A GAS TAP COMPRISING A STEP MOTOR AND SOLENOID COIL

Abstract

 The invention relates to a gas tap having a motor which can be driven by an electronic circuit that provides direct control, i.e. without requiring a transmission element, as well as a solenoid coil connected to the gas inlet in the gas tap body for safety purposes, said gas tap cooperating therewith and having the narrowest height. In standard gas taps with a touch-control system and servo motor implementation used in the state of the art, the user performs burning at the desired power (kW) level. In the system within the state of the art, the servo motor rotates in accordance with the data sent to the electronic card upon the user entering the command that s/he desires, and this rotational movement is transferred to the male located in the standard gas tap by means of the gears disposed on the servo motor, thereby directing gas passage. Subsequent to achieving full gas passage by means of a solenoid coil arranged in the body gas inlet according to the invention, the rotational movement obtained from the motor is transmitted to the male and gas passage at the desired sensitivity is achieved without using any additional transmission element, thanks to the motion that can be driven by an electronic circuit. According to the invention, the motor which can be driven by an electronic circuit can be directly connected to the body. Likewise, said solenoid coil can also be directly connected to the tap body. The invention allows using solenoid coils of different structure and power. Moreover, two-level safety is achieved in the invention by locating the solenoid coil right before the body gas inlet. One of them is the solenoid coil, and the other is the male located in the tap.

Description

TECHNICAL FIELD

[0001] The invention relates to a gas tap having a motor which can be driven by an electronic circuit that provides direct control, i.e. without requiring a transmission element, as well as a solenoid coil connected to the gas inlet in the gas tap body for safety purposes, said gas tap cooperating therewith and having the narrowest height. In standard gas taps with a touch-control system and servo motor implementation used in the state of the art, the user performs burning at the desired power (kW) level. In the system within the state of the art, the servo motor rotates in accordance with the data sent to the electronic card upon the user entering the command that s/he desires, and this rotational movement is transferred to the male located in the standard gas tap by means of the gears disposed on the servo motor, thereby directing gas passage. Subsequent to achieving full gas passage by means of a solenoid coil arranged in the body gas inlet according to the invention, the rotational movement obtained from the motor is transmitted to the male and gas passage at the desired sensitivity is achieved without using any additional transmission element, thanks to the motion that can be driven by an electronic circuit. According to the invention, the motor which can be driven by an electronic circuit can be directly connected to the body. Likewise, said solenoid coil can also be directly connected to the tap body. The invention allows using solenoid coils of different structure and power. Moreover, two-level safety is achieved in the invention by locating the solenoid coil right before the body gas inlet. One of them is the solenoid coil, and the other is the male located in the tap.

STATE OF THE ART

[0002] The U.S. Application No. US 20020045142A1 titled 'Electronic Gas Cooktop Control with Simmer System and Method Thereof discloses an electronically modulated gas valve responsive to a touch-sensitive user interface; however, unlike our application, gas passages are achieved by solenoid valves in this application. Said solenoid valves used here fail to regulate the gas at the desired rate and they are not convenient for small flow rate controls. In the system according to the invention, however, a standard gas tap that is integrated with a motor driven by an electronic circuit and can be directly driven without requiring any transmission element is used, wherein the user can readily adjust the gas passage amount that s/he desires.

[0003] Another application made by our firm Tura

Gaz Armatürleri San ve Tic A.

. with the application No. TR 2014 03208 relates to a touch-sensitive control system of a standard gas tap which is synchronized with a gear group comprising a servo motor, and to a standard gas tap providing a single-switch or remote control of gas passage thanks to said system. In the system according to the invention, however, a gas tap that is integrated with a motor driven by an electronic circuit and can be directly driven without requiring any transmission element is used The gas tap integrated with the motor driven by an electronic circuit, which is both convenient as a system and low in cost, is an innovative implementation.

[0004] Another application which is owned by Armour Magnetic Components, Inc. with the application No. US 7871060 B2 discloses a solenoid coil having a cylindrical armature. Said solenoid coil gives energy to the spring coil with the electromagnetic field, thereby allowing the cylindrical armature to open and close. However, a sensitive regulation of the gas cannot be achieved in this case. Said sensitivity is achieved by means of the holes disposed on the male cone within the gas tap according to the invention.

[0005] And another application No. EP1036987 by the firm Orkli A.Coop discloses an electronically modulated electromagnet which is responsive to a touch-sensitive user interface. This electromagnet can be directly used in the gas tap according to our invention.

[0006] In light of the state of the art described above, it is an innovative approach to use together gas taps which are integrated with a motor driven by an electronic circuit and can be directly driven without requiring any transmission element, and gas taps which comprise at least one solenoid coil within touch-controlled domestic cooking appliances. The present invention solves the problems of the prior art, and thus exceeds the state of the art.

OBJECTS OF THE INVENTION

[0007] The object of the invention is to introduce a gas tap comprising at least one motor driven by an electronic circuit and at least one solenoid coil, said gas tap being suited for being mounted within the cooker with quite narrow spaces and allowing production of thin cookers owing to the height thereof.

[0008] Another object of the invention is to provide safety in the first inlet by placing a solenoid coil in gas inlet of the tap. Thus, the system will always remain safe even in case of a breakdown in either one of the cone or coil.

[0009] In a preferred embodiment of the invention, all types of standard solenoid coils used today can be used in the present system.

[0010] Another object of the invention is to provide the body as a single-piece body made of aluminum.

[0011] And another object of the invention is to provide more than one burning hole on the male arranged in the body. Hence, a sensitive gas passage at the desired level will be achieved.

[0012] In a preferred embodiment of the invention, the stop means disposed on the body is embedded inside a plastic component, thereby isolating the former. In this manner, in case the motor driven by electronic circuit loses its reference point or position, it can find its reference point again due to fact that the pin disposed in motor shaft hits or touches thereto.

[0013] In a preferred embodiment of the invention, said motor driven by an electronic circuit and said solenoid coil can be directly connected to the system using at least two screws.

[0014] In a preferred embodiment of the invention, the gas tap body may have two gas outlets.

[0015] The structural and characteristic features and all advantages of the invention will be understood more clearly with the detailed description written by referring to the following figures; therefore, the evaluation needs to be done by taking these figures and the detailed description into consideration.

BRIEF DESCRIPTION OF THE FIGURES

[0016] 

Fig. 1 is the view of the gas tap on the gas distribution pipe,

Fig. 2 is the view of the gas tap on the gas distribution pipe in the alternative embodiment,

Fig. 3 is the perspective view of the gas tap,

Fig. 4 is the perspective view of the gas tap in the alternative embodiment,

Fig. 5 is the view of double-mounting of the gas tap on the gas distribution pipe,

Fig. 6 is the view of triple-mounting of the gas tap on the gas distribution pipe,

Fig. 7 is the view of reverse mounting of the gas tap on the gas distribution pipe,

Fig. 8 is the exploded view of the gas tap,

Fig. 9 is the exploded view of the gas tap in the alternative embodiment,

Fig. 10 is the cross-sectional view of the gas tap,

Fig. 11 is the cross-sectional view of the gas tap in the alternative embodiment,

Fig. 12 is the perspective view of the body,

Fig. 13 is the perspective view of the body in the alternative embodiment,

Fig. 14 is the cross-sectional view between the stop means and motor,

Fig. 15 is the top perspective view of the plastic carrier,

Fig. 16 is the bottom perspective view of the plastic carrier, and

Fig. 17 is the perspective view of the stop means.

REFERENCE NUMERALS

[0017] 

1. Gas tap

1.1. Body

1.1.1. Gas inlet

1.1.2. Gas outlet

1.1.3. Solenoid coil pool

1.1.4. Cross-sectional hole

1.1.5. Quadrangular channel

1.1.6. Gasket bearing

1.1.7. Body hole

1.2. Male

1.2.1. Cone

1.2.2. Burning holes with different properties

2. Gas tap in the alternative embodiment

2.1. Union

3. Solenoid coil

4. Electromagnet in the alternative embodiment

5. Motor driven by electronic circuit

5.1. Pin

6. Gas distribution pipe

7. Stop means

7.1. Angular protrusions

7.2. Thread

8. Plastic carrier

8.1. Cylindrical bearing

8.2. Longitudinal bearing

8.3. Lug

8.4. Quadrangular bearing

9. Screw

10. Gasket

11. Contact means

DETAILED DESCRIPTION OF THE INVENTION

[0018] The invention relates to a gas tap (1) which can mounted with quite narrow spaces and has a motor (5) which can be driven by an electronic circuit that provides direct control, i.e. without requiring a transmission element, as well as a solenoid coil (3), said gas tap cooperating therewith and having the narrowest height and a thin design. Fig. 1 shows the view of the gas tap (1) according to the invention on the gas distribution pipe (6). Fig. 2 shows the view of the gas tap (2) on the gas distribution pipe (6) in an alternative embodiment. In standard gas taps with a touch-control system and servo motor implementation used in the state of the art, the user performs burning at the desired power (kW) level. In the system within the state of the art, the servo motor rotates in accordance with the data sent to the electronic card upon the user entering the command that s/he desires, and this rotational movement is transferred to the male located in the standard gas tap by means of the gears disposed on the servo motor, thereby directing gas passage.

[0019] The gas tap (1) according to the invention or the gas tap (2) in the alternative embodiment comprises at least one solenoid coil (3) or a similar electromagnet (4) in the alternative embodiment, a motor (5) driven by electronic circuit which enables the male (1.2) inside the body (1.1) to be rotated, at least one stop means (7) that stops the motor (5) driven by electronic circuit and allows position control, a plastic carrier (8) that provides isolation of said stop means (7) inside the tap, and screws (9) for connecting all of these systems. Basically, the first area through which the gas first enters is the gas inlet (1.1.1) disposed on the tap body (1.1), and right behind is the solenoid coil pool (1.1.3) connected thereto. Solenoid coil (3) retracts upon being triggered and the gas in the pool (1.1.3) reaches the male (1.2) by means of the body hole (1.1.7) connected to the male cone (1.2.1). For directing the gas to the outlet, energy is provided to the motor (5) driven by electronic circuit, thereby making the male (1.2) assume the desired position. The desired gas flow rate can then be adjusted by way of the burning hole (1.2.2) on the male (1.2) with more than one characteristics. In case the gas outlet (1.1.2) fully overlooks a burning hole (1.2.2) on the male (1.2), it is operated by LPG; while in case the former fully overlooks two burning holes (1.2.2) on the male (1.2) simultaneously, it is operated by NG. In order for the gas to reach the outlet, there is provided a cross-sectional hole (1.1.4) extending from the male (1.2) to the cone (1.2.1). There also exists a gasket bearing (1.1.6) in order to provide sealing on the body (1.1) subsequent to connecting the solenoid coil (3) on the body (1.1). A gasket (10) with the desired property may be arranged in said bearing (1.1.6). Said solenoid coil (3) is connected to the body (1.1) by means of at least two screws (9). In the alternative embodiment, however, said electromagnet (4) does not require either screw (9) or gasket (10). Said electromagnet (4) is tightened by means of a union (2.1) therebehind. In order for the motor (5) driven by electronic circuit not to lose its position, a stop means (7) is assembled on the body (1.1). However, said stop means (7) needs to be isolated with the body (1.1). To that end, a plastic carrier (8) is used and mounting onto the body (1.1) is performed by means of at least two screws (9.). A quadrangular channel (1.1.5) is arranged on the body (1.1) so that the plastic carrier (8) can be engaged with the body (1.1) in an easy manner. The plastic carrier (8) is thus prevented from turning to the right and left. Moreover, the plastic carrier (8) can be sensitively located in this manner. There exist cylindrical (8.1) and longitudinal (8.2) bearings on the plastic carrier (8), said bearings allowing the engagement of the contact means (11), and at the same time allowing the contact means (11) to move away from the body (1.1). Also disposed are at least two lugs (8.3) facilitating the engagement of the plastic carrier (8) inside the body (1.1). A quadrangular bearing (8.4) is arranged on the plastic carrier (8) in order to mount the stop means (7) and prevent it from turning to the right and left. Said stop means (7) is quadrangular in cross-section; wherein it comprises angular protrusions (7.1) that stop the pin (5.1) on the motor (5) driven by electronic circuit. Said angular protrusions (7.1) are located such that they will be parallel to the pin (5.1). The inner section of the stop means (7) is provided with threads (7.2) to allow securing the same.

[0020] The protection scope of this application is stated under the claims and cannot be restricted to the descriptions given only for illustrative purposes. It is because it is clear that any person skilled in the art can produce the novelty provided by the invention without drifting apart from the main subject of the invention and/or s/he can apply this novelty to other fields used in the related technique for similar purposes. Therefore, it is obvious that such embodiments will lack novelty, and especially will lack the criteria of exceeding the prior art, i.e. comprising inventive step.

Claims

1. A gas tap (1) used in domestic cooking appliances, characterized in that it can be mounted in gas distribution pipes (6) with quite narrow spaces; that it provides control without requiring any transmission element; and that it has a body (1.1) having a gas inlet (1.1.1) and one or more gas outlets (1.1.2), a motor (5) driven by electronic circuit connected to said body (1.1) with a pin (5.1), a solenoid coil (3) connected for safety purposes, and a male (1.2) provided thereon with at least two burning holes (1.2.2).

2. The male (1.2) as in Claim 1, which provides burning at the desired sensitivity and gas passage at the desired flow rate, characterized in comprising at least two different burning holes (1.2.2) thereon.

3. Burning holes (1.2.2.) different from one another as in Claim 1 or 2, characterized in that in case the gas outlet (1.1.2) fully overlooks a burning hole (1.2.2) on the male (1.2), it is operated by LPG; while in case the gas outlet (1.1.2) fully overlooks two burning holes (1.2.2) on the male (1.2) simultaneously, it is operated by NG.

4. The solenoid coil (3) as in Claim 1, characterized in that it is located right behind the gas inlet (1.1.1) of the gas tap body (1.1).

5. The motor (5) driven by electronic circuit as in Claim 1, characterized in that rotational movement is achieved owing to the male (1.2) assuming the desired position by means of the pin (5.1) disposed on the motor (5), without requiring any transmission element.

6. The gas tap body (1.1) as in Claim 1, characterized in comprising a gas inlet (1.1.1), one or more gas outlets (1.1.2), a solenoid coil pool (1.1.3) where the gas is stored before triggering the solenoid coil (3), a cross-sectional hole (1.1.4), a quadrangular channel (1.1.5) that prevents the plastic carrier (8) from turning to the right and left, a gasket bearing (1.1.6) for accommodating the gasket (10) intended for sealing, and a body hole (1.1.7).

7. The plastic carrier (8) as in Claim 6, characterized in that it can be mounted in the body (1.1) for isolating the stop means (7) within the gas tap (1), and that it comprises a quadrangular bearing (8.4) for preventing it from turning to the right and left, cylindrical (8.1) and longitudinal (8.2) bearings that allow the contact means (11) to be engaged and the contact means (11) to move away from the body (1.1), and lugs (8.3).

8. The stop means (7) quadrangle in cross-section as in Claim 7, characterized in that it performs stopping and controlling of the motor (5) driven by electronic circuit; that it is mounted in the body (1.1) in order that the motor (5) driven by electronic circuit does not lose its position; and that it has angular protrusions (7.1) and threads (7.2) for stopping the pin (5.1) disposed on the motor (5) driven by electronic circuit.

9. The body hole (1.1.7) as in Claim 6, characterized in that it allows the gas within the solenoid coil pool (1.1.3) to reach the male (1.2).

10. The cross-sectional hole (1.1.4) as in Claim 6, characterized in that it allows the gas to reach the gas outlet (1.1.2), from the male (1.2) towards the cone (1.2.1)

Drawing