DE19643319A1 - Automatic coffee-making machine - Google Patents

Abstract

The machine comprises a controlled fuel supply system using gas from various sources, a water tank and boiler, a coffee filter unit and an insulated storage tank for the brewed coffee. The gas supply unit (1) consists of a pressure tank (1.5) for the gas supply (1.1) and a supply pipe (1.2) and sealing ring (1.3) and jet opening (1.4). The gas control system (2) consists of a hand valve (2.1), automatic ignition switch (2.2) for the igniter (2.2b), a jet (2.3) with burner control switch (2.3a), automatic gas valve (2.5), control switch (2.7) and energy source for the electronic control system (2.8). Water is contained in a tank (3.1) and boiled in a spiral tube (3.2) and delivered to the filter unit (4). The brewed coffee is then collected and stored in an insulated receptacle (5).

Description

The invention relates to thermodynamic, electrical and electronic technology, more specifically for a coffee machine with fuel gas as heating energy.

The generally used coffee machines are each with mains electricity as heating energy. They are when using it comfortably and safely, but only for at home or in the fixed limited Location where there is AC power condition. Many people whose whereabouts are due to work or travel often changed, only the coffee machines can open up due to no supply of mains electricity to use.

The object of the invention is to provide a coffee machine with fuel gas To design heating energy. It is used with the fuel gas kept in the can as heating energy, from the spark generated by the piezo, or from the battery ignited sparks generated by high voltage circuit; And its gas valve is through controlled, automatically opened or closed the electronic water position switch, to automate the coffee brewing with the fuel gas as heating energy.

The object of the invention is based on:

• 1. on the physicochemical principle that the ignition point of the fuel gas is very low, so that it is easily ignited by electronic sparks.
• 2. on the thermodynamic principle that the water is not good thermal conductivity. That can with a check valve to be partially separated to allow to partially boil, so that Water can be warmed and boiled step by step.
• 3. on the hydromechanical, optical, mechanical and electronic, magnetic sun like thermomagnetic principle that the water boiled for coffee is gradual Simmering is gradually reduced, the surface of which is gradually sunk. This enables the electronic water position switch to be operated by the optical, electronic, mechanical, magnetic or thermomagnetic method is driven to a signal to control, automatically open or close the gas valve.

From the invention of the coffee machine with fuel gas as heating energy depending on the practical need "the coffee machine with fuel gas as heating energy" or "the Coffee machine with fuel gas as heating energy "can be typed.

The coffee machine with fuel gas as heating energy consists of the gas supply, the Burning control, water retention, heating and boiling, coffee filtering, Keep coffee and keep warm and the case six parts. In it is the part for Delivery of gas from the gas can and the connecting part between the gas can and the gas line of the coffee machine. The part of the combustion control consists of the manual gas valve, the Spark igniter, the ignition switch, the flame nozzle, the automatically controlled gas valve, the electric motor for the gas valve, the position switch for the electric motor, the Water probe, the automatic control circuit for the gas valve, the switch for the automatic control circuit and the signal light for burning as well as the power source for the automatic control. The part for water retention, heating and boiling consists of the water pot (water container), the sole of which protrudes upwards and through like a pipe is the spiral snake tube for water boiling and the check valve for water. The part of the coffee filter is made up of the filter funnel for coffee and the safety valve for coffee drops educated. The part for coffee collection and keeping warm is a specially warm insulated Coffee pot. The housing consists of the main housing, the lid for the water tank and the filter funnel and serving tray for the coffee pot.

In the part for gas delivery, the fuel gas can with the gas line connection of the Coffee machines are typically combined. d. H. the connection form of the gas pipe of the Coffee machine must match the connection form of the fuel gas can. e.g. B. for disposable gas can the connection device of the gas line of the coffee machine must not only be a projecting one round gas seal, but also a can opener and a forced holder for the gas can need. For the gas can, its connection form bayonet lock or thread lock is, the gas line connection of the coffee machine should also bayonet lock or Be thread lock. For this coffee machine you can still use the right one  Bayonet or threaded closure and a hose on the gas tank or on the gas line include for home use.

In the part of the burner control you can use the piezo spark igniter or select the electric spark igniter. The manual gas valve can be combined with the ignition switch Part are used. The valve from the fuel gas can (from the refillable fuel gas can). With the battery energy, the Spark igniter will work automatically. d. H. If the water that will boil and If the gas is present at the same time, the electric spark igniter can ignite automatically. In In this case, a flame control switch must be installed on the flame nozzle and at the end of the automatically controlled gas valve an automatic ignition switch can be arranged. This means that the automatic spark igniter can not function when the flame nozzle is used be, and no longer in the closed state of the automatically controlled gas valve work to save the tax energy. The return and reverse switch for the Electric motor can go through with the automatically controlled gas valve or with the motor axis a discount to accurately and correctly position the gas valve Taxes. Because the water probe only has water in the water tank or two are missing States need to show the flame in time for the water missing state automatically extinguish so that the water tank, the spiral snake tube for water boiling and the check valve for water can be protected from overheating damage. At the same time, the fuel gas can be saved. You can see the swimming power of the Use water, the water probe with a float contact switch, the water probe with To apply float magnetic switch; You can still check the conductivity of drinking water like this how to use the refraction of water, the water probe with the electrode or with the Optical-electronic water position switch to design the water present or missing to test and signal. In addition, the thermomagnetic switch as the Water probe can be applied. To control the burning, another one can Control lamp or a digital display for burning control as both set up together be lit by the burn control switch or by a special switch or is signaled. The burner control lamp can be a light emitting diode or a micro Be incandescent. The digital display for burning control can be an LCD display or a LED display. The spark ignition circuit and the automatic control circuit can from the electronic components or integrated circuit such as microcomputer Processor circuit can be assembled. In addition, the electronic Timer circuit in the automatic control circuit can be fitted to the operating state to control the gas coffee machine programmatically.

In the part for water retention, heating and boiling, the spiral coil tube is drawn from the center up and through the center tube of the water tank, then bends after the part of coffee filtering as boiling water outlet. At work with the flame nozzle the flame stores the heat directly to the spiral part of the spiral coil tube. The residual heat The flame and the exhaust gas will pass through the center tube after heating the water tank of the water container. So the center tube of the water tank plays the role of Exhausts or chimneys. The outer end of the spiral part of the spiral coil tube is on the Sole of the water tank connected by soldering or welding. The check valve for Water is in the connection part between the water tank and spiral coil pipe set so that the water from the water tank can only flow to the spiral snake tube. After the strong heating, the water is boiled by the flame nozzle and is forced to blow through the other end after the part of the coffee filtering because the check valve for Water prevents the boiled water from flowing after the water tank. The Spiral coil pipe for water boiling can be in addition to the spiral shape or lattice be flat plate. The spiral coil tube for water boiling or lattice tube for water boiling like the flat tube plate for water boiling must be made of good thermal diffusion metal getting produced. The flat tube plate for water boiling can be made from the flat tube with the plate formulated by welding or made of sheet metal by pressing and welding. Of the The measuring part of the water probe should be placed close to the bottom of the water tank.

The part for water retention, heating and boiling is with the part of the firing control and the part of the gas supply arranged from top to bottom in the main housing. In the middle of the Main housing, where the Flammeuse and Flame are located, are said to have some ventilation holes be reserved to burn the gas well. For the housing made of plastic  A metal protective net must be set up around the flame nozzle and flame not to escape the flame and not to damage the housing. For the housing made of metal can be placed where the ventilation holes are located to arrange a few rows of small holes that form a mesh band of holes. The mesh tape made of holes also has the protective net function to keep the flame out to let flee. The coffee filter funnel and the serving board for the coffee pot are on the same side from the main body, and from top to bottom just accordingly set up. The shape of the case can vary depending on the psychological taste and feelings of the person Can be designed in various practical, beautiful and convenient shapes.

In the gas coffee machine, these are the automatically controlled gas valve, the electric motor for that automatically controlled gas valve, the position switch for the electric motor, the Water probe, the automatic control circuit for the gas valve and the switch for the automatic control circuitry as well as the power source for automatic control in the part the firing control has been saved. At the same time, the electronic is powered by the battery Spark igniter and the burner control switch are not absolutely necessary. For gas coffee only machine that ignites electronic spark igniters powered by the battery or a The control lamp, like a digital display for burning control, is the battery needed. Because the gas valve of the gas coffee machine does not open and close automatically can be, that means that the flame cannot be extinguished by itself The flame can only be extinguished by closing the gas valve by hand has been.

The invention is described in more detail below with reference to the figures.

Fig. 1 is a concrete design example of the coffee machine with fuel gas as heating energy (hereinafter simply referred to as: the gas coffee machine) according to the invention. Therein 1 is the part for gas delivery; 2 is the part of the burn control; 3 is the part for water retention and boiling; 4 is the part for coffee filtering; 5 is the part for coffee collection and keeping warm; 6 is the part of the housing.

In part 1 for gas delivery 1.1 is the disposable fuel gas can; 1.2 is the link between the gas line and the disposable gas can; 1.3 is the sealing ring for the gas can connection; 1.4 is the can opener; 1.5 is the compulsory holder for the disposable gas can. In part 2 for the combustion control 2.1 is the manual gas valve; 2.2 the automatic spark ignition circuit; 2.2 a the automatic switch for the spark ignition circuit; 2.2 b is the spark igniter; 2.3 is the flame nozzle; 2.3 a is the burn control switch; 2.4 is the automatically controlled gas valve; 2.5 the electric motor; 2.5 a is the back and forth switch for the electric motor; 2.6 is the water probe; 2.7 is the automatic control circuit for the gas valve; 2.7 a is the switch for the automatic control circuit; 2.8 is the power source for automatic control; 2.9 a the burning light. In part 3 for water retention and boiling is 3.1 the water tank with a center tube; 3.2 is the spiral coil tube for water boiling; 3.3 the check valve for water. In part 4 of coffee filtering 4.1 is the coffee filter funnel; 4.2 the safety valve for coffee drops. In part 5 for coffee collection and keeping warm, 5.1 is the warm-insulated coffee pot. In part 6 of the housing 6.1 is the main housing; 6.2 is the lid for the water tank and coffee filter funnel; 6.3 is the serving board for the coffee pot; 6.4 is the protective net against the flame.

When using the gas coffee machine, the switch for the automatic control circuit 2.7 a is first connected in order to insert the automatic control circuit 2.7 into the operating position. If there is no water in the water container 3.1 at this moment, the gas coffee machine cannot yet be put into operation because the automatically controlled gas valve 2.4 is still closed, although the manual gas valve 2.1 is already open. Only after that the water has been poured into the water tank 3.1 , the electric motor 2.5 can only drive the automatically controlled gas valve 2.4 into the opening and switch on the automatic switch for the spark ignition circuit 2.2 a, because the water probe 2.6 of the automatic control circuit for the gas valve 2.7 has already given the water signal. Only during this time can the automatic spark ignition circuit 2.2 ignite the flame nozzle 2.3 and put the gas coffee machine into operation. For the gas coffee machine, which does not use an electronic spark ignition circuit powered by the battery, the piezo spark ignitor 2.2 c can be used to ignite by hand. For the gas coffee machine, which is automatically ignited, the flame control switch 2.3 a must be arranged close to the flame nozzle 2.3 , which can be made from the double metal sheets or thermal resistor. In the incineration of Flammedüse 2.3, the contact points separating the combustion control switch 2.3 a or because of the increased resistance of the fuel control switch 2.3 a radio automatic ignition circuit is switched off 2.2. So the automatic spark ignition circuit 2.2 is no longer working. Because the flame jet are 2.3 in that time even in the incineration and the automatically controlled gas valve 2.4 in the opening state, the water in water tank 3.1 is the spiral snake pipe for water boiling 3.2, which is heated by the flame of Flammedüse 2.3 vigorously and heated by the check valve 3.3 and , gradually warmed and boiled and blows after the coffee filter funnel 4.1 . If the hand gas valve 2.1 is not closed and the disposable gas can is not empty, the water will be boiled and blown out without interruption. When the water in the water tank 3.1 has been completely boiled out, the water probe 2.6 gives the automatic control circuit 2.7 a water-missing signal. The water-missing signal is amplified by the automatic control circuit 2.7 and drives the electric motor 2.5 . Because the automatically controlled gas valve is actually in the open state, namely at the end of the execution for the return and return switch of the electric motor 2.5 a, the direction of travel of the electric motor 2.5 is changed by the return and return switch 2.5 a when the electric motor 2.5 is again turns. Therefore, the electric motor 2.5 turns back, drives the automatically controlled gas valve 2.4 from the actually open state to the closing state. The gas supply has ended, the flame from the flame nozzle 2.3 has been extinguished and the heating has ended. When the automatically controlled gas valve 2.4 is closed, the automatic switch for the spark ignition circuit 2.2 a has also been closed. Otherwise the automatic spark ignition circuit 2.2 could automatic spark igniter 2.2 b continue to drive to ignite always repeated because of the internal control switch had been turned on a 2.3 on the Flammedüse 2.3 due to no heating again. So that the automatic spark ignition circuit 2.2 and the automatic spark igniter 2.2 b would be used again in operation and wasted the control energy for nothing.

Fig. 2 is a concrete design example of the coffee machine with fuel gas as heating energy (hereinafter simply referred to as: the gas coffee machine) according to the invention. Therein is 1 the part for the gas delivery of the gas coffee machine; 2 is the part of the firing control of the gas coffee machine; 3 is the part of the water tank and boiling; 4 is the part of coffee filtering; 5 is the part for coffee collection and keeping warm; 6 is the part of the housing.

In part 1 for the gas delivery of the gas coffee machine is 1.1 the disposable fuel gas can; 1.2 is the link between the gas line and the disposable gas can; 1.3 is the sealing ring for gas can connection; 1.4 is the can opener; 1.5 is the compulsory holder for the disposable gas can. In part 2 for the burner control of the gas coffee machine, 2.1 is the manual gas valve; 2.2 A is the spark ignition circuit; 2.2 b the spark igniter; 2.2 d is the spark ignition switch, the control of which is transmitted by the hand throttle valve 2.1 ; 2.3 is the flame nozzle; 2.3 a is the burn control switch; 2.8 is the power source for the spark ignition circuit; 2.9 a the burning light. In part 3 of the water tank and boiling 3.1 is the water tank with a center tube; 3.2 is the spiral coil tube for water boiling; 3.3 the check valve for water. In part 4 of coffee filtering 4.1 is the coffee filter funnel; 4.2 the safety valve for coffee drops. In part 5 for coffee collection and keeping warm, 5.1 is the warm-insulated coffee pot. In part 6 of the housing 6.1 is the main housing; 6.2 is the lid for the water tank and coffee filter funnel; 6.3 is the serving board for coffee pot; 6.4 is the protective net against the flame.

When using the gas coffee machine, the water must first be poured into the water container 3.1 . Then the hand throttle valve 2.1 can be opened and pressed so that the spark ignition switch 2.2 d is switched on in order to use the gas coffee machine in operation. The operations of the gas coffee machine are the same as those of the gas coffee machine. Due to the strong heating from the flame of the flame nozzle 2.3 , the water from the water tank 3.1 is gradually heated and boiled through the check valve 3.3 and the spiral coil tube for water boiling 3.2 and blows after the coffee filter funnel 4.1 , and without interruption until completely boiled and blown out. When the water in the water tank 3.1 has been boiled out completely, the flame from the flame nozzle 2.3 must be extinguished by closing the hand gas valve 2.1 , because there is no water probe 2.6 in the water tank 3.1 in the gas coffee machine, no automatic control circuit 2.7 and also no automatically controlled gas valve 2.4 there, the gas supply for the flame cannot stop automatically. While this is not convenient for use, the construction of the gas coffee maker is much simpler than that of the gas coffee maker. This means that the production price is much cheaper.

Fig. 3 is another structural diagram for the concrete design example shown in Fig. 1 for the gas coffee machine according to the invention. Therein 1 is the part for gas delivery; 2 is the part of the burn control; 3 is the part of water retention and boiling; 4 is the part of coffee filtering; 5 is the part for coffee collection and keeping warm; 6 is the part of the housing.

In part 1 for gas delivery 1.1 a is the refillable gas can with the bayonet or thread closure; 1.2 a is the bayonet or threaded closure of the gas line of the gas coffee machine; The can opener 1.4 and the forced holder for the disposable gas can 1.5 are saved here. In part 2 for the combustion control 2.1 is the manual gas valve; 2.2 the automatic spark ignition circuit; 2.2 a the automatic switch for the spark ignition circuit; 2.2 b is the spark igniter; 2.3 is the flame nozzle; 2.3 a is the burn control switch; 2.4 is the automatically controlled gas valve; 2.5 is the electric motor; 2.5 a is the return and reverse switch for the electric motor; 2.6 is the water probe; 2.7 is the automatic control circuit for the gas valve; 2.7 a is the switch of the automatic control circuit; 2.8 is the power source for automatic control; 2.9 a the burning lamp; 2.9 b the digital display for the burn control. In part 3 of the water retention and boiling 3.1 is the water tank with a center tube; 3.2 is the spiral coil tube for water boiling; 3.3 the check valve for water. In part 4 of coffee filtering 4.1 is the coffee filter funnel; 4.2 the safety valve for coffee drops; In part 5 for coffee collection and keeping warm, 5.1 is the warm-insulated coffee pot. In part 6 of the housing 6.1 is the main housing; 6.2 is the lid for the water tank and coffee filter funnel; 6.3 is the serving board for the coffee pot; 6.4 is the protective net against the flame.

The use and operations of the gas coffee machine of Fig. 3, whose gas delivery is from the refillable gas can with bayonet or threaded closure, are the same as those of the gas coffee machine of Fig. 1, whose gas delivery is from the disposable gas can.

Fig. 4 is another structural diagram for the concrete design example of the gas coffee machine according to the invention shown in Fig. 2. Therein is 1 the part for the gas delivery of the gas coffee machine; 2 is the part of the firing control of the gas coffee machine; 3 is the part of water retention and boiling; 4 is the part of coffee filtering; 5 is the part for coffee collection and keeping warm; 6 is the part of the housing.

In part 1 for gas delivery 1.1 a is the refillable gas can with the bayonet or thread closure; 1.2 a is the bayonet or threaded closure of the gas line for the gas coffee machine; The can opener 1.4 and the forced holder for the disposable gas can 1.5 are saved here. In part 2 for the burner control of the gas coffee machine, 2.1 is the manual gas valve; 2.2 A is the spark ignition circuit; 2.2 b the spark igniter; 2.2 d is the spark ignition switch, the control of which is transmitted by the hand throttle valve 2.1 ; 2.3 is the flame nozzle. In part 3 of water retention and boiling, 3.1 is the water reservoir with the center tube; 3.2 is the spiral coil tube for water boiling; 3.3 the check valve for water. In part 4 of the coffee filter for the gas coffee machine, 4.1 is the coffee filter funnel; 4.2 the safety valve for coffee drops. In part 5 for coffee collection and keeping warm, 5.1 is the warm-insulated coffee pot. In part 6 of the housing 6.1 is the main housing; 6.2 is the lid for the water tank and coffee filter funnel; 6.3 is the serving board for coffee pot; 6.4 is the protective net against the flame.

The use and operations of the gas coffee maker of Fig. 4, whose gas delivery is from the refillable gas can with the bayonet or threaded closure, are the same as those of the gas coffee maker of Fig. 2, whose gas delivery is from the disposable gas can.

Fig. 5 is a concrete design example scheme of the optical property of the water probe used by the gas coffee machine according to the invention. 2.6 is the water probe with the optoelectronic switch, in which the optical property of water is applied.

In the optical-electronic water probe 2.6 , 2.6 a is the radiation source; 2.6 b is the light guide rod for rays; 2.6 c the light guide rod for reflex rays; 2.6 d the light receiver; 2.6 e the optically electronic circuit; 2.6 f the mirror; 2.6 g the carrier for the optoelectronic water probe. It is the end surface of the light guide rod for Instrahlen 2.6 b and the light guide rod for reflection rays c 2.6, such as frosted glass, the f of the mirror 2.6 is opposite. The mirror 2.6 f lies on the bottom of the water tank 3.1 and with the end face of the two light guide rods at a distance of 1-5 mm. If there is no water in the water tank 3.1 , the light from the beam source 2.6 a cannot shine through the light guide rod for instarbands 2.6 b after the mirror 2.6 f because of the matt surface. The mirror 2.6 f can also not reflect light the light guide rod for reflex rays 2.6 c. So the light receiver 2.6 d is in the final state. The optically electronic circuit 2.6 e leaves the automatic control circuit for the gas valve 2.7 in the closed state. The automatically controlled gas valve 2.4 is closed. If there is water in the tank 3.1, the water can the jet conductivity of the matte surface of the light guide rod for Instrahlen 2.6 b and the light guide rod for reflection rays 2.6 c much improved, so that the light from the beam source 2.6 a slightly b by the light guide rod for Instrahlen 2.6 to Mirror 2.6 f can illuminate. The mirror 2.6 f reflects the light through the light guide rod for reflected rays 2.6 c into the light receiver 2.6 d. Then the light receiver 2.6 d is switched to the open state because of the lighting. As a result, the optical-electronic circuit 2.6 e leaves the automatic control circuit 2.7 open. The automatically controlled gas valve 2.4 is opened.

Fig. 6 is a concrete design example diagram of the electrical property of the water used electric water probe of the gas coffee machine according to the invention. In it 2.6 A is the water probe with the electronic switch, in which the electrical property of water is used.

In the electronic water probe 2.6 A, 2.6 A1 is the test electrode for the water position, which uses the electrical conductivity of the drinking water; 2.6 A2 is the carrier for the electric water probe; 2.6 A3 is the electronic circuit. The other test electrode for the water position is the water tank 3.1 . The tip of the test electrode for the water position 26 A1 is located at the top of the bottom of the water tank 3.1 at a distance of 0.5-2 mm. Because the property of the drinking water is electrically conductive, the test electrode for the water position 2.6 A1 is electrically connected to the water tank 3.1 if there is water in the water tank 3.1 . For example, the electronic circuit 2.6 A3 leaves the automatic control circuit 2.7 open. And the automatically controlled gas valve 2.4 is opened. If there is no water in the water tank 3.1 , the electrical connection between the test electrode 2.6 A1 and the water tank 3.1 is broken. Thus, the electronic circuit 2.6 A3 leaves the automatic control circuit 2.7 in the closed state, and the automatically controlled gas valve 2.4 is closed.

Fig. 7 is a concrete design example diagram of the physical property of water used electric water probe of the gas coffee machine according to the invention. 2.6 B is the water probe with the floating contact switch in which the physical property of the water is used.

In the floating mechanical water probe 2.6 B, 2.6 B1 is the float for the water position; 2.6 B2 is the float lever; 2.6 B3 is the electrical contact switch; 2.6 B4 is the carrier for the floating mechanical water probe. The float for the water position 2.6 B1 is located on the bottom of the water tank 3.1 and can be moved upwards at such a distance that the float lever 2.6 B2 can switch the electrical contact switch 2.6 B3 on and off correctly. If there is water in the water tank 3.1 , the float 2.6 B1 is raised. The float lever 2.6 B2 switches on the electrical contact switch 2.6 B3. The automatic control circuit 2.7 is thus in the open state and the automatically controlled gas valve 2.4 is open. If there is no water in the water tank 3.1 , the float 2.6 B1 has sunk down. The float lever 2.6 B2 no longer presses the electrical contact switch 2.6 B3. The electrical contact switch 2.6 B3 has been switched off. Thus, the automatic control circuit 2.7 is in the closed state and the automatically controlled gas valve 2.4 is closed.

Fig. 8 is a concrete design example scheme of the physical property of the water used magnet-electric water probe of the gas coffee machine according to the invention. In it, 2.6 C is the water probe with the floating magnetic contact switch, in which the physical property of the water is used.

In the floating magnetic contact water probe 2.6 C, 2.6C1 is the float for the water position; 2.6 C2 is the permanent magnet; 2.6 C3 is the magnetic contact switch, 2.6 C4 is the carrier for the floating magnetic contact water probe. The float 2.6 C1 is located on the bottom of the water tank 3.1 and can be moved upwards in such a distance that the permanent magnet 2.6 C2 can safely switch on the magnetic contact switch 2.6 C3 and can also switch it off correctly. If it is in the water tank 3.1 . There is water, the float 2.6 C1 is raised. The permanent magnet 2.6 C2 is raised on the magnetic contact switch 2.6 C3. The magnetic contact switch 2.6 C3 is switched on. The automatic control circuit 2.7 is thus in the open state and the automatically controlled gas valve 2.4 is open. If there is no water in the water tank 3.1 , the float 2.6 C1 has sunk down. The permanent magnet 2.6 C2 moves away from the magnetic contact switch 2.6 C3. The magnetic contact switch 2.6 C3 is switched off. Thus, the automatic control circuit 2.7 is in the closed state and the automatically controlled gas valve 2.4 is closed.

Fig. 9 is a concrete design example diagram of the physical property of the magnet used thermomagnetic water probe of the gas coffee machine according to the invention. 2.6 D is the water probe with the thermomagnetic switch, in which the physical and magnetic properties of the magnet are used.

In the 2.6 D thermomagnetic water probe, 2.6 D1 is the iron sheet for the ferromagnet; 2.6 D2 the spring; 2.6 D3 the ferromagnet; 2.6 D4 the open contact switch; 2.6 D5 the thermal protection cover of the thermomagnetic switch. The ferromagnet 2.6 D3 is attached directly to the outside of the sole or laterally directly to the edge of the bottom of the water tank 3.1 . The iron sheet 2.6 D1 can be pulled firmly against the spring 2.6 D2 by the ferromagnet 2.6 D3, held firmly and released. In another sense, the open contact switch 2.6 D4 is removed from the iron sheet 2.6 D1 or pressed firmly by the spring 2.6 D2 and the iron sheet 2.6 D1. The distance between the ferromagnet 2.6 D3 and the open contact switch 2.6 D4 is limited, so that the iron sheet 2.6 D1 can securely switch on and off the open contact switch 2.6 D4 when tightening and releasing the ferromagnet 2.6 D3. All parts of the thermomagnetic water probe 2.6 D are covered by the thermal protection cover 2.6 D5. If there is water in the water tank 3.1 or no flame heats the water tank 3.1 , the ferromagnet 2.6 D3 will pull the iron sheet 2.6 D1 against the spring 2.6 D2 due to magnetic force. The contact switch 2.6 D4 is switched on because of no pressure from the spring 2.6 D2 and the iron sheet 2.6 D1. The automatic control circuit 2.7 is thus in the open state. And the automatically controlled gas valve 2.4 is open. If there is no water in the water tank 3.1 and the flame heats the water tank 3.1 further, the water tank 3.1 will quickly overheat. The ferromagnet 2.6 D3 is also overheated. Since the temperature of the water tank 3.1 is overflowing the Gürischen point, the ferromagnet 2.6 D3 will lose the magnetic force against the spring 2.6 D2 and leave the iron sheet 2.6 D1 free. The contact switch 2.6 D4 has been switched off due to the pressure force of the spring 2.6 D2 and the iron sheet 2.6 D1. The automatic control circuit 2.7 is changed in the final state. The automatically controlled gas valve 2.4 is closed.

Fig. 10 is a concrete design example diagram of the piezoelectric hand igniter of the gas coffee machine according to the invention. 2.2 b is the spark igniter; 2.2 c the piezoelectric hand igniter; 2.2 d the hand button of the hand detonator, which is assembled with the handle of the hand gas valve; 2.2 w piezoceramic; 2.2 f the striking spring; 2.2 s the racket; 2.2 g the igniter lever, which is also the lever of the hand throttle valve; 2.2 h the guide wire.

Fig. 11 are two other structural possibilities for the design example shown in Fig. 1, Fig. 2, Fig. 3 and Fig. 4, the spiral coil tube for water boiling from the gas coffee machine or from the gas coffee machine according to the invention. 3.2 A is the lattice pipe for water boiling; 3.2 B is the flat tube plate for water boiling, which can be formulated from the flat tube with the plate by welding or made from the metal sheet by pressing and welding. A is the sectional view of the front view of the truss tube for water boiling 3.2 A. AA is the top view of the truss tube for water boiling 3.2 A. B is the sectional view of the front view of the flat tube plate for water boiling 3.2 B. BB is the top view of the flat tube plate for water boiling 3.2 B.

Fig. 12 is a concrete design example of the gas coffee machine, the gas delivery with the bayonet or threaded lock and at the same time from the refillable gas can, the gas tank and the gas line for home use, according to the invention. 1.2 a is the bayonet or threaded closure of the gas line for the gas coffee machine; 1.6 is the gas hose; 1.6 a the bayonet or threaded closure of the gas hose for the gas coffee machine; 1.6 b the bayonet or threaded closure of the gas hose for the gas tank or for the gas line for the home.

Claims (18)

1. A coffee machine with the fuel gas as heating energy (hereinafter simply referred to as: the gas coffee machine), as shown in Fig. 1 and Fig. 3, consists of ( 1 ) the part for gas delivery, ( 2 ) the part of the fuel control, ( 3 ) the part for water retention and boiling, ( 4 ) the part for coffee filtering, ( 5 ) the part for coffee collection and warming and ( 6 ) the part of the housing, its special features are:

• 1.1. The part ( 1 ) for the gas supply is formulated in different types in order to cooperate with the different gas cans. For the disposable fuel gas can, part ( 1 ) for the gas supply from ( 1.1 ) the disposable fuel gas can, ( 1.2 ) the connecting plate between the gas line and the disposable gas can, ( 1.3 ) the sealing ring for gas can connection, ( 1.4 ) the can opener and ( 1.5 ) the forced holder for the Disposable gas can formed (see Fig. 1.).
• 1.2. For the gas can, the connection form of which is a bayonet or thread lock, part ( 1 ) for the gas supply from ( 1.1 a) the refillable gas can with the threaded or bayonet mouth, ( 1.2 a) the threaded or bayonet lock of the gas line in the Gas coffee machines formed (see Fig. 2.).
• 1.3. Part ( 2 ) for the combustion control consists of ( 2.1 ) the manual gas valve, ( 2.2 ) the automatic spark ignition circuit, ( 2.2 a) the automatic switch for the spark ignition circuit, ( 2.2 b) the spark igniter, ( 2.3 ) the flame nozzle, ( 2.3 a ) the combustion control switch, ( 2.4 ) the automatically controlled gas valve, ( 2.5 ) the electric motor, ( 2.5 a) the return and return switch for the electric motor, ( 2.6 ) the water probe, ( 2.7 ) the automatic control circuit for the gas valve and ( 2.7 a ) the switch for the automatic control circuit as well as ( 2.8 ) the power source for the automatic control circuit and radio ignition circuit. Inside are the knob from the hand throttle valve ( 2.1 ) and the button from the switch for the automatic control circuit ( 2.7 ) a outside on the main housing ( 6.1 ); The gas line from the part ( 1 ) for the gas delivery leads from the connection plate ( 1.2 ) (or from the threaded or bayonet connection ( 1.2 a) of the gas line of the gas coffee machine to the hand gas valve ( 2.1 ), then from the hand gas valve ( 2.1 ) to the automatically controlled gas valve ( 2.4 ) and finally from the automatically controlled gas valve ( 2.4 ) to the flame nozzle ( 2.3 ); the spark igniter ( 2.2 b) is located on the flame nozzle ( 2.3 ) .The combustion control switch ( 2.3 a) is close to the flame nozzle The return and return switch for the electric motor ( 2.5 a) and the automatic switch for the automatic spark ignition circuit ( 2.2 a) are located at the end of the automatically controlled gas valve ( 2.4 ) and are controlled by it controlled gas valve ( 2.4 ) is driven by the electric motor ( 2.5 ); the water probe ( 2.6 ) is in the water tank ( 3.1 ) from the part ( 3 ) for d he water retention and boiling set up and is connected by cable with the automatic control circuit ( 2.7 ). The automatic control circuit ( 2.7 ) and the automatic spark ignition circuit ( 2.2 ) are fixed on the inside of the part of the housing that is not affected by the flame. (see Fig. 1 and Fig. 2)
• 1.4. Part ( 3 ) for water retention and boiling consists of ( 3.1 ) the water tank with a central tube, ( 3.2 ) the spiral coil tube for water boiling and ( 3.3 ) the check valve for water. The water tank ( 3.1 ) is a cylindrical pot, the sole of which protrudes upwards and a center tube is formed (see Fig. 1 and Fig. 3).
• 1.5. Part ( 4 ) of the coffee filter consists of ( 4.1 ) the coffee filter funnel, ( 4.2 ) the safety valve for coffee drops (see Fig. 1 and Fig. 3).
• 1.6. The part ( 5 ) for coffee collection and keeping warm is ( 5.1 ) the warm-insulated coffee pot (see Fig. 1 and Fig. 3).
• 1.7. The part ( 6 ) of the housing is ( 6.1 ) the main housing; ( 6.2 ) is the lid for the water tank and coffee filter funnel; ( 6.3 ) is the serving board for the coffee pot; ( 6.4 ) is the protective net against the flame (see Fig. 1 and Fig. 3).

2. According to the gas coffee machine shown in claim 1, it can be developed as a variation called a coffee machine with the fuel gas as heating energy (hereinafter simply referred to as: the gas coffee machine). The gas coffee machine consists, as indicated in Fig. 2 and Fig. 4, of ( 1 ) the part for the gas supply, ( 2 ) the part for the firing control, ( 3 ) the part for water retention and boiling, ( 4 ) the part of coffee filtering, ( 5 ) the part for coffee collecting and keeping warm, and ( 6 ) the part of the housing. Their special features are:

• 2.1. The part ( 1 ) for the gas delivery of the gas coffee machine is formulated in the same way as the part ( 1 ) in the gas coffee machine in different types in order to cooperate with the different types of gas cans. For the disposable fuel gas can, part ( 1 ) for the gas delivery of the gas coffee machine is from ( 1.1 ) the disposable fuel gas can, ( 1.2 ) the connecting plate between the gas line and the disposable gas can, ( 1.3 ) the sealing ring for gas can connection, ( 1.4 ) the can opener and ( 1.5 ) the forced holder formed for the disposable gas can (see Fig. 2)
• 2.2. For the gas can, the connection form of which is a bayonet or thread lock, part 1 is for the gas delivery of the gas coffee machine from ( 1.1 a) the refillable gas can with the threaded or bayonet mouth, ( 1.2 a) the threaded or bayonet connection of the gas line in the gas coffee machine formed (see Fig. 4.).
• 2.3. Part ( 2 ) for the combustion control of the gas coffee machine consists of ( 2.1 ) the manual gas valve, ( 2.2 b) the spark igniter, ( 2.2 d) the spark ignition switch and ( 2.3 ) the flame nozzle. The gas line from part ( 1 ) for the gas delivery leads from the connection point of the gas line of the gas coffee machine ( 1.2 ) (or from the threaded or bayonet connection ( 1.2 a)) to the hand gas valve ( 2.1 ), then from the hand gas valve ( 2.1 ) directly after the flame nozzle ( 2.3 ). The hand throttle valve ( 2.1 ) and the button on the spark ignition switch ( 2.2 d) are controlled together by the knob on the hand throttle valve ( 2.1 ), which is located outside on the main housing (see Fig. 4).
• 2.4. The part ( 3 ) for water retention and boiling, like that in the gas coffee machine, consists of ( 3.1 ) the water tank with a center tube, ( 3.2 ) the spiral coil tube for water boiling and ( 3.3 ) the non-return valve for water (see Fig. 2 and Fig. 4).
• 2.5. The part ( 4 ) of the coffee filter for the gas coffee machine, like that in the gas coffee machine, consists of ( 4.1 ) the coffee filter funnel, ( 4.2 ) the safety valve for coffee drops (see Fig. 2 and Fig. 4).
• 2.6. The part ( 5 ) for coffee collection and keeping warm is, like that in the gas coffee machine ( 5.1 ), the warm-insulated coffee pot (see Fig. 2 and Fig. 4)
• 2.7. The part ( 6 ) of the housing, like that in the gas coffee machine, consists of ( 6.1 ) the main housing, ( 6.2 ) the lid for the water container and coffee filter funnel, ( 6.3 ) the serving board for the coffee pot, ( 6.4 ) the protective net against the flame (see. Fig. 2 and Fig. 4).

3. According to the gas coffee machine shown in claim 1, the automatic spark igniter of part 2 for the combustion control from ( 2.2 ) the automatic spark ignition circuit, ( 2.2 a) the automatic switch for the spark ignition circuit and ( 2.2 b) the spark igniter is formed (see. Fig. 1 and Fig. 3). 4. According to the gas coffee machine shown in claim 1, the automatic spark ignition circuit ( 2.2 ) of the part ( 2 ) for the combustion control from electronic components or from integrated circuit as well as from a microcomputer processor circuit are assembled (see Fig. 1 and Fig. 3 ). 5. According to the gas coffee machine shown in claim 1, the automatic control circuit for the gas valve ( 2.7 ) of the part ( 2 ) for the combustion control from electronic components or from integrated circuit as are assembled from a microcomputer processor circuit (see Fig. 1 and Fig. 3). 6. According to the gas coffee machine shown in claim 1, the water probe ( 2.6 ) of the part ( 2 ) for the combustion control is an optical property of the water used optically electronic water probe ( 2.6 ). The water probe ( 2.6 ) uses the optical properties of water from ( 2.6 a) the beam source for measurements, ( 2.6 b) the light guide rod for rays, ( 2.6 c) the light guide rod for reflex rays, ( 2.6 d) the light receiver, ( 2.6 e ) the optically electronic circuit, ( 2.6 f) the mirror and ( 2.6 g) the carrier for the optoelectronic water probe. The end surface of the light guide rod for rays ( 2.6 b) and the light guide rod for reflex rays ( 2.6 c) is like frosted glass, which is opposite to the mirror ( 2.6 f). The mirror ( 2.6 f) lies directly on the bottom of the water tank ( 3.1 ). The end surface of the light guide rod for rays ( 2.6 b) and the light guide rod for reflex rays ( 2.6 c) are just above the mirror ( 2.6 f) at a distance of 1-5 mm. The beam source for measurements ( 2.6 a), the light guide rod for rays ( 2.6 b), the light guide rod for reflex radiation ( 2.6 c), the light receiver ( 2.6 d) are from the support for the optoelectronic water probe ( 2.6 g) on the wall of the water container ( 3.1 ) attached (see Fig. 5). 7. According to the gas coffee machine shown in claim 1, the water probe ( 2.6 ) of the part ( 2 ) for the combustion control can still be an electronic property of the water electronic water probe ( 2.6 A). The electronic water probe ( 2.6 A) uses the electrical property of water is formed from ( 2.6 A1) the test electrode for the water position, 2.6A2 the support for the electronic water probe, ( 2.6 A3) the electronic circuit. The other test electrode for the water position is the water tank ( 3.1 ). The end of the test electrode ( 2.6 A1), which is supported by the support for the electronic water probe ( 2.6 A2) on the wall of the water tank ( 3.1 ), is close to the top of the bottom of the water tank ( 3.1 ) with a distance of 0.5-2 mm. From the test electrode for the water position ( 2.6 A1) and from the water tank ( 3.1 ), one line is connected to the automatic control circuit ( 2.7 ) (see Fig. 6). 8. According to the gas coffee machine shown in claim 1, the water probe ( 2.6 ) of the part ( 2 ) for the combustion control can still be a physical property of the water used electrical water probe ( 2.6 B). The electrical water probe ( 2.6 B) uses the physical property of water from ( 2.6 B1) the float for the water position, ( 2.6 B2) the float lever, ( 2.6 B3) the electrical contact switch and ( 2.6 B4) the carrier for the floating mechanical contact switch water probe educated. The float ( 2.6 B1) is located on the bottom of the water tank ( 3.1 ) and can be moved at such a distance that the float lever ( 2.6 B2) can switch the electrical contact switch ( 2.6 B3) on and off correctly. (see Fig. 7). 9. According to the gas coffee machine shown in claim 1, the water probe ( 2.6 ) of the part ( 2 ) for the combustion control can still be a physical property of the water used magnet-electric water probe ( 2.6 C). The magnetic-electrical water probe ( 2.6 G) uses the physical property of water from ( 2.6 G1) the float for the water position, ( 2.6 C2) the permanent magnet, ( 2.6 C3) the magnetic contact switch and ( 2.6 C4) the carrier for the Floating magnetic contact switch water probe formed. The float ( 2.6 G1) is located on the bottom of the water tank ( 3.1 ) and can be moved at such a distance that the permanent magnet ( 2.6 G2) safely switches on the magnetic contact switch ( 2.6 G3) and also switches it off correctly can (see Fig. 8). 10. According to the gas coffee machine shown in claim 1, the water probe ( 2.6 ) of the part ( 2 ) for the combustion control can still be a physical property of the ferromagnetic thermomagnetic water probe ( 2.6 D). The thermomagnetic water probe ( 2.6 D) which uses the physical property of the ferromagnet is made of ( 2.6 D1) the iron sheet for the ferromagnet, ( 2.6 D2) the spring, ( 2.6 D3) the ferromagnet, ( 2.6 D4) the open contact switch and ( 2.6 D5) the thermal protection cover for the thermal magnetic switch. The ferromagnet ( 2.6 D3) is attached to the outside of the sole or to the side of the bottom of the water tank ( 3.1 ). The iron plate for the ferromagnet ( 2.6 D1) is removed from the open contact switch ( 2.6 D4) against the spring ( 2.6 D2) and tightened by the ferromagnet ( 2.6 D3). The distance between the ferromagnet ( 2.6 D1) and the open contact switch ( 2.6 D4) is so limited that the iron plate ( 2.6 D1) when tightened and released by the ferromagnet ( 2.6 D3) safely switches the open contact switch ( 2.6 D4) on and off can. All parts of the thermomagnetic water probe ( 2.6 D) are covered by the thermal protection cover ( 2.6 D5) (see Fig. 9). 11. According to the gas coffee machine shown in claim 2, the spark igniter of part ( 2 ) for the combustion control of the gas coffee machine from ( 2.2 A) the spark ignition circuit, which is assembled from the electrical components or integrated circuits, ( 2.2 b) the spark igniter and ( 2.2 d) the switch for the spark ignition circuit is formed (see Fig. 2 and Fig. 4). 12. According to the gas coffee machine shown in claim 2, the spark igniter of the part ( 2 ) for the firing control of the gas coffee machine can still be a hand-operated piezoelectric spark igniter ( 2.2 B). The hand-operated piezoelectronic spark igniter ( 2.2 B) is made from ( 2.2 b) the spark igniter, ( 2.2 d) the hand knot of the hand igniter, ( 2.2 w) the piezoceramic, ( 2.2 f) the striking spring, ( 2.2 s) the bat, ( 2.2 g) the igniter lever, which is also part of the manual valve ( 2.1 ), and ( 2.2 h) the guide wire (see Fig. 10). 13. According to the gas coffee machine shown in claim 1, in the automatic control circuit for the gas valve ( 2.7 ) of the part ( 2 ) for the combustion control, the LED light-emitting diode or the micro-incandescent lamp can also be installed in order to represent the burning state of the gas coffee machine, which is arranged on the housing (see Fig. 1). 14. According to the gas coffee machine shown in claim 1, an LCD display or an LED display can be installed in the automatic control circuit for the gas valve ( 2.7 ) of the part ( 2 ) for the combustion control in order to represent the operating state of the gas coffee machine, which is arranged on the housing (see Fig. 3). 15. According to the gas coffee machine shown in claim 1 in the automatic control circuit for the gas valve ( 2.7 ) of the part ( 2 ) for the combustion control still an electronic timer can be added to programmatically control the operating state of the gas coffee machine. 16. According to the gas coffee machine shown in claim 2, the flame control switch ( 2.3 b) and the light-emitting diode or the micro-incandescent lamp can be attached to the flame nozzle ( 2.3 ) of the part ( 2 ) for the combustion control in order to display the burning state of the gas coffee machine, which is arranged on the housing (see Fig. 2). 17. According to the gas coffee machine shown in claim 1 and the gas coffee machine shown in claim 2, the spiral coil tube for water boiling can be grid shape or flat tube plate shape in addition to the spiral shape. The spiral coil tube for water boiling or lattice pipe for water boiling as well as the flat tube plate for water boiling must be made of good thermal diffusion metal (see Fig. 11). 18. According to the gas coffee machine shown in claim 1 and the gas coffee machine shown in claim 2, the gas supply, the connection of which is the threaded or bayonet lock, can be connected to a gas hose on the gas tank or on the gas line for use at home (see Fig. 12).