NL1019897C2 - Heating system for heating a room, as well as a heater and a time switch. - Google Patents

Description

Title: Heating system for heating a room, as well as a heater and a time switch.

The invention relates to a heating system for heating a room, wherein the system comprises a flue-gas-free stove, the stove being provided with operating means for operating the stove. Japanese patent application JP 61 09 0986 shows such a heating system, wherein the operating means of the stove is designed to operate the stove manually. Furthermore, the heater is provided with a safety system to automatically bring the operating means into an operating condition in which the heater is deactivated. This safety system is arranged to come into operation when the stove is subject to certain vibrations, for example during an earthquake, or when the ambient temperature of the stove rises above a certain value.

The advantage of this heating system is that the stove is a flue-gas-free stove. Such a heater is very efficient in use because almost all the heat produced by the heater, including hot flue gases, can be supplied to the room by the heater. This heater can moreover bring about a relatively fast heating of the space, because the heater can produce a relatively large amount of heat. Furthermore, the stove can be of relatively compact design, which saves space. Since no special flue gas outlet, such as a chimney, needs to be arranged in the room to be heated for this stove, this heating system can easily be placed in a room.

A disadvantage of this heating system is that each time a user himself has to bring the operating means of the heater into a specific operating condition in order to operate the heater, at least during normal use. This makes the use of the heating system labor-intensive and time-consuming. For example, it may be desirable to keep the heater in an activated state only for a certain period of time to heat the room. In that case, at the end of that period, a user must adjust the operating condition of the operating means of the heater to deactivate the heater. An additional disadvantage is that you can simply forget to deactivate the heater. This is particularly harmful to the environment and costs an unnecessarily large amount of money in connection with the amount of fuel that the stove 10 continues to consume.

It is an object of the invention to eliminate the disadvantages of the heating system while maintaining the advantages thereof. In particular, the invention contemplates a heating system in which a certain operation of the stove can take place at least one desired moment without a user having to change the operating condition of the operating means of the stove for this purpose.

To this end, the heating system according to the invention is characterized in that the system is provided with an adjustable time switch, wherein the operating means and the time switch are adapted to cooperate, such that the time switch can set the operating means from a first to a second operating state to a first switching moment set to that clock.

The stove can be operated in this way at a desired moment, without a user having to perform certain actions for that purpose at that moment. For example, he can easily set the first switching time himself on the timer so that the timer can take over the operation of the heater from him. The switching moment may also have already been set, for example by a supplier of the time switch. The operating means can for instance be arranged around the heater at the first and second respectively. h 3 to keep the operating state in an active or inactive state, or vice-versa. If it is desired to deactivate the heater at a certain moment, that moment can be set on the timer as a switching moment. Subsequently, the timer can deactivate the heater at the switching moment by said cooperation with the operating means of the heater. This will prevent the heater from being forgotten.

The operating means of the heater and the time switch are preferably adapted to cooperate so that the time switch can set the operating means of the second in the first operating state to a second switching moment set to that clock.

As a result, the operating means can also be returned from the second to the first operating state without a user having to perform certain operating operations for this purpose.

Therefore, an operating cycle, comprising moving the operating means from the first to the second operating state and vice-versa, can be performed fully automatically.

According to a further elaboration of the invention, the operating means of the stove are provided with a blocking system which is adapted to block cooperation of the operating means with the time switch, such that the heater can be operated independently of the time switch.

The blocking system makes it possible for a user to take control of the heater from the switch clock, for instance to change the operating state of the operating means at a desired moment. This may be particularly desirable if, for example, the timer is no longer functioning properly and / or is set to an incorrect time.

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According to a very advantageous elaboration of the invention, the timer and the operating means of the stove are adapted to cooperate with each other at a distance from each other.

As a result, the timer can, for example, be placed in a position that is relatively easy to reach for a user 5 in or outside the space to be heated, while the stove can be placed in a relatively difficult position in that space. For example, the time switch can be attached to a wall of the room at a user height of a user of the room, such as a standing, sitting or lying height. Thus, the clock 10 can be reached without much effort for the purpose of setting the clock. The heater is preferably placed at a relatively low position in the room in order to be able to effect a rapid heating of the room. This position can be difficult for the user to reach, in particular when access to that position is blocked by, for example, furniture or the like.

It is advantageous that, when the time switch and the control means are arranged to cooperate with each other by means of a control signal, the system is provided with a communication connection for transmitting said control signal over a distance between the time switch and the electronic control of the heater. to give.

In this way the timer and the heater can easily be placed at a distance from each other. The communication connection can for instance be established by radiographic and / or infrared remote control means. Furthermore, the system may be provided with electrically conductive cabling to establish said communication connection, the control signal comprising an electric signal. The cabling is a relatively inexpensive version of the communication connection. Use of an electric control signal is moreover advantageous with respect to, for example, another signal, such as an optical, radiographic signal; 3 '>; 5 or acoustic control signal, since it is relatively insensitive to disturbances and can be generated and processed with relatively cheap means.

The invention further provides a heater characterized by the features of claim 14, as well as a time switch characterized by the features of claim 15.

With this heater and time switch the heating system according to the invention can be constructed in a simple manner.

Further elaborations of the invention are described in the subclaims.

The invention will be further elucidated with reference to an exemplary embodiment and the drawing. Therein: figure 1 shows a schematic, partially cut-away exemplary embodiment of the invention.

Figure 1 shows a heating system for heating a room. The system comprises a flue-gas-free stove 1, an electrical voltage source 18 and an electronic time switch 20. The stove 1 is provided with a burner 2 arranged in a combustion chamber 7, a fuel storage 4 and an electronic control 3, for example a computer or microcontroller. The fuel storage 4 and the burner 2 are connected to each other by a fuel line 12 for fuel supply of fuel from the fuel storage 4 to the burner 1. The combustion chamber 7 is provided with an air inlet 5 for supply of air with which the burner 1 can burn said fuel . The upper side of the combustion chamber 7 comprises an outlet 6 for discharging air and combustion gases heated by the combustion to the space to be heated. The fuel line 12 is provided with a control valve 13 to control the fuel supply to the burner. Furthermore, the heater 1 is provided with a control panel 8. The heater is provided with wiring 14 to transmit control signals between the control panel 8, the control 3, the 6 burner 1 and the valve 13. The system is provided with an electricity cord 10 for connecting the voltage source 18 to voltage converting means 9 of the heater 1. Optionally, use can also be made of a battery or a battery included in the heater. The voltage converting means are adapted to provide the control 3 with direct voltage via a voltage connection 16.

The control 3 is adapted to control the burner 2 and the control valve 13, the control being dependent on the operating state in which the control 3 is located. The control 3 may, for example, be adapted to keep the heater 1 in an inactive state in a first operating condition, wherein the control valve 13 is closed and the burner 1 is deactivated. With a second operating state of the control 3, the heater 1 can be correctly activated, wherein the control valve 13 is opened and the burner 1 burns fuel. For controlling the burner 1, it may, for example, comprise an electronically controlled, non-shown ignition.

The system is provided with electrically conductive cabling 11 with a plug 19 to which the adjustable time switch 20 is connected to a plug connection 17 of the heater 1. The cabling 11, plug 19 and plug connection 17 are adapted to bring the switch clock 20 into communication connection with the control 3 of the heater 1, at least via wiring 15 located between the plug connection 17 and the control 3. The switch clock can be connected via this communication connection. 20 cooperate with the controller 3. The plug connection 17 is preferably connected to the voltage converting means 9 via an optional voltage interconnection 16 'and the plug connection 17, the cabling 11 and the plug 19 are arranged to connect a direct voltage, originating from the voltage converting means 9, to a voltage input of the timer 20 to pass on. As a result, the time switch 20 need not be connected to, or provided with, a separate voltage source, which saves money and space and is desirable from an aesthetic point of view.

The control 3 of the heater 1 and the time switch 20 are adapted to co-operate by means of a control signal 5 generated by the time switch 20, such that the time switch 20 can set the control means 3 from the first to the second operating state to a first that clock 20 set switching moment. The control signal can for instance comprise a digital and / or analogue signal, as well as a direct voltage and / or alternating voltage signal. For this purpose, the switch clock 20 may be adapted, for example, to provide a first control voltage as long as the first switching moment has not arrived, while the clock supplies a significantly higher or lower second control voltage from the first switching moment. The control 3 of the heater 1 can in this case be arranged to be in the first or second operating state when the control receives the first or second control voltage from the switch clock 20. In this way the clock 20 can activate the heater 1 at the first switching moment. A second switching moment, which is later than the first switching moment, can also be set on the switching clock 20, from which second switching moment the switching clock again supplies the first control voltage. As a result, this clock 20 can deactivate the heater 1 again at that second switching moment.

The control is preferably provided with a blocking system (not shown) which is adapted to block cooperation of the operating means with the time switch. The control panel 8 may, for example, be arranged to have this blocking system activated by a user, so that the heater 1 can be operated independently of the switch clock 20.

It will be clear that the invention is not limited to the exemplary embodiment described, but that various modifications are possible within the scope of the invention.

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The switching moment can thus be a periodically recurring moment, in particular a daily, weekly or monthly recurring time, so that the heater can be periodically operated with the switch clock 20 in the manner described above. The clock 20 may, for example, comprise an entire weekly program, the first and second switching moments being recorded for each day of the week.

In addition, the heater 1 can be provided with various parts that can be controlled by the control 3, such as a fan, a burner preheater or the like.

Furthermore, the control 3 can be adapted to execute a specific control program upon activation and deactivation of the heater 1, wherein certain parts of the heater 1 are controlled in a specific order.

Deactivation of the heater should moreover be understood to mean that the heater 1 is kept in a stand-by position, wherein for example parts of the control 3 of the heater are still active, in particular for receiving a signal from the timer 20 and / or the control panel 8.

Furthermore, the timer can be provided with its own voltage source, for example an emergency voltage source.

In addition, the timer 20 or the heater 1 can be provided with a thermostat to be able to control the desired temperature in the room. If the timer comprises a thermostat, it must of course be installed in that room.

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Claims (15)

A heating system for heating a room, wherein the system comprises a flue-gas-free stove, the stove being provided with operating means for operating the stove, characterized in that the system is provided with an adjustable time switch (20), wherein the operating means (3) and the time switch (20) are arranged to cooperate, such that the time switch (20) can set the operating means (3) from a first to a second operating state at a first switching moment set to that clock (20) . 2. Heating system as claimed in claim 1, characterized in that the operating means (3) are adapted to keep the heater (1) in an inactive or an active state respectively in the first or second operating state, or vice-versa. 3. Heating system as claimed in any of the foregoing claims, characterized in that the operating means (3) of the heater (1) and the time switch (20) are adapted to cooperate in such a way that the time switch (20) controls the control means (20). 3) can switch from the second to the first operating state at a second switching moment set to that clock (20). 4. Heating system as claimed in any of the foregoing claims, characterized in that the operating means (3) of the heater (1) are provided with a blocking system which is adapted to cooperate the operating means (3) with the time switch (20). blocking such that the heater (1) can be operated independently of the time switch (20). 5. Heating system as claimed in any of the foregoing claims, characterized in that the timer (20) and the operating means (3) of the heater (1) are adapted to cooperate with each other at a distance from each other. Heating system according to one of the preceding claims, characterized in that the timer (20) and the operating means (3) are adapted to cooperate with each other by means of a control signal. Heating system according to claims 5 and 6, characterized in that the system is provided with a communication connection (11) around said control signal over a distance between the time switch (20) and the electronic control (3) of the heater (1) ) to pass on. 8. Heating system as claimed in claim 7, characterized in that the system is provided with electrically conductive cabling (11) for establishing said communication connection, wherein the control signal comprises an electric signal. 9. Heating system as claimed in any of the foregoing claims, characterized in that the system comprises an electrical voltage source (18) around voltage-dependent parts (2, 3, 13, 21) of the heater (1) and the timer (20). provide a voltage, wherein the heater (1) is provided with a voltage output (17) which is coupled to the voltage source (18) at least during use and which can be coupled to a voltage input of the timer (20). 10. Heating system as claimed in at least claims 8 and 9, characterized in that the electrically conductive cabling (11) is also adapted to connect the switch clock (20) to the said voltage output (17) of the voltage source. 11. Heating system as claimed in claim 9 or 10, characterized in that the voltage source (18) is arranged to supply an alternating voltage, wherein the heater (1) is provided with voltage converting means (9) to convert this alternating voltage into at least one via convert the DC voltage to be supplied to the timer (20) from the heater output (17). 12. Heating system as claimed in any of the foregoing claims, characterized in that the heater (1) is provided with fuel storage means (4). Heating system according to one of the preceding claims, characterized in that the operating means (3) are adapted to control combustion means (2, 13) of the stove (1), wherein the control depends on the operating condition in which the operating means (3) are located. A heater, apparently intended for use in a system according to any one of the preceding claims. A timer, apparently intended for use in a system according to any one of claims 1-13. 10 '