CA2864296A1

CA2864296A1 - Flow control for a continuous-flow water heater

Info

Publication number: CA2864296A1
Application number: CA2864296A
Authority: CA
Inventors: Peter Albrecht
Original assignee: Mertik Maxitrol GmbH and Co KG
Current assignee: Maxitrol GmbH and Co KG
Priority date: 2012-02-28
Filing date: 2013-02-21
Publication date: 2013-09-06
Also published as: HK1201909A1; WO2013127503A2; DE102012003912B3; SI2820359T1; ES2564153T3; RU2617034C2; RU2014136224A; PL2820359T3; US20150090197A1; EP2820359A2; WO2013127503A3; CN104145165A; CN104145165B; EP2820359B1

Abstract

The aim of the invention is to devise a flow control for a continuous-flow water heater, which is used to control the flow of gas to a burner of a heat exchanger as a function of the passage of water, in which only one operating element has to be actuated. Because of the reduction in the apertures through the housing wall of the flow control, at the same time the risk leaks occurring is reduced. Furthermore, the expenditure in manufacturing is to be minimized. To this end, in addition to the operating element (8), a switching element (9) is rotatably mounted on a spindle (7) projecting from the water-carrying housing (5), wherein a rotary movement of the operating element (8) can be transmitted via drivers (10; 11) to the switching element (9), which also has a switching contour (13) by means of which a fixedly arranged microswitch (14) can be actuated, by means of which an electronic ignition and monitoring device (3) can be electrically actuated, by means of which gas flow to the burner can be shut off.

Description

Mertik Maxitrol GmbH & Co KG

Description Flow control for a continuous-flow water heater Technical field of the invention The invention relates to a flow control for a continuous-flow water heater according to the preamble of the first claim.
Prior art Flow controls of this type for continuous-flow water heaters are available in a very wide range of designs. They serve to control the gas flow rate to a burner of a heat exchanger as a function of the passage of water.
For example, a gas valve for a burner-heated water heater with a main gas valve on the inlet side connected to a flow meter is described in DE 198 25 046 Al, a German patent application open to public inspection. A water deficiency valve, which is connected to the flow meter, is located downstream of the main gas valve.
A thermostatically controlled valve connected to an evaluation circuit is in turn lo-cated downstream of the water deficiency valve. When the water heater is in op-eration, both the water flow rate and the temperature of the hot water flowing off can be set by means of two operating elements.
A gas-heated continuous-flow water heater with a heat exchanger heated by a burner is known from EP 1 170 549 A2. A water valve in a water switch is located upstream of the heat exchanger and gas valves, one of which is controlled by a water switch and another by a gas pressure-controlled servo valve, are located upstream of the heat exchanger on the gas side. Whereas an adjusting valve downstream of the gas valve on the gas side is actuated by a first handle and the gas valve is controlled by the servo valve, the water valve can be actuated by a second handle.

Mertik Maxitrol GmbH & Co KG CA 02864296 2014-08-12 , A gas-heated continuous-flow water heater, which is described in DE 100 30 118 = Al, a patent application open to public inspection, has a similar structure. This de-vice also has two handles for operating the continuous-flow water heater.
A water heater, which has two operating elements, in this embodiment a control button and an ignition button, is also described in the Austrian patent specification, = AT 406 611 B.
A disadvantage common to these flow controls is that in order to switch the con-lo tinuous-flow water heater on and off or to set the required operating parameters, such as water temperature and water quantity, two separate operating elements are required for which corresponding apertures in the outer wall of the flow control must be made and therefore sealed as well of course. Furthermore, this makes the structure of the device and its operation by the user more complicated.
Summary of the invention The invention addresses the problem of ensuring that a flow control for a continu-ous-flow water heater according to the preamble of the first claim can be operated easily and in a user-friendly manner by reducing to just one the number of operat-ing elements that need be actuated. At the same time, the risk of leaks occurring is reduced because of the reduction in the number of apertures through the housing wall of the flow control. Furthermore, manufacturing costs are to be minimised.
= 25 The problem is solved according to the invention in that, in addition to the operat-ing element, a switching element is rotatably mounted on the spindle projecting from the water-carrying housing, wherein a rotary movement of the operating ele-ment can be transmitted to the switching element by means of a driver. This switching element has in addition a switching contour by means of which a fixedly arranged microswitch can be actuated. An electronic ignition and monitoring de-vice by means of which the gas flow to the burner can be shut off by means of an Mertik Maxitrol GmbH & Co KG

electrically actuated valve can be electrically actuated by means of this mi-croswitch.
A solution was therefore found which eliminated the disadvantages in the prior art referred to above. The manual activation of only a single operating element makes it possible to manually shut down and start up the continuous-flow water heater as well as to adjust the water flow rate to a preset value corresponding to the supply conditions, or to manually compensate for fluctuations in the cold water tempera-ture.
Advantageous embodiments of the invention are set out in the dependent claims.
An advantageous embodiment of the flow control for reducing manufacturing costs even further has proved to be a flow control in which the valve serving to shut off the gas flow by means of the operating element is formed by the servo valve form-ing part of the electronic ignition and monitoring device.
The rotary movement of the operating element can be transmitted simply and =
safely to the switching element by forming the driver by one or a plurality of ribs located on the operating element and projecting into slots located on the switching element.
In order to ensure operating element and switching element are securely fixed in a longitudinal direction it is advantageous if the switching element is connected to the operating element by locking hooks.
Execution example The flow control according to the invention for a continuous-flow water heater is explained below in more detail by means of an execution example with the aid of diagrams which show:

t =
Mertik Maxitrol GmbH & Co KG CA 02864296 2014-08-12 =. , Fig. 1 an embodiment of a flow control for a continuous-flow water heater in the switched off state, Fig. 2 a view A of the flow control for a continuous-flow water heater from Fig.1 in the switched off state, Fig. 3 a view B of the flow control for a continuous-flow water heater from Fig.2 in the switched on state, Fig. 4 a view C of the flow control for a continuous-flow water heater from Fig.3 in the switched on state.
The exemplary flow control according to the invention for a continuous-flow water heater shown in the diagrams serves to control the gas flow rate to a burner of a heat exchanger (not illustrated) as a function of the passage of water. In this exe-cution example the burner comprises a pilot burner (not illustrated) and a main burner (also not illustrated).
The flow control comprises:
= = a water part 1 controlling the passage of water to the heat exchanger, = a gas part 2 controlling the gas flow to the burner as a function of the passage of water, = an electronic ignition and monitoring device 3.
A regulating valve and a main valve are housed in the gas part 2 in addition to other components which are known to a person skilled in the art and are therefore not explained in more detail here. The main valve is actuated by an electronic igni-tion and monitoring device 3, also known as a so-called automatic firing device, which is connected to the gas part 2 and is also known to a person skilled in the ' art.
The regulating valve is actuated by a transmission 4 which transmits the move-ment as a function of the passage of water of a water membrane located in the water part 1 from the interior of the water-carrying housing 5 to the exterior and Mertik Maxitrol GmbH & Co KG

then from there into the gas-carrying housing 6 of the gas part 2 to the regulating valve.
In addition, a Venturi nozzle and a pre-setting element, which enables the water flow rate to be set to a preset value corresponding to the supply conditions, are 5 also located in the water-carrying housing 6, in addition to other components which are known to a person skilled in the art and are therefore not explained in more detail either. This pre-setting element serves at the same time as a tempera-ture corrector, i.e. it enables fluctuations in the cold water temperature to be manually compensated.
To enable manual actuation a spindle 7, which is connected to the pre-setting element and to which an operating element 8 is attached, projects from the water-carrying housing 5. In addition to the operating element 8 a switching element 9 is rotatably mounted on the spindle 7 projecting from the water-carrying housing 5, wherein a rotary movement of the operating element 8 can be transmitted by a driver to the switching element 9.
In this execution example the driver is advantageously formed by a plurality of ax-ial ribs 10 which are located on the operating element 8 and extend into axial slots 11 assigned to them and located on the switching element 9. In order to addition-ally ensure the switching element 9 is fixed in the longitudinal direction of the spin-dle 7, operating element 8 and switching element 9 have locking hooks 12 facing each other which ensure a reliable connection.
The switching element 9 has in addition a switching contour 13 by means of which a microswitch 14 fixedly arranged on the gas-carrying housing 6 in this execution example can be actuated. The microswitch 14 is electrically connected to the elec-tronic ignition and monitoring device 3.
The flow control for a continuous-flow water heater illustrated in the diagrams has the following mode of operation:

; Mertik Maxitrol GmbH & Co KG CA 02864296 2014-08-12 = 6 Figs 1 and 2 show an embodiment of a flow control according to the invention for a 6 continuous-flow water heater in the switched off state. The operating element 8 is :
in the off-position. In this position the switching element 9 has been turned until the switching contour 13 has exposed the button 15 of the microswitch 14. The gas s supply to the burner is thereby shut off by means of the electronic ignition and monitoring device 3 and the continuous-flow water heater remains switched off whether or not water is drawn off from a water tap downstream of the continuous-flow water heater.
io In order to switch on the flow control the operating element 8 must be turned until it is in the possible setting range for adjusting the water flow rate or for manually compensating for fluctuations in the cold water temperature, as shown for example in Figs. 3 and 4.
is As soon as water is then drawn from a downstream water tap, the gas inlet to the burner of the heat exchanger is opened by means of the electronic ignition and = monitoring device 3 and the gas is ignited. The burner remains in operation until , no more water is drawn off. However, the continuous-flow water heater remains ready for operation and can be re-started when water is drawn off again.
In order to switch off the continuous-flow water heater manually the operating ele-ment is moved into the off-position through the possible setting range for setting the water flow rate, as shown in Figs. 1 and 2. As already explained in more detail above, the gas supply to the burner is thereby shut off whether or not water is = 25 drawn off.
. The flow control according to the invention for a continuous-flow water heater is = not of course restricted to the execution example depicted. On the contrary, modi-fications, variations and combinations can be made without departing from the =
scope of the invention.

Mertik Maxitrol GmbH & Co KG

In order to prevent the off-position being inadvertently set when the required water flow rate is to be set or when fluctuations in the cold water temperature are to be manually compensated, it has, for example, proved to be advantageous if the off-position cannot be reached until a detent is overcome which indicates the end of the setting range but beyond which the operating element can be turned.

= Mertik Maxitrol GmbH & Co KG CA 02864296 2014-08-12 . -=

List of reference numerals 1 Water part = 2 Gas part 3 Ignition and monitoring device 4 Transmission 5 Water-carrying housing = 6 Gas-carrying housing = 7 Spindle = 8 Operating element 9 Switching element Rib 11 Slot 12 Locking hooks 13 Switching contour 14 Microswitch Button

Claims

1. Flow control for a continuous-flow water heater, comprising a water part (1) controlling the passage of water to a heat exchanger wherein the quantity of water can be manually set by an operating element (8) attached to a spindle (7) projecting from the water-carrying housing (5), a gas part (2) with an elec-tronic ignition and monitoring device (3) controlling the gas flow as a function of the passage of water to an atmospheric burner, and a mechanical trans-mission which transmits, as a function of the passage of water and, prefera-bly in each case by means of a Venturi nozzle housed in the water-carrying housing and a membrane, a steering movement initially from the interior of the water-carrying housing (5) to the exterior and then from there into the gas-carrying housing (6) to a valve controlling the amount of gas, character-ised in that a switching element (9) is rotatably mounted on the spindle (7), wherein a rotary movement of the operating element (8) can be transmitted by driver (10;11) to the switching element (9), and that the switching element (9) has a switching contour (13), by means of which a fixedly arranged mi-croswitch (14) can be actuated which shuts off the gas flow to the burner by means of the electronic ignition and monitoring device (3) and an electrically actuatable valve.

2. Flow control for a continuous-flow water heater according to claim 1, charac-terised in that the electrically actuatable valve is formed by the servo valve of the electronic ignition and monitoring device (3).

3. Flow control for a continuous-flow water heater according to claim 1 or 2, characterised in that the driver (10;11) is formed by one or a plurality of ribs (10) located on the operating element (8) and projecting into slots (11) lo-cated on the switching element (9).

4. Flow control for a continuous-flow water heater according to one or several of the claims 1 to 3, characterised in that the switching element (9) is con-nected to the operating element (8) by locking hooks (12).