NL8501614A - CONDENSATE DRAINAGE DEVICE FOR A COMBUSTION EQUIPMENT. - Google Patents

Description

85309 VA / IRM i

Short designation: Condensate drain device for a fiber-burning device.

In water-exchange devices and furnaces with a high energy efficiency, the off-gases from the combustion are placed in an exchange of heat with water or with air to remove heat from the combustion gases. The cooling of the combustion gases by heat exchange has the consequence that considerable amounts of condensate are formed and it is necessary to discharge the condensate without allowing the combustion gases to escape into the adjacent building.

In the past, different types of condensate discharge devices have been used in stationary or compressed air systems to allow the discharge of the condensate while preventing the escape of gas. In the past, a form of condensate drain device consisted of an S-slot. Although farms of this type operate to discharge condensate, emitting the gas into the environment, there is a tendency for foreign materials or contaminants to collect in the lock and finally clog the conduit and enable proper operation.

Other types of condensate drains are elaborate structures, which require numerous moving parts that can be subject to corrosion from contaminants in the waste gas.

The invention relates to an improved condensate discharge device for a combustion device, which automatically discharges condensate from the combustion system, while avoiding the escape of gaseous combustion products to the environment.

According to the invention, the device comprises a housing, with an inlet in its upper end which is connected to the lower end of the combustion system or the combustion pipe. An outlet tube is aligned in an opening in the bottom end of the housing with the inlet disposed, and the top end of the tube projects upwardly from the bottom surface of the housing to provide a seat. A hollow plastic ball is placed on the seat, which prevents the outflow of gas through the exhaust.

The condensate created by the cooling of the combustion gases in the combustion system will flow through the inlet into the housing 35 and when the condensate has collected to a height above the seat the ball will float to allow the condensate to flow out while preventing the emission of dressing waste gases.

35 Ü1514 - 2 - 9 i · * «*>

The condensate drain device of the invention is of simple and inexpensive construction which has only one moving part which is the float ball, while no adjustment is required for its operation.

The housing, the exhaust tube and the ball are preferably formed from a plastic material, so that the entire unit is non-corrosive.

The space between the top end of the exhaust tube and the bottom end of the housing defines a bag in which debris collects, thereby avoiding the debris from collecting on the valve seat and ensuring that the ball valve seals properly on the seat.

Due to the design of the unit, the ball is self-centering, and after the outflow of the collected condensate, the ball will automatically reposition itself at the top of the exhaust pipe.

The invention will now be further elucidated with reference to the accompanying drawing of a preferred embodiment.

FIG. 1 is a vertical sectional view of the condensate drain in the direction of the invention, such as in conjunction with a combustion system; and

Fig. 2 is a section on line 2-2 in FIG. 1.

The drawing shows a condensate discharge device which is lowered with a pipe 2 containing combustion waste gases. The pipe 2 can be in the form of a combustion chamber, heat exchanger, flue pipe or the like, through which the combustion waste gases are led to the atmosphere.

A nipple 3 connects the lower end of the pipe 2 to the device 1 and the condensate, which has been created by the cooling of the waste gases in the pipe 2, will flow through the nipple 3 in the device 1.

The drain device 1 comprises a cup-shaped housing 4 with an open end, which is enclosed by a plug 5 which is adhered to the end of the housing with an adhesive or the like. The step 5 is provided with a threaded opening 6 which receives the lower end of the nipple 3.

A substantially L-shaped outlet tube 7 is mounted in an opening in the bottom end of the housing 4. The inner end of the tube 7 extends a considerable distance above the bottom surface 8 of the housing 4 and defines a seat 9. A spherical float 10 normally rests on the seat 9 and prevents the discharge of gases from the housing 1 to the outside . The ball 10 is hollow and preferably formed from a plastic material, which has a specific gravity of less than 1.0, so that the ball will float on the condensate when the condensate is collected in the housing 4, so that the 8501614 - 3 - ** Open the seat 9 and allow condensate to drain through the exhaust pipe. In practice, the ball has a specific gravity such that it will float to open the valve seat when the condensate has collected to a height of about 6.35 irm (1/4 inch) above the seat 9 .

The space between the seat 9 and the bottom end of the housing 4 defines a reservoir or bag 11 and the contaminants present in the condensate will be collected in the bag 11 and will therefore not end up on the seat 9 to disturb the correct sealing of the 10 the ball on the seat.

All parts of the discharge device, including the housing 4, the exhaust pipe 7, the ball 10 and the step 5 are preferably formed from plastic material, so that the entire unit is not corrosive. The device has a simple and inexpensive construction, as it is operated by gravity, and includes only one moving part, which is the spherical float or ball. Furthermore, the device transmitter adjustment can work.

The hollow plastic ball, which is lightweight, provides an improved response to collected condensate.

The aligned construction of the inlet and outlet 20 facilitates the plasticization, and the condensate entering the housing through the nipple 3 tends to flush and rotate the ball, thereby cleaning the ball and removing contamination to ensure the correct sealing of the ball on the seat 9.

As a further advantage, the incoming condensate is deflected outwardly by the ball and directed to the bag 11, causing some agitation of the condensate in the bag. Stirring the condensate results in some of the contaminants contained in the bag being suspended in the liquid and discharged through the exhaust tube. 8501614

Claims (9)

0 + -Ί- OCNCLÜSIES 1. Condensate discharge device for a combustion device, characterized by a housing provided with an inlet, which is just connected to a pipe containing combustion waste gases, a tubular member arranged in an opening in the bottom end of the housing, the inner end of the tubular member protrudes above the lower end of the housing and defines an outlet, and a spherical float disposed in the housing and is intended to seal the outlet to avoid flow through the outlet, thereby cooling the air combustion gases condensate flows from the pipe into the house and the collection of condensate above the height of the exhaust causes the spherical float of the exhaust to float in order to allow the discharge of condensate while the discharge of gas through the exhaust is avoided. Device according to claim 1, characterized in that the spherical float is a hollow plastic member with a specific gravity of less than 1.0. 3. Device according to claim 1, characterized in that the inlet is in the top end of the housing and is aligned axially with the outlet. Device according to claim 1, characterized in that the outlet has a smaller diameter than the spherical float. 5. Device according to claim 1, characterized in that the housing is shaped in shape and has a substantially cylindrical wall, and has a bottom surface and an open end, wherein a plug is mounted in the upper end of the housing, while the inlet is fitted in the plug. 6. Device according to claim 5, characterized in that the diameter of the cylindrical wall is slightly larger than the diameter of the spherical float, so that the float will automatically seal on the outlet when the condensate has passed through the outlet. run away. 7. Combustion system, characterized by a conduit for conducting combustion waste gases which has a drain opening in a lower part thereof, a housing with an inlet in its upper end which communicates with the drainage opening, which housing in the lower end thereof aperture, an aperture tube disposed in this aperture aligned with the inlet, the top end of the exhaust tube protruding upwardly from the bottom of the housing to provide a seat, while the space between the seat and the bottom of the housing defines a bag, and a spherical float is arranged in the housing intended to seal the seat to prevent 8501614 ~ f-the discharge of gas through the exhaust pipe, thereby cooling the the waste gases in the pipe create condensate that flows through the drain pin to the house, while collecting condensate above the height of the seat It follows that the spherical float rises from the seat to allow the condensate to drain through the exhaust tube while preventing the discharge of gas through the exhaust tube. System according to claim 7, characterized in that the float is aligned under the inlet, so that the condensate entering the inlet will strike the float and be bent outwards towards the bag. 9 i i 850 1 δ 1 4