TH43408A - Multi-purpose igniter - Google Patents

Abstract

DC60 The invention involved a multi-purpose igniter. This includes a case with a handle on the side. One end And a mouthpiece with an outlet at the other end And this includes the supply Connected fuel for optional fluid contact with the spray mouth. Electrical igniter assemblies such as a piezoelectric mechanism There will be one electrical contact and a second electrical contact which Connected to work with one electrical corridor This electrical path includes a distant channel near the With an exit channel Ignition protection assembly that forms a second electrical path. Will be connected in Working with electric igniter assemblies And there are no-working styles and no-working styles. The resistance of the second path is less than the Resistance of the first electrical corridor So that the electric current generated by the igniter assembly Electricity is selected to move in a second electrical path. In the form that has worked Corridor resistance The second electricity is greater than the resistance of the first path. So that the said current will Choose to move in the first electrical corridor. And jump over the first gap to form a spark to ignite fuel from the fuel supply. The second path can be a continuous path to short circuits. Electrical igniter assembly in idle form A second electrical path can include The gap which is smaller than the first gap. So that sparks would be formed across this gap instead Channel one In the non-working form An anti-igniting assembly can be connected to Various mechanical mechanisms To prevent unwanted stimulation The invention involved a multi-purpose igniter. Including the case with a handle at the end of the side And a mouthpiece with an outlet at the other end And which include a connected fuel supply for selectable fluid contact with a spout, electric igniter assemblies such as a piezoelectric mechanism. There will be one electrical contact and a second electrical contact connected to work with one electrical path. A single electrical path will include a separate opening near the exit. The ignition protection assembly that forms the second electrical path is connected to work with the electric igniter assembly. And there are no working styles and there are no working styles. In the non-working form The resistance of the second path is less than the resistance of the second path. So that the current generated by the electric igniter assembly is selected to travel in a second path. In the form that has worked The resistance of a second path is greater than that of one path so that the current will selectively travel in one path. And jumped across a distant hole to form a spark In order to ignite the fuel source. Two pathways can be a continuous path to short circuit the electric igniter assembly in a idle manner. A second path can include a distance smaller than the first. So that the spark could be formed across this gap instead of the first. In the non-working form An anti-igniting assembly can be connected to a variety of mechanical mechanisms. To prevent unwanted stimulation

Claims (8)

1. The igniter which consists of Housing with spout with outlet port and connected fuel supply for optional fluid contact with the spout. An electric igniter with one electrical contact and a second electrical contact. Which is connected to work with the first electrical path. The first electrical corridor consists of a separate channel near the exit. A second electrical path, connected to work with an electric igniter assembly. Such second power corridor has a functional layout and a non-functional layout. That is in a form that does not work The resistance of the second path is less than the resistance of the second path. So that the current generated by the electric igniter assembly Will choose to move in the second electrical corridor; And that is in a form that does not work The resistance of a second path is greater than that of one path. So that the current will selectively travel in the first path And jumping over the first channel to form a spark In order to ignite the fuel from the source Supply the said fire 2. The igniter of the wrist right 1 where in a non-functional form. The second electrical path is a continuous path for short circuits, excavations, assembling the electric igniter. 3.Electric excavator of claim 1, where the second passage includes the second distant. 4. Igniter of claim 3 where the second vent is larger than the one in the functional layout. 5. Igniter of claim 4, where the second vent is at least twice as large as the one in the functional layout. It is also further assembled with the thrust assembly connected to work with the housing. In order to supply fuel from the fuel supply And in order to drive the igniter assembly 7. Igniter of claim 6, which is also further assembled with a locking bolt assembly connected to work with the housing. And this includes the blocking part that is connected for the displacement which is driven relative to the throttle assembly. And was normally pushed into connection with the drive-in assembly. To prevent the working movement of the said assembly The user may choose to make the blocking section move away from access to the excitation assembly. To permit the operation of the actuator assembly. 8. Claim No. 7 igniter, where the latch assembly is pressed, a push button or piece. Attach the slider 9. Igniter of claim 1, which also follows a button where the optional movement of the said button creates a second gap in the second path. In order to change the resistance of the second passage 1 0. Igniter of the right handhold 9 where the button is a latch assembly that can be rotated by the user to make the second channel 1 1. Note 9 light igniter, where the button is a user-scrollable slider. To make a second hole 1 2. Claim 9 igniter, where the button is a pushbutton that can be pressed by the user to create a second gap 1 3. The igniter, which is assembled together. With: housing with spout with outlet port and connected fuel supply for optional fluid contact with spout Electric igniter, which releases electrical energy when it is driven And which has the first electrical path with the first electrode and the second electrode The current flow through the first path creates a spark between the first and second electrodes near the ejector outlet of the exciter assembly, which is connected to work with the housing. In order to supply fuel from the fuel supply And in order to drive the igniter assembly; And an anti-igniting assembly, which is electrically connected to the igniter assembly. To prevent the generation of a spark at the outlet of the spray mouth, the anti-ignition assembly is available; A second pathway for the discharged electric power and a moving commutation element between the first position. Where electric current will flow through the first electrical path. And the second position Where electric current will flow through a second electrical path. Where the commutating element is normally pushed in the second position. And the user may choose to make the switching assembly move in one position. To allow the creation of a spark at the outlet of the spout 1 4. Claim No. 13 igniter, where the electric igniter assembly incorporates a piezoelectric mechanism. And housings including conductive rods in direct contact with the electrical contacts On a piezoelectric 1 5. Igniter of claim 14, where the spout is formed from conductive material. And was electrically connected to the piezoelectric mechanism to form a second electrode. This is so that the spark gap is formed between the spout and the conductive rod 1 6. Igniter of the 15th claim, where the conductive rod joins the protrusion of the mouth. The spout and the spark gap are formed between the protruding tab and the spout. 1 7. Claim 16th igniter, which also includes an insulated cover positioned around At least part of the mouthpiece. For protection against unwanted sparks between the spout and the conductive rod 1 8. Igniter of claim 13, where the second path combines the third and fourth electrode 1 9. Proposition 18 igniter, where the third electrode is attached to the housing and electrically connected to the piezoelectric 2 0. Igniter of claim 19, where The electrical connection between the third electrode and The piezoelectric mechanism is passed through a conductive rod 2 1. Igniter of the 19th claim, where the electrode has been attached to the commutating element. And electrically connected to the piezoelectric 2 mechanism 2. Igniter of claim 21, where the third and fourth electrodes are in contact with when the piece The commutator is in the second position. 2. 3. The igniter of the claim 18, where the second electrical passage joins the second distant. Between the third and the fourth electrode of variable size 2 4. Igniter of the 23rd claim, where the second spacing is larger than the spark gap when the element is commutated. 2. 5. Claim 24 igniter, where the second distant space is approximately at least that It is twice as large as the spacing of the spark when the switching element is in the first position. 2 6. The igniter of the 13th claim, where the said switching element also includes a welded blocking element. It is attached for movement, which is driven relative to the excitation assembly. And is normally pushed into connection with the throttle assembly. To prevent movement in Operation of the said assembly The user may choose to make the blocking section move away from the connection to the excitation assembly. 2 7. Igniter of claim 26 where the aforementioned throttle assembly will include the trigger. Protruding from the handle And will work to drive the igniter assembly when it is pulled in the first direction. Of trigger To prevent the functional movement of the triggers. 2 9. Proposition 27 igniter, where the propulsion assembly also incorporates the driven rotating assembly. Which is the connection between the trigger trigger and the link rod The link rods are connected to work with the electric igniter assembly. For driving such an electric igniter assembly when the user pulls the trigger 3 0. Igniter of the 29th claim, where the blocking part of the said commutator assembly includes a tab that Hook Which is normally pushed to connect to the structure of the stopper assembly on the link platform. To prevent working movement relative to electric thread igniter assembly 3. 1. Igniter of claim 27, where the aforementioned switching assembly also contains a retractable protrusion. Protruding from the commutator assembly And the case incorporates a hook that defines the pattern and dimensions to connect to the tab when the replacement assembly is in the First position 3 2. The igniter of claim 31, where the trigger igniter, also includes a formatted shoulder. And dimensions to disconnect the protrusion from the hook. And will be connected to the protrusion bar when the trigger trigger has been pulled 3 3. The igniter of claim 32, where the shoulder is connected to the protrusion in the area closer to the switching assembly rather than the hook to the protrusion. To prevent the re-connection of the protrusions and hooks when the trigger trigger is released 3 4. Igniter of claim 13, where such switching assembly also incorporates a connected blocking element for the movement, which is driven relative to the excitation assembly and received. The normal push out is connected to the throttle assembly. To consent to Mobile in assembly work Where the blocking part is connected to the thrust assembly when the shunt assembly is only between the first and second position 3 5. Igniter of claim 13, where the replacement assembly is a push-button. And a second electrical path will include resilient assemblies. Which is in combination with the keypad When the push button moves to the first position. Will compress the assembled parts that can return the image 3 6. Igniter of claim 35, where the aforementioned recoverable assembly is constructed from conductive material 3. 7. Igniter of claim 35, where compression of the aforementioned resonable assembly forms a second gap. The second opening is larger than the spark gap when the pushbutton is in the first position. 8. The igniter which consists of A housing with a mouthpiece with an outlet hole An electric igniter with the first electrical contact and the second electrical contact. Which is connected to work with one electrical corridor The first electrical corridor consists of a distant channel located near the exit. A second electrical path connected to work with an electric igniter assembly, such a second electrical path has a functional and non-functional layout. Where in the non-working form The resistance of the second path is less than the resistance of the first path. So that the current generated by the electric igniter assembly is selected to move in the second pathway and where in the working form. The second path resistance is greater than that of the corridor. First electric So that the current will selectively travel in the first path and jump over the distant channel. To form a spark In order to ignite the fuel from the source Fuel