DE3007215A1 - Gas pressure regulator for central heating system - has gas pressure relief valve controlled by hot water demand - Google Patents

Abstract

The regulator maintains a nominal gas pressure to the burner by the action of a pump and valves which are controlled by the back gas pressure due to the jets of the burner, An additional valve regulates this pressure according to the hot water demand. The gas flow rate through the inlet to the outlet is regulated by a valve actuated by a membrane which responds to the gas pressure maintained by a pump. The excursion pf a pressure relief valve and membrane are limited by a spring-cushioned plate. This is linked via a rod to a membrane which responds to the hot water demand.

Description

Gas pressure regulator

Addition to the patent (patent application P 29 09 876.8-52) The present Patent application relates to a gas pressure regulator for a circulating water heater with a utility water heater according to the preamble of the main claim the main claim of the main application.

The main application provides for the regulating membrane from a by means of a screw adjustable spring preload, therefore can through the adjustment the screw is used to set the maximum pressure at the outlet chamber of the gas pressure regulator will.

To the gas pressure regulator according to the older registration in wide development for a circulating water heater with a utility water heater use to be able to and also to different maximum pressure values for heating and domestic water operation to be able to specify by different pressures on the regulating membrane, based on the older registration, a measure in accordance with the identifying part of the main claim proposed.

This achieves an automatic switching of the maximum pressure value, depending on whether the circulating water heater is for heating operation or for domestic water preparation is used. The flow switch sets the flow of water in the tap water path fixed and automatically switches over.

Further refinements and particularly advantageous developments of the invention are based on the subclaims and the following description out, based on the figures one and two of the drawing 'an embodiment the invention explained in more detail.

FIG. 1 shows a schematic representation of the circuit of a Circulation water heater with domestic water preparation and figure two the invention Gas pressure regulator as a schematic detailed illustration.

In both figures, the same reference numerals mean the same in each case Details.

According to Figure one, a circulating water heater 1 is connected to a flow line 2 connected, which leads to a consumer 3, from which in turn a return line 4 leads to the circulating water heater. The consumer 3 here consists of a large number Radiators connected in parallel and / or in series, which are regularly not shown with Thermostatic valves are fitted at their inlet.

The flow line 2 goes from a three-way switch valve 5, one outlet with the flow line 2 and the other outlet with the Utility water heater supply line 6 is connected to a utility water heat exchanger 7 leads, from which a water heater return line 8 goes off, which at a junction 9 with the return line provided with a pump 4 combined to form a heat exchanger acted upon by combustion gases from a burner 10 11 to lead, to which a line 12 connects to the three-way switch valve 5 leads. The burner 10 is a gas burner which is operated via a gas line 13 is connected to a gas pressure regulator 14.

An adjusting rod 15, which is controlled by a membrane switch, leads to the gas pressure regulator 14 16 proceeds from this membrane switch is another control rod 17 from which leads to the three-way switching valve 5. The membrane switch 16 is via a pressure transmission line 18th connected to a flow meter 19, which in the course of a tap line 20 for tap water is located, which leads via a coil 21 inside the water heater 7 and is dominated by a nozzle 22 at its end.

The gas pressure regulator can be seen in detail from FIG. Two: This one The gas pressure regulator has a housing 30 which, in the course of the gas line 13, has an inlet chamber 31 and an outlet chamber 32. Between the inlet and outlet chamber is located a valve seat 33, which is supported by a valve body 35 articulated by a rod 34, which is under the restoring force of a compression spring 36, can be closed in the idle state is, the control rod 34 with a diaphragm plate 37 of a control diaphragm 38 is connected, which is pressure-tight in the housing in the region of the outlet chamber 32 at its edge 30 is clamped. Inlet and outlet chambers are thus in the idle state via the closed Valve 33; 35 separated from each other. The membrane divides another chamber 39, from which a channel 40 leads to a valve center chamber 41. The valve: Lttelraum 41 is limited by 2 valve seats 42 and 43 and an outflow opening 44.

A channel 45 leads from the valve seat 43 to a branch point 46, from which a further channel 47 leads to the outlet chamber 32. Another channel 48 leads to a diaphragm chamber 49, which is provided via a line 50 in which a valve seat 51 is provided is connected to the discharge opening 44. With the valve seat 51 Corresponds to a valve body 52, which is located opposite the housing 30 supporting compression spring 53 is movable and controlled in the open position. The valve body 52 is attached to a membrane 54 which, under the action of a compression spring 55 stands, which is adjustable by an adjusting screw 56, which in turn is in a thread is guided in the housing 30-gastight.

On the side of the membrane 54 facing away from the membrane chamber 49 is another membrane chamber 57 is formed, which has an opening 58 with a further Diaphragm chamber 59 communicates. This membrane chamber 59 is also of the Housing 30 bounded by a membrane 60, which is on the membrane chamber 59 facing away Side forms a further membrane chamber 61 in which a compression spring 62 is mounted which is supported against a spring plate 63. The spring plate 63 is with the control rod 15 rigidly connected, the control rod carries a stop piece 64, which is elastically supported with respect to the housing 30 via a compression spring 65. That Stop piece 64 carries an adjusting screw 66 acting as a stop, the tip of which can move against the top of the housing 30 at the maximum travel, the maximum The travel distance away from the housing 30 is limited by the tip of a further adjusting screw 67, which is screwed into an extension 68 of the housing 30.

The control rod 15 penetrates the wall of the water switch 16 and is connected to a diaphragm plate 69 carried by a diaphragm 70. On both sides of the membrane membrane chambers 71 and 72 are formed, which over the line 18 are connected to the flow meter 19. The flow meter 19 is in itself known as Venturi and is located in Zapfwasserweg 20.

The membrane chamber 61 is connected to the atmosphere via a throttle bore 73 tied together. A valve body 74 is connected to the membrane 60, which is connected to an im Housing 30 arranged valve seat 75 corresponds. The valve seat 75 protrudes a line 76 with the membrane chamber 59 in connection. The valve body 74 is standing under the action of a compression spring 77 which is supported against the housing 30 and tends to lift the valve body 74 from its valve seat 75.

On the other side of the line 76 connects to the valve seat 75 a chamber 78, which has a relatively small cross-section via a bore 79 the membrane chamber 59 and via an air inlet 80 and an air filter 81 connected to the atmosphere. The chamber 78 is connected to the Suction nozzle of a diaphragm pump 83 connected, which via a shaft 84 of a not motor shown is driven. The motor in turn is from an actuator voltage or electrical power can be applied to a specific To ensure drive behavior of the motor. The diaphragm pump has a pressure line 85, which is in communication with the diaphragm chamber 59 via a throttle bore 86.

From the inlet chamber 31 gas passes through a throttle bore 87 in an operator space 88 which is delimited by the valve seat 42. inside the operator room an electromagnet 89 is provided, which via an electrical lead 90 with electrical power can be fed. An armature 91 acts with the electromagnet 89 together, which is extended as a two-armed lever 92 and rotatable at 93 in the housing 30 is stored. he anchor or the lever is under the action of a Tension spring 94 which is fastened at one end to the housing 30. At the free end of the lever 92, a rod 96 is articulated via a pivot point 95, which rod is connected to a valve body 97 is connected, which corresponds to the valve seats 42 and 43.

The gas pressure regulator just described according to Figure two has the following Function: Based on the idle state shown in the drawing, the Valve seat 33 through the valve body 35 under the expansion action of the compression spring 36 closed, that is, the connection between gas inlet and gas outlet is interrupted. The diaphragm pump 83 is at rest, pressure and suction lines 85 respectively 82 have no differential pressure from one another. The valves 97, 42 and 52, 51 and 74, 75 are closed. The electromagnet 89 is de-energized. The gas supply to the burner 10 is interrupted.

If gas is now required at the burner, the line 90 is the Electromagnet 89 energized, whereupon this his armature 91 attracts and the valve body 97 moved from the seat 42 to the seat 43 and this valve seat closes against the action of the return spring 94. Thus the channel is 47 and so that the gas outlet is separated from the chamber 39 in terms of pressure. So now builds up Pressure from the gas inlet via the inlet chamber 31 and the throttle bore 87 is delayed in operator room 88. The valve center space is when the valve 52 is closed, 51 via the channel 40 with the chamber 39 in connection, so that slowly a pressure builds up in this chamber, which leads to the fact that the valve body 35 against the restoring force the compression spring 36 lifts off its valve seat 33. At that moment gas starts from the inlet via the inlet chamber 31 to the outlet chamber 32 and thus via the line 13 to flow to the burner.

The pressure in the chamber 39 is limited by the fact that a dynamic pressure in the outlet chamber 32, caused by the damming effect of the burner nozzles, builds up in the burner. The back pressure acts on the lines 47 and 48 Diaphragm chamber 49 and endeavors to open the diaphragm when it rises above a certain value 54 to move against the restoring force of the spring 55. The pressure threshold at which this movement occurs can be adjusted via the adjusting screw 56. A movement the membrane 54 against the adjusting screw 56 has a lifting of the valve body 52 from Valve seat 51 results in this movement being supported by compression spring 53. the The characteristic of the compression spring 53 is, however, much weaker than that of the compression spring 55. The pressure in the valve center chamber 41 is thus also limited.

The pressure threshold just set is used to set a gas pressure in of the outlet chamber 32 si (to be produced for a perfect ignition in the area of the connected grate burner is necessary. Too little pressure in the outlet chamber 32 causes only partial burning of the gas flames in the grate burner, excessive pressure will cause a deflagration in the fireplace.

If the gas pressure in the outlet chamber 32 is now to rise to a nominal value, so the shaft 84 of the diaphragm pump 83 is acted upon, so that the diaphragm pump 83 begins to promote.

Thus builds up in the diaphragm chamber 59, delayed by the throttle bore 86, a pressure which is also present in the diaphragm chamber 57 via the opening 58. This means that the valve 52, 51 is more or less closed. This here pending pressure is limited by an adjusting movement of the diaphragm 60. If the Pressure in the diaphragm chamber 59 to a value that allows the diaphragm 60 to retract caused against the restoring force of the spring 62, the valve body 74 lifts from its Seat 75 supported by the action of spring 77. This will reduce the pressure in the Membrane chamber 59 limited.

Thus, the level of pressure in the diaphragm chamber 59 is proportional the respective nominal pressure of the gaseous fuel in the burner.

The function of the gas pressure regulator described up to now applies to heating operation. The nominal value that has just been described therefore also applies to heating mode.

If hot water is now requested by opening the nozzle 22, so begins water from the cold water network 20 via the flow switch 19 in the Coil 21 of the utility water heater 7 to flow. The flow switch 19 registers the domestic water throughput and distributes it as a pressure fluctuation the measuring line 18 to the membrane switch 16 with.

Thus, there is an increase in pressure in the diaphragm chamber 71 and a pressure decrease in the diaphragm chamber 72, resulting in a corresponding deflection of the diaphragm 70 against the restoring force of the spring 65 causes. The control rod 15 moves out of the water switch 16 and presses the compression spring 62 together. The squeezing finds its limit, when the stop 66 moves against the top of the housing 30. The rest position is given by the fact that the stop piece 64 is under the restoring action of the peder 65 moves against the free end of the adjusting screw 67.

By moving the adjusting screw 67, the nominal value for the Gas pressure assigned for heating operation by adjusting the adjusting screw 66 This means that a higher pressure value than the pressure value for heating operation can be achieved when tapping domestic water can be specified. Both pressure values are kept constant via the membrane 60. -The motor of the diaphragm pump is, as already described, controllable. So the higher the delivery pressure of the diaphragm pump 89, the higher the pressure iR brankkammer 59.

The greater the pressure iat there, the greater the closing force of the Valve 52, 51. The more this valve is closed becomes, the greater is via the operator room 88 or via the print path 47, 48, 50, 44, 40 the pressure that builds up in the chamber 39 and the one increasing Gas pressure in the outlet chamber 32 results.

If the burner is to be shut down, the application of the Diaphragm pump 83 interrupted. This means that the diaphragm chamber 57 is depressurized, since the pressure difference between the suction and pressure ports of the diaphragm pump is via the Throttle bore 79 is reduced. This requires opening the valve 52, 51, the Pressure in the gas outlet chamber 32 is reduced via the channel 40, that is, it stands only the pre-pressure from the inlet chamber 31 via the bore 87 is slightly relieved via the raised valve body 97, in the chamber 39, so that under the restoring force the spring 36 of the valve body 35 is pushed very close to its seat 33. Thus, only the over-ignition gas flow is still present in the outlet chamber 32, which is also interrupted can be if you interrupt the power supply on line 90, because then the valve body 97 moves away from its seat 43 under the restoring action of the spring 94 is pressed onto the seat 42. The chamber 39 is now relieved of pressure.

Claims (2)

Claims 1. Gas pressure regulator for a circulating water heater with a Utility water heater with a spring-resettable one arranged in a housing The valve body dominated the valve seat, the valve body with an operating diaphragm exposed to the gas pressure behind the valve in the outlet chamber is, and with a regulating diaphragm, on the one hand the gas pressure behind the valve is exposed, and with a flui, d-pump, the side facing away from the gas The operating diaphragm is only acted upon by the pressure of the fluid pump and this pressure of limited by a valve coupled to the regulating diaphragm loaded by a spring is after Patent (patent application P 29 09 876.8-52), characterized in that that a support member (69) for the spring (62) with an adjusting rod (15) of a flow meter (19, 16) is connected to a tap water path (20, 21, 22) of the water heater (7) is assigned. 2. Gas pressure regulator according to claim 1, characterized in that the Control rod (15) is provided with a stop piece (64) which can be adjusted between 2 Attacks (66, 67) is movably mounted.