TR201615650A2 - Dual Outlet Aluminum Gas Faucet with Monolithic Body - Google Patents

Abstract

The invention relates to a double outlet safety aluminum gas tap (1) designed to control the gas sent to the different rings of the multiple gas burners used in domestic cooking appliances, with a monolithic body (1.1) in which the safety valve (1.3) is positioned parallel to the gas outlet. Thanks to the monolithic production of the gas tap (1) of the present invention by means of aluminum extrusion method, both the labor force is saved and lighter and less costly products can be obtained compared to the present ones. The double outlet gas tap (1) body (1.1) of the present invention is produced in one piece by aluminum extrusion method and the gas passage channels (1, 19) are formed by the machining method applied through one or more holes (1.19) opening to the body (1.1). then it is closed with the help of balls (1.18).

Description

DESCRIPTION DOUBLE OUTPUT ALUMINUM GAS TAP WITH FULL BODY TECHNICAL FIELD The invention is based on the different rings of multiple gas burners used in domestic cooking appliances. designed to control the gas, where the safety valve is positioned parallel to the gas outlet It relates to a double output safety aluminum gas cock with a solid body.

By taking double output from the taps used today, the user can use the multi-burner to provide power. It is possible to direct the gas in order to obtain a suitable light for your preference. However As it is known, in faucet designs, besides the function, size, weight, ease of production, Factors such as cost must also be taken into account. Therefore all this Different designs emerge at the point of optimizing the factors. In this context The gas tap, which is the subject of the invention, was developed in one piece by aluminum extrusion method. Thanks to its production, it provides both a gain from the workforce and the existing situation. Lighter and less costly products can be obtained. The subject of the invention is double outlet gas faucet body is produced as a single piece by aluminum extrusion method. Gas passage thanks to the machining method applied through one or more holes drilled channels are formed and these holes are then closed with the help of balls. PRIOR ART Fagor S. Coop. In the patent application numbered GB 2261495 belonging to the company, a single output a built-in faucet is mentioned. However, with such taps, all gas burners Since there is a single outlet gas supply to the rings, the power is supplied according to the object that the user will heat. choice is limited. For this reason, double outlet countertop faucets have been developed and the technique has been improved. In the known state, different designs have emerged regarding these faucets. This is the subject of the invention. It is a gas tap developed in scope. a gas cock with at least one gas inlet and at least one gas outlet is mentioned. Promise Depending on the rotational angle of the man with the rotation movement given to the shaft in the gas tap in question. gas passage can be adjusted. The body of the faucet mentioned in this application is the gas inlet and the gas The part with the exit holes is manufactured separately, the part with the safety valve is manufactured separately, Gasket, silicone etc. in order to provide impermeability between these two parts. placed, more Afterwards, these parts are combined with bolts or screws to form the faucet body. This For this reason, this faucet is both difficult to produce in terms of its body and production time and costs. is quite high. In addition, the dimensions of the faucet in question could not be reduced and it was manufactured in this way. has been made. This increases the size of the stove or oven in accordance with the gas tap, This causes them to occupy more space in kitchens.

In the light of the state of the art mentioned above, the subject of the invention is double output aluminum. The gas tap is innovative in its structure. This invention solves the problems in the state of the art. It has exceeded the known state of the technique because of its solution.

OBJECTIVE OF THE INVENTION The aim of the invention is to connect the different rings of multiple gas burners used in domestic cooking appliances. produced by aluminum extrusion method, designed to control the gas sent It is to reveal a double outlet safe aluminum gas cock with a monolithic body.

It is another object of the invention for household cooking appliances to be smaller than those currently available. dimensional and light, double output and double safety aluminum gas cock is to reveal.

Another object of the invention is to make gas passage channels of the body by aluminum extrusion method. It is formed by machining method after production.

Another object of the invention is to connect the safety valve housing and the first gas outlet and the second gas outlet. positioned so that they are parallel to each other.

One of the objects of the invention is to have the stove in the off position, in five different stages. It is to present a male design that provides the side of burners.

The structural and characteristic features of the invention and all its advantages are given in the following figures and more clearly thanks to the detailed explanations written with references to the figures. will be understood and therefore the assessment should also take into account these figures and detailed explanation. must be made by taking

EXPLANATION OF FIGURES Figure 1, Perspective view of the gas tap of the invention, Figure 2, Sectional view of the gas tap, which is the subject of the invention, Figure 3, Perspective view of the body in the gas tap, which is the subject of the invention, Figure 4, Another perspective view of the body in the gas tap of the invention, Figure 5, Sectional view of the body in the gas tap, which is the subject of the invention, Figure 6, Another cross-sectional view of the body in the gas tap of the invention, Figure 7, Another cross-sectional view of the body in the gas tap of the invention, Figure 8, Another cross-sectional view of the body in the gas tap of the invention, Figure 9, Another cross-sectional view of the body in the gas tap of the invention, Figure 10, Perspective view of the man used in the gas tap, which is the subject of the invention, Figure 11, another perspective view of the man used in the gas tap of the invention, Figure 12, Cross-section view of the gas tap, the subject of the invention, when the shaft is in the “0” reference position, Figure 13, Multi-burner according to the different positions of the shaft in the gas tap, which is the subject of the invention. schematic view showing the flashing states in the rings, Figure 14, Angle-power value diagram, Figure 15, Exploded view of the gas tap of the invention.

REFERENCE NUMBERS 1. Gas tap 1.1. Body 1.1.1. gas inlet 1.1.2. gas passage channel 1.1.4. outer ring gas passageway 1.1.5. outer ring set screw channel 1.1.6. outer ring gas outlet 1.1.7. inner ring gas passageway 1.1.8. inner ring set screw channel 1.1.9. Inner ring gas outlet 1.1.10. Men's nest 1.1.1 1 .Safety valve housing 1.2. Lever 1.3. safety valve 1.4. Shuttle 1.5. union 1.6. Adjusting screw 1.7. Male 1.7.1. fire hole 1.7.2. Yanis channel 1.8. Stamp 1.9. men's print bow 1.10. Pin 1.11. shock damping spring 1.12. IVIil 1.13. Lid 1.14. Gasket 1.15. O-ring 1.16. switch 1.17. switch washer 1.18. Ball 1.19. Hole 2. Burning status of multi-gas burner when the tap shaft is in the "0" reference position (burning not the case) 3. When the tap shaft is turned A1° in the counterclockwise (-) direction, the multi-gas burner flash state (only outer ring maximum burn-in-1 state) 4. Turn the tap shaft A2° counterclockwise (-) in the multi-gas burner. flash state (only outer ring minimum burn-out-2nd state) . When the tap shaft is turned A3° in the counterclockwise (-) direction, the multi-gas burner fire state (maximum burning of inner ring and outer ring-3rd state) 6. When the tap shaft A4“ is turned in the counterclockwise (-) direction, the multi-gas burner fire state (minimum burning of inner ring and outer ring-4th state) DETAILED DESCRIPTION OF THE INVENTION The invention is based on the different rings of multiple gas burners used in domestic cooking appliances. double outlets (1 .1.6 and 1.1.9) with a monolithic body (1.1) designed to control the throttle and It relates to a double safety gas cock (1) and the exploded view of the invention is shown in figure 15”. given. The gas tap (1), which is the subject of the invention, has a monolithic body (1.1) and a lever (1.2), safety It consists of rings (1.15) and said body (1.1) is extruded from aluminum material. obtained by the method. Impact damping spring(1.11) mentioned in the invention It can optionally be positioned at the end of the pin (1.10) or the shuttle (1.4). This In case of flame out in the system, by closing the gas passage channel (1.1.2) The safety valve (1.3) and the gas in the body (1.1) make the stove safe with a simple system. Its outputs (1 .1 .6 and 1.1.9) are positioned parallel to each other to provide ease of assembly.

In the body (1.1) of the gas tap(1), which is the subject of the invention, a gas inlet (1.1.1), the outer ring of the gas outlet(1.1.6), inner ring gas outlet(1.1.9), gas passageway(1.1.2), cross gas passage duct(1.1.3), outer ring gas passageway(1.1.4), inner ring gas passage(1.1.7), male It has a slot (1.1.10) and a safety valve slot (1.1.11). The mentioned gas passage Lever (1.2) is positioned in the channel (1.1.2) and gas passage in this channel (1.1.2) is possible. The diameter is designed to be larger than the diameter of the lever (1.2) for

On the male (1.7) used in the gas tap (1), which is the subject of the invention, the burn hole (1.7.1) and There is a reflection channel (1.7.2). The aforementioned combustion hole(1.7.1) is in the multiple gas burners. when controlling the minimum and maximum radius of the outer ring and the minimum radius of the inner ring, The reflection channel (1.7.2) controls only the maximum radius of the inner ring. Meet in five different stages, including the male(1.7) design and the stove being in the closed position. burners are provided and these burn scenarios can be seen in figure 13. This According to figure 13, when the gas cock (1) shaft (1.12) is in the "0" reference position (2), any gas The burner does not burn when the shaft (1.12) is at A1°, A2°, A3° and A4° angles. In the case of said A1°, the inner and outer ring burn maximum, in this case the resulting power value is Q1. In case of A2°, the inner ring is maximum, if the outer ring is the minimum lights up, and the power value becomes Q2. In case of A3° only the inner ring is max. lights up and the power value becomes Q3. In case of A4° where the angle is maximum, only the inner ring burns in the minimum position and the lowest power rating 04 is obtained. is being done. In this way, as the angle increases, the power value decreases, making it easier for housewives. easy use will be achieved. The angle between power and angle in this faucet(1) configuration. The ratio can be read from the graph in figure 14.

The working principle of gas taps in its most general form; rotation given to the tap shaft directing the gas at the desired flow rate to the gas outlets by transferring the movement of the gas to the male is in the form. In the gas tap (1), which is the subject of the invention, the gas entering from the gas inlet (1.1.1) is first It passes through the cross gas passage channel (1.1.3) and is kept in the safety valve housing (1.1.11).

The pin (1.10) is pressed by pressing the cooker button and pushing the shaft (1.12) by the user, from pin(1.10) to lift(1.2), from lever(1.2) to shuttle(1.4), the safety valve (1.3) is opened by transmitting it from the shuttle (1.4) to the safety valve (1.3). This In this case, the gas exits the safety valve housing (1.1.11) and passes through the gas passage channel (1.1.2). When the connection of the burner channel(1.7.2) and the gas passage channel(1.1.2) is provided, the gas male and the inner ring reaches the gas outlet (1.1.9). Accordingly, the subject of the invention is in the gas tap(1) said double security; Without opening the safety valve (1.3), gas passage to the male socket (1.1.10) without turning the throttle shaft (1.12) in the male socket (1.1.10). It is provided by not reaching its outputs (1.1 .6 and 1.1.9).

By turning the shaft (1.12) by the angle A1°, the inner and outer ring of the multi-gas burner In the 1st case when it is at maximum distance(3), male from the safety valve socket(1.1.11) gas filled into its socket (1.1.10), gas passage from the outer ring (1.7.1) through the burn hole (1.7.1) in the male (1.7) passing through the inner ring gas passage channel (1.1.7) and reaching the inner ring gas outlet (1.1.9).

In the 2nd case(4), when the shaft(1.12) is rotated by the angle A2°, the throttle is rotated in the male(1.7). from the inner ring gas passage channel (1.7.2) to the inner ring gas outlet (1.1.9) reaching and maximum burning of the inner ring continues. Ghazin's men(1.7) burn from the hole (1.7.1) to the outer ring set screw channel (1.1.5) and from there to the outer ring gas By reaching its outlet (1.1.6), the minimum burn of the outer ring of the burner is provided. 3. In case (5), the shaft (1.12) is rotated by the angle of A3°, and the rotation in the male (1.7) the outer ring gas hole (1.7.1) is disconnected from the outer ring gas passage channel (1.1.4). Gas passage to the outlet (1.1.6) is prevented. However, the fire in the gazin male(1.7) from the inner ring gas passage channel (1.7.2) to the inner ring gas outlet (1.1.9) reaching and maximum burning of the inner ring continues. In case 4(6), the shaft(1.12) The angle of rotation in the male(1.7) is equal to the highest angle of rotation A4“. channel(1.7.2) to inner ring set screw channel(1.1.8) and then to inner ring gas outlet(1.1.9) reaching the minimum radius of the inner ring is provided. Thus in case 4(6) only inner there is a minimum of friction in the ring.

As it is known, the more indentations and protrusions on the gas tap (1), the more mold manufacturing becomes. it's getting harder. Therefore, in the gas tap (1), the subject of the invention, the outer ring gas outlet (1.1.6) and the inner By positioning the ring gas outlet (1.1.9) on the same axis, mold manufacturing is also possible. it gets easier. In addition, the developed gas tap (1) is also very easy to manufacture, Its body (1.1) is manufactured from aluminum material as a single piece by extrusion method. method is opened. Connect the inner ring gas outlet(1.1.9) to the male(1.7) According to the number of channels, one or more holes (1.19) should be drilled. This is at least one The inner ring gas passage channel (1.1.7) and the inner ring with the machining method applied through the hole (1.19) the adjustment screw channel (1.1.8) is opened. Then at least one hole(1.19) mentioned It is closed with a ball (1.18). (:22 N 62# *W A 0 A1 A2 A3 A4

Claims (2)

REQUESTS . The invention is a body (1.1) produced as a monolith by aluminum extrusion method, designed to control the gas sent to different rings of multiple gas burners used in domestic cooking appliances, a shuttle (1.4) positioned in the said body (1.1) or positioned at the end of the pin (1.10). It is related to the double outlet and double security gas tap (1) consisting of a pulse damping valve (1.3), and its feature is; . Said monolithic body (1.1) has a gas inlet (1.1.1), gas passage channel (1.1.2), cross gas passage channel (1.1.3), outer ring gas passage channel (1.1.4), outer ring adjustment screw channel (1.1.5), outer ring gas outlet (1.1.6), inner ring gas passageway (1.1.7), inner ring set screw channel (1.1.8), inner ring gas outlet (1.1.9), male seat It consists of (1.1.10) and safety valve housing (1.1 .11), o In said male (1.7) the flare hole (1.7.1), which controls the minimum and maximum angle of the outer ring, and the flare channel (1.7.1), which controls the minimum side of the inner ring. ?.2) is found, 0 A1° rotation of the shaft (1.12) in the maximum rotation of the inner and outer ring . A3° rotation of the inner ring at maximum rotation and minimum rotation of the outer ring 0 Only of the shaft(1.12) at the inner ring maximum rotation 0 0 Only of the shaft (1.12) of the inner ring at minimum rotation 1.12) A4° is characterized in that the angle of rotation is between 230° and 260°. 2. The invention is the monolithic body (1.1) mentioned in claim 1, and its feature is; The inner ring has a gas hole (1.19).