a pressure- actuated piston is slidably guided within the cylindrical interior of said head member for controlled movement between a retracted position in which the interior is unobstructed for free passage of the mortar or resin components for pressurized expelling the mortar or resin mixture out of said packing device, and a forwarded position in which it fills the complete interior of said head member and sealingly closes off the openings of said separate supply lines.
12. The apparatus set forth in claim 11, wherein said piston is provided at the distal end of the piston rod of a pneumatic pressure cylinder unit attached to said head member within said tube.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA000558509A CA1274792A (en) | 1988-02-09 | 1988-02-09 | Apparatus for repairing buried pipes |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA000558509A CA1274792A (en) | 1988-02-09 | 1988-02-09 | Apparatus for repairing buried pipes |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CA1274792A true CA1274792A (en) | 1990-10-02 |
Family
ID=4137414
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA000558509A Expired CA1274792A (en) | 1988-02-09 | 1988-02-09 | Apparatus for repairing buried pipes |
Country Status (1)
| Country | Link |
|---|---|
| CA (1) | CA1274792A (en) |
-
1988
- 1988-02-09 CA CA000558509A patent/CA1274792A/en not_active Expired
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| MKLA | Lapsed |