FR2694622A1 - Boiler water level detectors operation monitoring - using tube with escape valve to enclose detector and facilitate temporary local rise in water level - Google Patents

Abstract

The monitoring equipment (4) comprises a long tube (5) which extends from the boiler surface (1) into the water (A) where an orifice (10) allows water entry. The tube (5) completely encloses the detector (6) except for its connection terminals. The top of the tube (5) which is outside the boiler has a lid (7) with an outlet pipe (8) controlled by a valve (9). Brief operation of the outlet valve (9) causes steam pressure to raise the local water level within the tube (5) thus testing the detector (6). a relief orifice (11) returns the water level to normal. ADVANTAGE - Upper water level detectors in boilers may be tested without raising general water level.

Description

Method and device for controlling, in service, the operation of
water level detectors, especially in a steam boiler.

 The present invention relates to a method for controlling, in service, the operation of water level detectors, as well as to a device for controlling water level detectors. In addition to water level detectors with electrodes, infrared or ultrasound, the expression "water level detectors" also designates mechanical float devices.

 For safety reasons, it is prescribed to regularly check the water level detectors of one. steam boiler. Depending on their use, the water level detectors are arranged either permanently in the water tank of a steam boiler (for example the minimum water level detector), or permanently outside this tank (for example the maximum water level detector).

 In EP-A-0 441 999, a device is described, making it possible to monitor the water level of a boiler, in the housing of which three water level detectors are arranged and by means of which, for the purpose of monitoring of the two water level electrodes arranged inside the water tank, water is evacuated by a rejection pipe placed inside the housing of the device and plunging into the water tank, so the water level drops briefly inside the device housing and the two water level detectors are released. However, this process does not allow the water level to rise inside the device housing, so that the operation of the third water level detector (maximum water level detector) cannot be checked. .

 The object of the present invention is to provide a method for controlling the operation of water level detectors, in particular maximum water level detectors, according to which the control can be carried out without raising the normal water level. of the boiler.

 To this end, the invention relates to a method for controlling, in service, the operation of water level detectors, in particular maximum water level detectors of an overpressure steam boiler, characterized in that that by allowing water vapor to escape from the housing of a control device, a vacuum is created inside this housing, which is at the pressure of the boiler the effect of raising the water level in the housing of the control device relative to the water level in the rest of the boiler, which places or moves (for example in the case of a float) the water level underwater. It is therefore sufficient to let water vapor escape, through a rejection pipe, out of the housing of the control device which is at the pressure of the boiler, so that, under the effect of the vacuum which As a result, the water level rises inside the housing relative to the boiler and a check of the maximum water level detector can take place. The method according to the invention can be implemented using very simple structural means. Thus, for example, without difficulty, it is possible to adapt the devices of the prior art of the type indicated in the preamble after the fact by additionally mounting a rejection pipe therein. The invention has the additional advantage of being able to be used not only for electrode, infrared or ultrasonic water level control devices, but also for conventional mechanical float devices.

 At the end of the control, that is to say of the water vapor exhaust operation, a pressure balance is established between the interior of the control device and the steam boiler. While checking the maximum water level electrode, the water level in the boiler cavity remains practically unchanged.

 The invention also relates to a device for controlling, in service, water level detectors, in particular maximum water level detectors of a steam boiler installation, according to the method described above, comprising a housing, at least one detector, arranged in the housing and sensitive to the presence of water, a water inlet orifice and a rejection pipe arranged so that it can be closed, the housing plunging at least partly into the water tank of a steam boiler.

 The object of the invention is to improve such a device so that, using the simplest structural means possible, it is possible to carry out an effective control of maximum water level detectors without having to raise this level of water in the boiler.

 According to the invention, this object is achieved by the fact that the discharge pipe is located above the surface of the water while the boiler is in operation and by the fact that, to control the operating capacity of the detector by opening the discharge pipe, water vapor is discharged from the discharge pipe, so that a vacuum is established in the device housing which causes the water level to rise inside the device, the sensor immersed in water or moving upwards (in the case of a float), while the water level in the remaining part of the boiler remains practically invariable.

 The device according to the invention gives the assurance that with the aid of particularly simple structural means, it is possible to carry out an effective control of maximum water level detectors of the most diverse types. It is possible to adapt the existing control devices in a simple way after the fact. The costs of such an adaptation after the fact are very low, given that ultimately, only the installation of an additional rejection pipe is necessary, comprising a stop valve or the like.

Advantageously, a valve is mounted in the rejection pipe, this valve preferably being arranged so that it can be adjusted manually or automatically. The water level detector is checked using a single valve actuation by an attendant or it is automated. The actuation of the valve immediately raises the water level inside the housing of the control device, so that the control of the detector concerned takes place in particular very quickly.
As far as the construction technique is concerned, it is advantageous that the rejection pipe is placed in the cover of the housing, since, in any case, passages are already provided at this location for the detector (s) concerned.

 In order for an effective level balance to occur after the maximum water level detector has been checked, at least one orifice for the passage of water vapor is provided above the submerged part of the device.

 In addition, the device according to the invention may preferably be mounted in the form of a fully equipped unit and arranged so that it can be adapted after the fact.

A particular embodiment of the invention is described below in detail with reference to the figures of the drawings. We see
in FIG. 1, the control device according to the invention in the normal state,
in FIG. 2, this control device of FIG. 1 during the control operation and,
in Figure 3, another embodiment of the control device according to the invention in the case of the use of a float.

 In Figure I, the reference 1 designates a partial section of a boiler, for example a steam boiler, which contains a water reserve 2 above the water level A of which there is steam d water 3.

 At a determined location, the boiler I is crossed by a device 4, namely a control device, the lower end of which dips into the water reserve 2.

 The control device 4 comprises an elongated tubular casing 5 which ends in a point at its lower end and has in its center an orifice 10 allowing water to pass from the cavity of the boiler inside the control device and vice versa.

 Inside the housing 5 of the control device 4, there is disposed a maximum water level detector 6, for example of the electrode type, which has the role, under the effect of its coming into contact with the water when crossing a given water level upwards, to send an electrical signal to a monitoring unit not shown. During normal boiler operation, the maximum water level detector 6 is located above the water reserve, i.e. in the volume filled with water vapor 3.

 In the lateral part of the housing 5 of the control device 4, there is an orifice 11 which must allow water vapor to pass from the cavity of the boiler inside the housing 5 of the control device 4 and vice versa.

A cover 7 is arranged at the upper part of the housing 5, this cover 7, which carries the maximum water level detector 6, being arranged so that it can be assembled in leaktight manner to the housing 5. It is further provided in the cover 7 a rejection pipe 8, the lower end of which dips into the zone of the housing 5 and is located in the volume which is filled with water vapor
A shut-off valve 9 with manual operation is mounted on the rejection pipe 8.

The operation of the control device 5 is described below in detail
FIG. 1 illustrates the normal state in which the boiler 1 is in service and in which there is the same water level A both inside the boiler 1 and inside the housing 5 of the control device 4.

 The maximum water level detector 6, in this case an electrode type detector, is located in the interior volume of the housing 5 where there is no water and which is filled with water vapor 3 .

 To check whether the maximum water level detector 6 is in good condition, the shut-off valve 9 is briefly opened, so that water vapor which is located inside the housing 5 of the control device 4 and which is under pressure can escape, which produces, inside the housing 5, a depression U. which has the effect of raising the free surface of the water, inside the housing 5 of the control device 4, from level A to level B, shown in FIG. 2, for which the measuring tip of the maximum water level detector 6 is already submerged in water, so that an appropriate signal is emitted if the maximum water level detector 6 works properly. Then, that is to say once the operation of exhausting the water vapor from the housing 5 is complete, the stop valve 9 being again closed, a balance is again gradually established between the two levels A and B through the through orifices 10 and 11.

 The level variation inside the housing 5 of the control device 4 causes a volume variation so small that there is no appreciable modification of the level A in the boiler 1.

 FIG. 3 represents a control device which is used to check the maximum water level in the boiler 1 when a maximum water level detector 6 in the form of a float 12 is used in the latter. The level detector d 'maximum water 6 then cooperates, depending on the position of the float, with two magnetic switches 13 and 14 arranged at the top of the control device. The lowest 14 of the magnetic switches 13 and 14 is constituted by a permanent magnet.

 The invention provides a method and a device which make it possible, using very simple structural means, but in an extremely efficient manner, to carry out an effective control of what is known as level detectors. maximum water of any type while a boiler is in operation, without having to raise the water level in the boiler itself.

The invention therefore constitutes a significant enrichment of the technical field considered.

Claims (9)

 1. A method for controlling, in service, the operation of water level detectors, in particular maximum water level detectors of an overpressure steam boiler, characterized in that by letting escape from the water vapor from the housing of a control device, there is established, inside this housing, which is at the pressure of the boiler, a vacuum which has the effect of raising the level of water in the control device housing relative to the water level in the rest of the boiler.  2. Method according to claim 1, characterized in that at the end of the steam exhaust operation, a pressure balance is established between the interior of the housing of the control device and the boiler steamed.  3. Device making it possible to control, in service, water level detectors, in particular maximum water level detectors of a steam boiler installation, according to the method according to claim 1 or 2, comprising a housing , at least one detector, arranged in the housing and sensitive to the presence of water, a water inlet orifice and a rejection pipe arranged so that it can be closed, the housing plunging at least partially into the reserve of water from a steam boiler, characterized in that the discharge pipe (8) is located above the free surface of the water while the boiler (1) is in operation and in that, to control the operating capacity of the detector by opening the rejection pipe (8), water vapor (3) is discharged through the rejection pipe (8), so that it becomes established in the housing (5) of the device (4), a depression which causes a rise in the water level inside the device.  4. Device according to claim 3, characterized in that a valve (9) is mounted in the rejection pipe (8).  5. Device according to claim 4, characterized in that the valve (9) is arranged so that it can be adjusted, in particular in a manual manner.  6. Device according to claim 4, characterized in that the valve (9) is arranged so that it can be adjusted in an automated manner.  7. Device according to one of claims 3 to 6, characterized in that the rejection pipe (8) is disposed in the cover (7) of the housing (5).  8. Device according to one of claims 3 to 7, characterized in that there is provided at least one orifice (11) for the passage of water vapor, above the submerged part of the device (4).  9. Device according to one of claims 3 to 8, characterized in that it is produced in the form of a completely assembled unit allowing adaptation after the fact.