EP1859203A1 - Gas ignition device integrated with socket cover - Google Patents

Abstract

This invention concerns, instant ignition of gases with gas ignition device integrated with socket cover. Is described by Integration of High voltage transformer unit (11) and electronic circuit unit (10-10a) and their installation into the box (2-2a) and eventually filling insulation material (9) in to the box (2-2a) from Holes for filling insulation material (8).

Description

DECSRIPTION

GAS IGNITION DEVICE INTEGRATED WITH SOCKET COVER

This invention concerns, instant ignition of gases (natural gas, lpg etc.) with gas ignition device integrated with socket cover which works with battery or mains voltage and ignition of gas with high voltage generated.

Electronic gas ignition devices are being used in almost all cookers and ovens .

In the known solutions, manufacturers use the same conventional method for decades. In this method, at least one high voltage transformer with secondary winding and electronic pulse generator circuit is used. A capacitor which is charged at a certain frequency is discharged over the primary thus energy with high voltage is formed on tips of the secondary winding. This energy is sent to gas burners by insulated special spark plug electrode. Eventually the ignition spark lets the gas burn.

Generation of the higri voltage energy is almost same in all methods but all manufaturers have developed genuine methods for operation principle, manufacturing method and box of the appliance. Common character of all these methods is that the appliance is being manufactured in a box.

Electronic circuits and parts of the operation system are very close in high voltage transformers of electronic gas burner appliances. All parts are mounted into a box and fixed by the help of a spanner wrench or a screw spanner.

Sockets of terminals needed in order to maintain energy to burners are being fixed on the box. Some manufacturer's place these socket of terminals on to the carcass. In some appliances, high voltage transformer is placed in a limited area of the box and electronic circuit is placed to the rest of the area thus oven ignition device is manufactured with separate sections and filled with an insulation material.

These applications do not change operation of the product but competitive technology of the age inevitably needs serial manufacturing and automation. This invention concerns, .instant ignition of gases (natural gas, lpg etc.) with gas ignition device integrated with socket cover which works with battery or mains voltage and ignition of gas with high voltage generated overcomes all above mentioned problems. And the whole product has a special design with monoblock structure over a socket and made of heat resistant synthetic plastic material.

This method of production makes manufacturing process easy, maintaining easy access for controls. Effective monitoring of possible technical troubles and interference for solution. Electronic gas ignition device integrated with socket cover has two different models, model with a push button and model without a push button.

This invention is described in a more detailed fashion in the following drawings.

Figure 1 Top, Side, External , Internal and Perspective view of the cover with socket.

Figure 2 Top, Side, External , Internal and Perspective view of the cover model with a push button.

Figure 3 Exploded and Perspective view of the high voltage transformer unit.

Figure 4 Top, Side and Perspective view of the Electronic circuit unit.

Figure 5 Frontal, Top, Side and Perspective view of electronic circuit unit of the model with a push button. - ^{' ■} Figure 6 Top, Side and Perspective view of the Monoblock structure of the electronic gas ignition device.

Figure 7 Top, Side and Perspective view of the Monoblock structure of the electronic gas ignition device.( model with a push button)

Figure 8 Perspective view of the box. Figure 9 Perspective view of the box of the (model with push button)

Figure 10 Exploded view .of the gas ignition device integrated with socket cover.

Figure 11 Exploded view of electronic gas ignition device ( model with a push button)

Figure 12 Mountage view of the electronic gas ignition device integrated with socket cover. Figure 13 Mountage view of electronic gas ignition device integrated with socket cover. ( model with a push button) Figure 14 Top, perspective and cross-sectional view of electronic gas ignition device integrated with socket cover. ( model with a push button)

Description of references: Nr Parts Name

1 Socket

1 a Socket (model with a push button)

2 Box

2a Box (model with a push button) 3 High voltage terminal

4 Voltage supplier terminal

4a Voltage supplier terminal (model with a push button)

5 High voltage terminal socket

6 Voltage supplier terminal socket 7 Fixing nails or handles

8 Holes for filling insulaton material

9 Insulation material

10 Electronic circuit unit

10a Electronic circuit unit (model with a push button) 11 High voltage transformer unit

12 Primary winding

13 Secondary winding

14 Ferrite core

15 Seconder carcass I⁶ Protrudings of voltage supplier terminal socket

¹⁷ Protrudings of high voltage supplier terminal socket

18 Insulation separator

19 High voltage terminal socket hole's chamfer

20 Electronic circuit card 21 Voltage supplier terminal output holes

22 Voltage supplier terminal socket hole' s chamfer 23 High voltage bobbin carcass knob

24 High voltage bobbin carcass external diameter tangent

25 High voltage terminal output hole

26 Seconder winding tip point soldering 27 Earthing element

28 Earthing element output hole

29 Socket edges set

30 Voltage supplier terminal limiting point

31 Soldering surface of the electronic circuit unit 32 Box base

33 Electronic components

34 Insulation distance between High voltage bobbin carcass external diameter tangent and socket inner surface

35 Insulation distance between High voltage bobbin carcass external diameter tangent and box inner surface

36 Insujation distance between electronic components and socket inner surface

37 Insulation distance between electronic components and voltage supplier terminal socket hole base 38 Electronic circuit card fixing part (model with a push button)

39 Insulation distance between box inner surface and electronic circuit card soldering surface.

40 Electronic circuit fixing channel (model with a push button)

41 Insulation material separator (model with a push button) 42 Push button adjusting mechanism (model with a push button)

43 Push button wings (model with a push button)

44 Start key (model with a push button)

45 Push button body (model with a push button)

46 Mobile adaptor (model with a push button) 47 Adaptor spring (model with a push button)

48 Adaptor spring' s hole (model with a push button) 49 Level determination hole (model with a push button)

50 Level fixing cap (model with a push button)

51 Level determination nail (model with a push button)

52 High- voltage bobin carcass hole 53 Integrated circuit elements

53a Integrated circuit elements (model with a push button)

In this invention, Socket and Socket (model with a push button) (l-la)_vis made of heat resistant synthetic plastic material. Electronic circuit unit and electronic circuit unit (model with a push button) (10-1Oa) and High voltage transformer unit (11) are easily integrated in a monoblock structure.

Socket (1-1 a) has a prism shaped Protrudings of voltage supplier terminal socket (16) on inner surface which helps integration of Electronic circuit unit (10-1Oa) and High voltage transformer unit (11) easily in a monoblock structure. Protrudings of high voltage terminal socket (17) are also found at inner surface of the socket. These are empty and on the middle part of their base; splitted structures are found to fix High voltage terminal (3) and Voltage supplier terminal (4-4a).Empty part is laid externally according to the socket (1-la) and also fixes terminals (3-4-4a). Its depth is sufficient to keep terminals (3-4-4a) in. These empty prisms are called High voltage terminal socket(5) and Voltage supplier terminal socket (6). These (5-6) also help keeping female terminals connected which are being attached to terminals (3-4-4a). High voltage terminal socket and Voltage supplier terminal socket (5-6), socket (1-la) all has a set (29) surrounding them. This set (29), controls depth of socket and socket holes and also avoids liquid flow to the High voltage terminal socket(5) and Voltage supplier terminal socket (6).

Minimum two Voltage supplier terminal socket (6) are found of which Electronic circuit units (10-1Oa) are applied. These terminals are symmetrical. To avoid short circuit of supplier voltage, these symmetrical terminals are separated with Insulation separator (18). In order to help connection of Voltage supplier terminals (4-4a) to High voltage terminal socket and Voltage supplier terminal socket (5-6), which are specially shaped and installed on to the electronic circuit card (20). Voltage supplier terminal output holes (21) and Voltage supplier terminal socket hole's chamfer (22) also helps easy connection. But the Voltage supplier terminal output holes (21) tightly surrounds Voltage supplier terminal (4-4a) and avoids liquid flow between each other.

Voltage supplier terminals (4-4a) are paralel and symmetrically installed with Electronic circuit card (20), Electronic components (33), Voltage supplier terminal output holes (21) and Socket (Ma).

When voltage supplier terminals (4-4a) installed on electronic circuit card (20), Voltage supplier terminal socket (6) and Voltage supplier terminal output holes (21) are all in same axis and pushed, Voltage supplier terminal and (4-4a) shall rub, supplier terminal output holes (21) and moves to the frontal surface of socket (1-la). supplier terminal output holes (21) are symettrical and paralel each other. Their depth , length are appropriate and conformant with Voltage supplier terminal socket (6). When the proper positioning is achieved than the required insulation distance between soldering surface (31) shall ve valid. ;«

,3 When enough distance between inner surfaces are maintained than Voltage supplier terminal limiting point (30) is coincide with socket base (6).

A primer winding (12), High voltage unit (11); ferrite core (14), seconder winding (13) at is over seconder carcass and high voltage terminals (3). High voltage terminal socket (5) in which (11) is applied are two pieces and their number vary into burners ignited.

High voltage terminal (3) and High voltage bobbin carcass knob (23) are in coordination and symmetrically placed on socket (1-la). High voltage terminal sotket hole's chamfer (19) is created on High voltage terminal output hole (25) for easier connection of High voltage terminal (3) that has riveted to High voltage bobbin carcass knob (23) and to High voltage terminal socket (5) High voltage terminal output hole (25) sizes are so designed to surround High voltage terminal (3) tightly avoiding liquid flow between High voltage terminal output hole (25) and High voltage terminal (3).

High voltage terminal (3) connected on High voltage bobbin carcass knob (23). When High voltage terminal socket (5) and High voltage terminal output hole (25) at the inner surface are gathered together on the same axis and pressed ; High voltage terminal (3) rubs High voltage terminal output hole (25)'s wall and moves from High voltage terminal socket (5) to exterior side of socket (1-1 a). Thus when the socket is observed (1-la); High voltage terminals (3) in the High voltage terminal socket (5) are symmetrical and paralel. They are conformant with female terminals plugged except their length but so designed not to leave High voltage terminal socket (5). High voltage terminal (3) has their fitting area over High voltage bobbin carcass knob (23). They are fixed by attaching their thin tips over High voltage bobin carcass hole (52). Their tips should contact, Secondary winding (13) and allow soldering of secondary winding by Seconder winding tip point soldering (26). So when High voltage terminal (3) is inserted to their housing on High voltage bobbin carcass knob (23). Thin tips should definitely not be over High voltage bobbin carcass external diameter tangent.

Insulation distance between electronic components and voltage supplier terminal socket hole base (37) is constant between Socket (1-la), Electronic circuit unit (10-1Oa), box (2-2a) , Electronic components (33) and Voltage supplier terminal socket (6) base.

Enough Insulation distance between High voltage bobbin carcass external diameter tangent and socket inner surface (34) is maintained; between High voltage bobbin carcass external diameter tangent (24) and Socket (1-la) when High voltage bobbin carcass knob (23) and High voltage terminal socket (5) meet and The height of High voltage terminal socket (5), from socket (1-la) inner surface is inserted to the housing. When socket (1-1 a) is integrated to the box (2-2a) and insulation material (9) is filled over gas ignition system , the Insulation distance between High voltage bobbin carcass external diameter tangent and socket inner surface (34) is so designed to avoid any Leakage or short circuit. At least one, hole for filling insulaton material is needed to fill insulation material (9) in.

Box (2-2a) is made of heat resistant synthetic plastic material and surrounds the electronic gas ignitioner electronic components (33). But box (2-2a) inner wall and High voltage bobbin carcass external diameter tangent (24) constitute a distance of insulation. (35) To fix Electronic circuit card (20) in models with a push button, the box (2-a) has an Electronic circuit fixing channel. (40). This channel is found on the same axis with Electronic circuit card fixing part (38). When socket (Ia) is closed on to the box (2a) ; Electronic circuit card (20) is pressed between Electronic circuit fixing channel (40).

Insulation material separator (41) is also found in Electronic circuit fixing channel (40).

Push button adjusting mechanism (42) is mounted on external, side surface of the box

(2-a) and lays to the opposite direction with the device is fitted.

Push button adjusting mechanism's (42) axis is on the same line with Electronic circuit card (20) and Start key. Push button adjusting mechanism (42),made up of Push button body (45), Mobile adaptor (46) and Adaptor spring (47).

Push button body (45) is shaped like a cylinder which is empty inside. And has an

Adaptor spring's hole (48) which adaptor spring (47) can fit. Two Level determination holes (49) are found on side walls which are symmetrical. These holes (49) restrict Mobile adaptor's movement. (46).

Push button wings (43) are also found on Push button body (45). Mechanism adaptor

(46) is shaped like a cylinder which is full inside and has a Level fixing cap (50). Two

Level determination nails (51) can be seen on side surfa^s and off position is maintained by the help of Adaptor spring (47). When Start key (44) is 'ON' (OFF) position, Level determination nail (51) reaches to the highest point of Level determination hole (49) on Push button body (45). the highest point of Level determination hole (49) on Push button body (45).

When adaptor cap (50) is pushed, Start key is either ON or OFF and voltage reaches or cuts off from Electronic circuit card (20).

Moreover in some models, there is a hole (28) for earthing element (27).

Box (2-2a) is only a cover for integrated circuit elements (53-53a), a housing for insulation material (9), Push button adjusting mechanism's (42) main body, and has nails (7) and knobs on it to fix the appliance to somewhere appropriate.

Claims

1- This invention is about Electronic gas ignition device integrated with socket cover. Its characteristics is that; socket (1) cover made up of synthetic plastic material, socket (Ia) Protrudings of voltage supplier terminal socket (16) and Protrudings of high voltage terminal socket (17), voltage terminal output holes (21) found between these protrudings (16-17). High voltage terminal output hole (25). High voltage terminal socket (5), Voltage supplier terminal socket (6) found on external surface of the cover. Socket edges set (29) that surrounds High voltage terminal socket (5) and Voltage supplier terminal socket (6); Integrated circuit elements (53-53a) integrated with socket cover (1-la). Electronic circuit card (20), Electronic components (33), Voltage supplier terminal (4-4a), Start key (model with a push button) (44), Soldering surface of the electronic circuit unit (31), Electronic circuit unit (10-1Oa) where Voltage supplier terminal limiting point (30) is found out. Connected to the Socket (1-la) via high voltage terminals (3), primary winding with insulated copper wire is winded (12) on ferrit core(14) . Seconder winding (13) with enamelled copper wire is winded over seconder carcass (15) and the high voltage transformer unit (11) consisting these elements. Box (2-2a) with Fixing nails or handles (7), and Push button adjusting mechanism (model with a push button) (42).Filling insulation material from Holes for filling insulaton material (8) found over socket (1-la).

2- Box (2-2a) claimed in claim 1, which has Fixing nails or handles (7)

3- Box (2-2a) claimed in claim 1, made of heat resistant synthetic plastic material and existing Push button adjusting mechanism (for model with a push button) (42). 4- Box (2-2a) claimed in claim 1, which has an insulation distance between inner wall and High voltage bobbin carcass external diameter tangent (24).

5- High voltage terminal socket (5) claimed in claim 1, which has an insulation distance

(34) between Socket (1-la) and High voltage bobbin carcass external diameter tangent

(24). 6- Socket (1-la) claimed in claim one, which has Holes for filling insulaton material (8).

7- Push button adjusting mechanism (model with a push button) (42) claimed in claim! , which is constructed from Push button body (45), Mobile adaptor (46) and Adaptor spring (47).

8- Voltage supplier terminal socket (6) claimed in claim 1, with Voltage supplier terminal output holes (21), Voltage supplier terminal socket hole's chamfer (22) 9- Voltage supplier terminal socket (3) claimed in claim 1, which is found over High voltage bobbin carcass knob (23) and which is symmetrical and paralel.

10- High voltage terminal socket (5) claimed in claim 1, which has High voltage terminal output hole (25) and Voltage supplier terminal socket hole's chamfer (22).

11- Voltage supplier terminal socket (6) claimed in claim 1, which have prism shaped and at least two prisms which is symmetrical and having , a Insulation separator (18) between them.

12- High voltage terminal socket (5) claimed in claim 1, which have prism shaped and at least two prisms which is symmetrical and paralel also in adaptation with Voltage supplier terminal socket (3). 13- Voltage supplier terminal (4) claimed in claim 1, and supplier terminal (4a) which is found paralel and symmetrically and on the same axis with supplier terminal output holes (21), Electronic components (33) , electronic circuit card (20). 14- Voltage supplier terminal socket (6) claimed in claim 1, which has an insulation distance (37) between socket base and electronic components (33). 15- Voltage supplier terminal socket (6) claimed in claim 1, which is found on socket cover (1-la).

16- Voltage supplier terminal socket (6) and High voltage terminal socket (5) claimed in claim 1, which is surrounded by Socket edges set (29).

17- Voltage supplier terminal socket (6) claimed in claim 1, which has an insulation distance (36) between electronic components (33) and socket (1) and socket's inner surface (Ia) (for model wjth a push button).

18- Voltage supplier terminal socket (6) claimed in claim 1, which has an insulation distance (39) between Soldering surface of the electronic circuit unit (31) and box base (32). 19- High, voltage terminal socket (5) claimed m claim 1, which, is found on socket cover (1-la)