NL2003599C2 - METHOD AND APPARATUS FOR APPLYING A COATING INTO A SINGLE PART. - Google Patents

Description

METHOD AND APPARATUS FOR APPLYING A COATING INTO A SINGLE PART

The invention relates to a method for applying a covering in a sewer part, comprising the steps of (i) providing a flexible stocking with an outer diameter corresponding to the inner diameter of the sewer part and with a length at least equal to the length of the sewer part, which stocking is impregnated with a thermally curable plastic, (ii) inserting the stocking into the sewer part in such a way that the outside of the stocking is pressed against the inside of the sewer part, and (iii) it causing the stocking to adhere to the inside of the sewer part and thermally curing the impregnated plastic by introducing a heated pressure medium into the stocking introduced into the sewer part.

Such a method is known from the German patent DE 10 2004 043 383 B4, which relates to a device for introducing a stocking into a sewer part.

The method is applied in the renovation of sewer parts, whereby a damaged sewer part is not removed, but is provided with an inner lining.

The step of causing the stocking to adhere to the inside of the sewer part by thermally curing the impregnated plastic is not explained in DE 10 2004 043 383.

A method known per se for causing the stocking to be adhered by thermally curing the impregnated plastic comprises the inlet of heated water into the stocking introduced into the sewer part. This method has the disadvantage that expensive and bulky equipment is required for heating up the water, and that the costs of bringing the required amount of water to the required temperature are relatively high.

According to another method known per se, the impregnated plastic is thermally cured by the introduction of steam into the introduced stocking. The admission of steam is, just like the admission of heated water, relatively expensive, and moreover requires taking special safety measures that have a cost-increasing effect.

It is an object of the invention to provide a method for applying a covering by introducing a flexible stocking into a sewer part, according to which the stocking can be adhered to the inside of the sewer part in a simple and cost-effective manner, without it being necessary to introduce steam or heated water into a stocking introduced into a sewer part.

This object is achieved surprisingly, and other advantages are achieved, with a method of the type indicated in the preamble, wherein according to the invention the heated pressure medium is air which has an overpressure with respect to the ambient pressure with a value in the range from 0.4 bar to 0.7 bar.

It has been found that a relatively low overpressure of 0.4 bar to 0.7 bar when inlet of heated air is sufficient to keep an inserted stocking pressed integrally against the inner wall of the sewer part during curing of the impregnated plastic. This excess pressure can easily be created with the help of commercially available fans.

Depending on the plastic with which the stocking is impregnated, the heated air has a temperature in the range of 70 ° C to 160 ° C.

The invention further relates to a device for applying a covering in a sewer part according to the method described above, comprising an input device which can be placed at a first end of a sewer part for introducing a flexible sleeve into the sewer part and pressing the outside of the stocking against the inside of the sewer part, a blowing and heating device which can be placed at the first or second end of the sewer part for generating a stream of heated air to be introduced into a stocking introduced into the sewer part with a first, relatively 3 high temperature, and a discharge device which can be placed at the second and first end of the sewer part and can be coupled to the input stocking for discharging heated air with a second, relatively low temperature from the input stocking

Such a device makes it possible to introduce a flexible stocking into a sewer part, in such a way that a piece of stocking protrudes from the beginning and the end of the sewer part, which pieces can be coupled to the blowing and heating device and the discharge device, respectively. .

Although it is in principle not important for the operation of the device at which end of the sewer part the blowing and heating direction is coupled to the inserted sleeve, it is practically advantageous to place the blowing and heating direction at the location of the feeding device on a first coupling the end of the sewer part to the stocking, and coupling the discharge device to the part of the stocking protruding from the second end of the sewer part.

In an embodiment of a device according to the invention, the discharge device comprises an inlet conduit which can be coupled to the inserted stocking and an outlet conduit, which outlet conduit comprises a vertical end part acting as a chimney in the operating condition.

The inlet line of such a discharge device is preferably provided with a pressure regulator, for example a reducing valve, with the aid of which the pressure in the stocking introduced into the sewer part can be kept at a constant value to be set during curing of the impregnated plastic.

In a particularly advantageous embodiment of a device according to the invention, the input device is adapted to pass the flow of heated air 35 generated by the blowing and heating device to the stocking introduced into the sewer part.

For this purpose the input device is for instance provided with an inlet which can be coupled to an outlet line of the blower and heating device.

The invention further relates to an input device for introducing a flexible stocking into a sewer part and pressing the outside of the stocking against the inside of the sewer part, comprising a housing which is provided with an input opening for introducing a flexible stocking into flat and inverted state, an outlet opening for carrying out the stocking in flat and inverted state, and coupling means 10 extending around said outlet opening for coupling thereto an end of the stocking in the open, non-inverted state, fluid transport means for supplying a stocking fluid in the housing under excess pressure with respect to the ambient pressure, and air-sealing means for sealing the inlet opening.

Such an input device is known from DE 10 2004 043 383 B4 cited above, wherein the airtight means are formed by two pairs of locks, each pair of which is composed of cooperating, bellows-shaped rubber-elastic lips, at least in cross-section, the middle part of which is formed by can be pressed against a stocking to be introduced in flat, inverted state by means of compressed air. Between the two pairs of locks, transport rollers are present for transporting a stocking guided between them in a flat, inverted state. In the direction of transport of the stocking downstream, an inlet is provided behind the second pair of locks for inlet of a fluid under overpressure, for instance compressed air, for inverting the stocking from the flat, inverted state to the opened position of use, and for entering the stocking in the sewer section. To this end, the input device is provided with a coupling edge around the output opening for effecting an air-impermeable coupling of an end of the stocking in the open (non-inverted) position of use with the exterior of the input device.

It is a drawback of the known input device that it is relatively complicated in construction and expensive to maintain. The two locks are provided with four U-shaped, thus folded over, rubber-specific lips with specific dimensions and provided with a number of bores. Separate pneumatic lines are required for operating the locks, while for transporting the stocking in a flat, inverted state, a pair of cooperating transport rollers are provided.

It is a further object of the invention to provide an input device which is simple in construction and relatively inexpensive in maintenance.

This object is achieved, and other advantages are achieved, with an input device of the above-mentioned type, wherein according to the invention the air-sealing means are formed by a pair in the housing from the input opening in operating condition on either side of the stocking to the surface of the sealing sheets of a flexible airtight material extending into the stocking in flat condition, which sealing sheets are pressed air-sealing on the respective surface of the stocking by the supplied fluid under overpressure with their respective end.

The sealing sheets in an input device according to the invention have the advantage over the U-shaped sealing lips according to the prior art that they are easier to produce and assemble and are therefore cheaper, more durable, while there are no separate pneumatic provisions for their operation. required, but use is made of the necessary facilities for the fluid under overpressure.

In an embodiment of an input device according to the invention, it is provided with a guide track extending between the inlet opening and the outlet opening for guiding the stocking in the flat state, which guide track is formed, for example, by a plate of a perforated material.

In an advantageous embodiment, in which the fluid 6 is air under excess pressure, a fan is accommodated in the housing which is provided with an air inlet extending outside the housing.

This embodiment offers the practical advantage that separate provisions are not required for supplying the required fluid under overpressure, but that the latter can be supplied in the form of air under overpressure by the built-in fan.

For reasons of safety, the housing is for instance provided with an overpressure protection.

In a practically advantageous input device according to the invention, which is particularly suitable for carrying out the method described above, the housing is provided with an air inlet for the admission of heated air.

In order to promote that the introduction of flat stocking into the housing proceeds smoothly, the housing is preferably provided on its outside with at least one guide roller extending along the input opening for guiding a stocking to be introduced.

The invention will be elucidated hereinbelow on the basis of an exemplary embodiment, with reference to the drawings.

In the drawings, FIG. 1 shows a schematic representation of a device according to the invention for applying a covering in a sewer part, and

FIG. 2 is a schematic representation of an input device of the device shown in FIG. 1 in more detail.

Corresponding components are designated in the figures with the same reference numerals.

FIG. 1 shows an installation 1 on a road surface 2 under which a sewer pipe 3 extends, a part 4 of which is delimited by vertical work shafts 5, 6 is provided with a covering 7. The installation 1 is composed of an input device 8, a so-called 7 "shooter" for introducing a flexible sleeve 9 into the sewer part 4 and pressing the outside of the stocking against the inside of the sewer part 4, a blowing and heating device 9 for generating a stream of heated air which is introduced into a stocking 7 introduced into the sewer part 4, and a discharge unit 10 for discharging cooled heated air from the introduced stocking 7. The shooter 8 and the blowing and heating unit 9 are both placed at a first end 5 of the sewer part 4, wherein an outlet 11 of the blowing and heating unit 9 is connected to an inlet 12 of the shooter 8. The blowing and heating unit 9, which is positioned above the road surface 2 in the figure, rus t in practical situations, for example on legs, or on a truck or trailer. The blower and heating unit 9 comprises, for example, a fan with a flow rate of 1000 m3 air / hr at a pressure of 0.4 - 0.7 bar and an electric heating element for heating said air to a temperature of approximately 140 ° C. In a practically advantageous embodiment, the housing of the blower and heating unit 9 also comprises a compartment 13 for an aggregate. The discharge unit 10, which is provided with a chimney 14, is placed at the other end 6 of the sewer part 4.

The installation 1 works as follows. From the supply 15, a flexible stocking 16 is guided by the shooter 8 from a supply 15 in a flat, inverted state to and through the output opening 19, and subsequently in an open, non-inverted state attached to a coupling edge 30 (shown in Fig. 2) , under the creation of an air-impermeable coupling with the house of the shooter 8.

The sleeve is, for example, a sleeve of needle felt, the size of which corresponds to that of the sewer part 4, and which is impregnated with a polyester or a vinyl ester resin, depending on the composition of the liquids to be discharged through the sewer pipe 3. Air is blown into the shooter 8 by a fan 20 (shown in Fig. 2) with a pressure of, for example, between 0.1 and 2.5 bar, as a result of which the stocking from the coupling edge 20 in the open, non-inverted state 17 is advanced with entrainment in the interior of a piece of stocking 16 in a flat, inverted state of sufficient length to enable the stocking 17 to be led out again via the first working shaft 5, the sewer part 4 and the second working shaft 6. At the outwardly directed end a connection with the chimney 14 can be established by means of a connecting line 21, which is provided with a pressure reducing valve (represented by arrow 22). After this connection has been established, hot air with a temperature of, for example, 140 ° C is introduced into the open sleeve 17 with the aid of the blower and heating unit 9, the portion 7 of the sleeve 17 being introduced into the sewer section 4 being hardened by the hardening of the 15 impregnated plastic is adhered to the wall of the sewer part 4, and thus starts to form a new and smooth inner wall thereof. The heated air introduced through the stocking 17 into the first working shaft 5 escapes via the stocking 17 into the second working shaft 6 and the connecting line 21 to the chimney 14, the pressure in the stocking 17 using the pressure reducing valve 22 at a constant value is being held. After bonding and curing the portion 7 of the stocking 17 in the sewer part 4 and cooling, the pieces of stocking 17 on either side of the part 7 are cut loose and the piece of stocking 16 still present in the sewer part 4 is returned therefrom in a flat condition. with which the renovation of the sewer section 4 has in principle been completed.

FIG. 2 shows the shooter 8 from the installation 1 shown in fig. 1 in more detail, in a schematic manner. The figure shows, in addition to the components already mentioned, a pair of flexible sealing sheets 23, 24, for example of rubber, which obliquely extend from both sides of the inlet opening 18 to the flat sleeve 16, and which under the action of overpressure generated by the fan 20 with their pressure respective end are air-sealed on the upper and lower surface of the sleeve 16. The 9 ends of the sealing blades 23, 24 can be pulled away from the sleeve 16 with chains (not shown), in situations where it is necessary to withdraw the flat sleeve 16 from the shooter 8 while maintaining the air pressure. The flat sleeve 16 is guided in the housing of the shooter 8 over a guide track 25 which is formed by a plate of perforated material. The inlet 12 of the shooter 8 can be closed by means of a ball valve (not shown). The figure further shows an overpressure protection 26, an air inlet 27 for the fan 20 and a pair of guide rollers 28, 29 on either side of the inlet opening 18 for guiding a sleeve 16 to be introduced.

Claims (14)

A method for applying a covering (7) in a sewer part (4), comprising the steps of (i) providing a flexible sleeve (16, 17) with an outer diameter corresponding to the inner diameter 5 of the sewer part ( 4) and with a length at least equal to the length of the sewer part, which stocking (16, 17) is impregnated with a thermally curable plastic, (ii) inserting the stocking (16, 7, 17) into the sewer part (4) in such a way that the outside of the stocking (7) is pressed against the inside of the sewer part (4), and (iii) causing the stocking (7) to adhere to the inside of the sewer part (4) and thermally curing the impregnated plastic by introducing a heated pressure medium into the sleeve (7) introduced into the sewer part (4), characterized in that the heated pressure medium is air that has an overpressure with respect to the ambient pressure with a value in the range of 0.4 bar to 0.7 bar. Method according to claim 1, characterized in that the heated air has a temperature in the range of 70 ° C to 160 ° C. 3. Device (1) for applying a covering (7) in a sewer part (4) according to a method according to claim 1, comprising an input device (8) which can be placed at a first end (5) of the sewer part (4) introducing a flexible sleeve (16, 7, 17) into the sewer section (4) and pressing the outside of the sleeve (7) against the inside of the sewer section (4), one at the first (5) or second end (6) of the sewer part (7) for placing a blower and heating device (9) for generating a stream of heated air to be introduced into a sleeve (7) introduced into the sewer part (4) with a first, relatively high temperature, and a discharge device (10, 14) which can be placed at the second (6) and first (5) end of the sewer part (4) and can be coupled to the input stocking (7, 17) for discharging from the input stocking (7) of heated air with a second, relatively low temperature Device (1) according to claim 3, characterized in that the discharge device (10) comprises an inlet line (21) which can be coupled to the inserted sleeve (7, 17) and an outlet line (10), which outlet line has an operating condition of 10 chimney (10) comprising vertical end part. Device (1) according to claim 4, characterized in that the inlet line (21) is provided with a pressure regulator (22). Device (1) according to one of claims 3 to 5, characterized in that the input device (8) is adapted to pass the flow of heated air generated by the blower and heating device (9) to the flow in the sewer part (4) imported stocking (7). Device (1) according to claim 6, characterized in that the input device (8) is provided with an inlet (12) which can be coupled to an outlet line (11) of the blowing and heating device (9). 8. Input device (8) for introducing a flexible stocking (7) into a sewer part (4) and pressing the outside of the stocking (7) against the inside of the sewer part (4), comprising a housing that is comprising - an inlet opening (18) for introducing a flexible sleeve (16) in flat and inverted state, - an outlet opening (19) for carrying out the sleeve 30 (16) in flat and inverted state, and located around that outlet opening (19) extending coupling means (30) for coupling thereto an end of the stocking in opened non-inverted state (17), - fluid transport means (20) for supplying a fluid in the housing under overpressure with respect to the ambient pressure and air-sealing means (23, 24) for sealing the inlet opening (18), characterized in that the air-sealing means are formed by a pair located in the housing from the inlet opening (18) in operating condition on either side of the co us (16) flexible sealing sheets (23, 24) of an airtight material extending to the surface of the sleeve 5 (16) in a flat state, which sealing sheets (23, 24) are air-sealing in the operating condition through the supplied fluid under excess pressure with their respective end be pressed onto the respective surface of the stocking (16). 10 Input device (8) according to claim 8, characterized in that it is provided with a guide track (25) extending between the input opening (18) and the output opening (19) for guiding the sleeve (16) in the flat state . The input device (8) according to claim 9, characterized in that the guide track is formed by a plate (25) of a perforated material. 11. Input device (8) as claimed in any of the claims 8-10, wherein the fluid is air under excess pressure, characterized in that a fan (20) is provided in the housing which is provided with an air inlet extending outside the housing (27). 12. Input device (8) as claimed in any of the claims 8-11, characterized in that the housing is provided with an overpressure protection (26). Input device (8) according to one of claims 8 to 12, characterized in that the housing is provided with an air inlet (12) for the inlet of heated air. An input device (8) as claimed in any one of claims 8 to 13, characterized in that the housing is provided on its outside with at least one guide roller (28, 29) extending along the input opening (18) for guiding a stocking to be entered.