US20150132705A1 - Gas combustor - Google Patents
Gas combustor Download PDFInfo
- Publication number
- US20150132705A1 US20150132705A1 US14/079,484 US201314079484A US2015132705A1 US 20150132705 A1 US20150132705 A1 US 20150132705A1 US 201314079484 A US201314079484 A US 201314079484A US 2015132705 A1 US2015132705 A1 US 2015132705A1
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- US
- United States
- Prior art keywords
- seat
- gas
- valve
- pipe
- spring
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Abandoned
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- 239000007789 gas Substances 0.000 claims abstract description 161
- 239000002737 fuel gas Substances 0.000 claims abstract description 50
- 230000003068 static effect Effects 0.000 claims abstract description 12
- 238000006073 displacement reaction Methods 0.000 claims abstract description 7
- 239000000446 fuel Substances 0.000 claims description 39
- 239000012528 membrane Substances 0.000 claims description 27
- 238000003780 insertion Methods 0.000 claims description 25
- 230000037431 insertion Effects 0.000 claims description 25
- 238000005192 partition Methods 0.000 claims description 25
- 230000000087 stabilizing effect Effects 0.000 claims description 17
- 230000000694 effects Effects 0.000 claims description 7
- 238000011144 upstream manufacturing Methods 0.000 claims description 6
- 230000004308 accommodation Effects 0.000 claims description 3
- 239000002184 metal Substances 0.000 claims description 2
- 229910052751 metal Inorganic materials 0.000 claims description 2
- 238000012856 packing Methods 0.000 claims description 2
- 230000000149 penetrating effect Effects 0.000 claims description 2
- 239000002861 polymer material Substances 0.000 claims description 2
- 239000007788 liquid Substances 0.000 description 12
- 238000002485 combustion reaction Methods 0.000 description 11
- 238000012545 processing Methods 0.000 description 5
- 230000005611 electricity Effects 0.000 description 4
- 238000000034 method Methods 0.000 description 4
- 238000004891 communication Methods 0.000 description 3
- RYGMFSIKBFXOCR-UHFFFAOYSA-N Copper Chemical compound [Cu] RYGMFSIKBFXOCR-UHFFFAOYSA-N 0.000 description 2
- 230000008901 benefit Effects 0.000 description 2
- 229910052802 copper Inorganic materials 0.000 description 2
- 239000010949 copper Substances 0.000 description 2
- 210000003811 finger Anatomy 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 238000005476 soldering Methods 0.000 description 2
- 210000003813 thumb Anatomy 0.000 description 2
- 238000003466 welding Methods 0.000 description 2
- 238000010411 cooking Methods 0.000 description 1
- 230000003247 decreasing effect Effects 0.000 description 1
- 238000013461 design Methods 0.000 description 1
- 230000002708 enhancing effect Effects 0.000 description 1
- 238000001914 filtration Methods 0.000 description 1
- 238000005242 forging Methods 0.000 description 1
- 238000011084 recovery Methods 0.000 description 1
- 238000007789 sealing Methods 0.000 description 1
- 230000001360 synchronised effect Effects 0.000 description 1
Images
Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23D—BURNERS
- F23D14/00—Burners for combustion of a gas, e.g. of a gas stored under pressure as a liquid
- F23D14/28—Burners for combustion of a gas, e.g. of a gas stored under pressure as a liquid in association with a gaseous fuel source, e.g. acetylene generator, or a container for liquefied gas
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23D—BURNERS
- F23D14/00—Burners for combustion of a gas, e.g. of a gas stored under pressure as a liquid
- F23D14/38—Torches, e.g. for brazing or heating
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23Q—IGNITION; EXTINGUISHING-DEVICES
- F23Q2/00—Lighters containing fuel, e.g. for cigarettes
- F23Q2/28—Lighters characterised by electrical ignition of the fuel
- F23Q2/285—Lighters characterised by electrical ignition of the fuel with spark ignition
- F23Q2/287—Lighters characterised by electrical ignition of the fuel with spark ignition piezoelectric
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23Q—IGNITION; EXTINGUISHING-DEVICES
- F23Q3/00—Igniters using electrically-produced sparks
- F23Q3/002—Igniters using electrically-produced sparks using piezoelectric elements
Definitions
- the present invention relates to a gas combustor, especially to a gas combustor capable of synchronously processing ignition and rapidly supplying fuel gas.
- Fire is a must have element in our lives, with fire, we can cook food, can be provided with lighting, and the fire can also be used for combustion operations such as forging, soldering and welding.
- a canned gas for example, liquid gas is contained therein, the canned gas can be used for refilling a lighter or combined in a portable gas stove for lighting objects or cooking food, thereby providing convenience in use.
- the canned gas plays an important role in our lives which cannot be easily replaced.
- a gas control device has to be opened prior to the ignition process and the fuel gas supply, then a piezoelectric device is pressed, thus the operation is still not too convenient.
- the skilled people in the art have developed a gas combustor in which a gas intake control valve and a piezoelectric device can be synchronously controlled by a button, when the button is pressed, the gas intake control valve is opened and the piezoelectric device is actuated at the same time, thereby forming a function of synchronously supplying fuel gas and processing ignition; because a thimble valve in the gas intake control valve and a press piece in the piezoelectric device are displaced with the same stroke, e.g.
- One primary objective of the present invention is to provide a gas combustor, in which a base seat thereof is installed with a gas intake control valve allowing gas to be rapidly introduced, during a press button being pressed, the gas intake control valve is enabled to allow gas to be rapidly introduced, and after the button is completely pressed in, fuel gas passing the gas intake control valve has already reached to the interior of a flame device thereby being able to be ignited by the static spark generated by a piezoelectric device, so the fuel gas supply and the ignition process can be truly synchronized for facilitating the combustion operation.
- one technical solution provided by the present invention is to provide a gas combustor, which includes:
- a housing a base seat is installed therein, openings formed at the top and the bottom of the base seat are respectively disposed with a flame device and a connection device, wherein an opening at the front of the housing is disposed with a press button, the base seat is respectively and axially formed with an accommodation slot allowing a piezoelectric device to be accommodated and a seat hole allowing a gas intake control valve to be received corresponding to the location where the press button being disposed; wherein, the connection device is connected to a fuel channel inside the base seat through a convey pipe, the fuel channel is communicated with the seat hole through a gas outlet, and the bottom of the flame device is disposed in an insertion hole formed at the top of the base seat, and the insertion hole is communicated with the seat hole; and
- the gas intake control valve includes a control rod, a first spring and a second spring sleeved in from the front of the seat hole, and a front end cover is provided at the front of the seat hole, so the front of the control rod is allowed to be protruded out from the front end cover and adjacent to the press button; and includes a first valve seat sleeved in from the rear of the seat hole, and a first thimble valve and a third spring are provided in the first valve seat, thereby allowing the first and the second spring to be respectively disposed between the control rod and one end of the first thimble valve and between the control rod and the first valve seat, an opening at the rear of the first valve seat is sleeved with a sleeve pipe, thereby allowing the third spring to be disposed between the other end of the first thimble valve and the sleeve pipe, and a rear end cover is provided at the rear of the seat hole;
- the first and the second spring are synchronously compressed, so the first spring pushes the first thimble valve till the first spring is abutted against the first valve seat, the first thimble valve compresses the third spring and opens the first valve seat, thereby allowing the fuel gas to enter the seat hole through the gas outlet of the fuel channel and rapidly pass the gas intake control valve; the residual displacement stroke of the control rod is absorbed by the first spring, and the fuel gas passing the gas intake control valve is enabled to reach the insertion hole and enter the flame device so as to be ignited by the static spark generated by the piezoelectric device.
- FIG. 1 is a perspective view illustrating the gas combustor according to the present invention
- FIG. 2 is another perspective view illustrating the gas combustor being viewed from another angle according to the present invention
- FIG. 3 is a perspective exploded view illustrating the gas combustor according to the present invention.
- FIG. 4 is a perspective exploded view illustrating the base seat and the gas intake control valve according to the present invention.
- FIG. 5 is a perspective exploded view illustrating the base seat and the pressure stabilizing device according to the present invention.
- FIG. 6 is a perspective exploded view illustrating the flame device according to the present invention.
- FIG. 7 is a cross sectional view illustrating the assembly of the gas combustor according to the present invention.
- FIG. 8 is a partially enlarged cross sectional view illustrating the gas intake control valve while the press button of the gas combustor not being pressed according to the present invention
- FIG. 9 is a cross sectional view illustrating the press button of the gas combustor being pressed according to the present invention.
- FIG. 10 is a partially enlarged cross sectional view illustrating the gas intake control valve after the press button of the gas combustor being pressed according to the present invention
- FIG. 11 is a partially enlarged cross sectional view illustrating the connection of the pressure stabilizing device and the base seat of the gas combustor according to the present invention.
- FIG. 12 is a cross sectional view illustrating the gas combustor continuously supplying gas according to the present invention.
- FIG. 13 is a cross sectional view illustrating the safety locking status of the gas combustor being released according to the present invention.
- the gas combustor provided by the present invention includes a housing 1 , a connection device 2 , a base seat 3 , a press stabilizing device 4 and a flame device 5 .
- the housing 1 is composed of a left shell 11 and a right shell 12 being engaged with each other, and used for housing other components, the interior of the left shell 11 and the right shell 12 is formed with plural tenons, slots and ribs for positioning and accommodating the other components.
- the assembly of the gas combustor is shown in FIG. 1 and FIG.
- an opening 13 is respectively formed at the front, the bottom front, the top front and the rear of the housing 1 for respectively installed with a press button 14 , a safety button 15 , a continue button 16 and a rotary button 46 , and an opening 13 formed at the top of the housing 1 can be detachably installed with the flame device 5 having different gas guiding set 55 with respect to the desired combustion flame, and an opening 13 formed at the bottom is installed with the connection device 2 for being connected with a canned gas.
- the inner wall of an opening 13 formed at the top of the base seat 3 is longitudinally formed with a terminal positioning hole 17 for being installed with an electric conductive terminal 343 , the electric conductive terminal 343 is connected to a piezoelectric device 34 through an electric conductive wire 342 .
- connection device 2 is disposed in the opening 13 at the bottom of the housing 1 , the connection device 2 is provided with a connection ring 21 , the interior of the connection ring 21 is formed with a connection part 211 , the connection part 211 is formed with a ring hole 212 communicated with the top wall, wherein the connection part 211 is designed with respect to a connection part formed at the top of the canned gas, so the connection part 211 is formed as e.g. but not limited to threads.
- a buffer ring sheet 22 is disposed between the inner wall of the ring hole 212 and the connection part 211 , and a connection segment 231 formed at one end of a filling nozzle 23 passes the buffer ring sheet 22 and is combined with the ring hole 212 , and further combined with a securing end cover 24 , one end of a convey pipe 25 passes the securing end cover 24 and is inserted in the filling nozzle 23 , thereby being enabled to receive the liquid fuel outputted by the canned gas.
- connection ring 21 when the connection ring 21 and the canned gas are connected, the liquid fuel is introduced from the filling nozzle 23 , and fitted at the upstream of a fuel channel 35 obliquely formed at the rear of the base seat 3 through a gas intake thread seat 251 at the other end of the convey pipe 25 , thereby allowing the liquid fuel to be conveyed to the interior of the fuel channel 35 .
- the connection ring 21 is formed with a positioning slot 213 at the top periphery for being sleeved in a positioning tenon correspondingly formed inside the opening 13 at the bottom so as to be fastened.
- the base seat 3 is an integrally-formed seat member, the upstream of the fuel channel 35 formed at the rear thereof is connected with a first gas supply valve 36 , the first gas supply valve 36 is installed with a second valve seat 361 disposed in the fuel channel 35 , the interior of the second valve seat 361 is provided with a fourth spring 362 and a second thimble valve 363 protruding out of the second valve seat 361 , and the rear of the second thimble valve 363 is connected to the pressure stabilizing device 4 .
- the pressure stabilizing device 4 is disposed in a stepped combination hole 351 formed at the downstream of the fuel channel 35 , the pressure stabilizing device 4 includes a partition membrane 41 , a position limiting sheet 42 , a fifth spring 43 , a regulation seat 44 , a fasten seat 45 and a rotary button 46 .
- the partition membrane 41 is an elastic membrane made of a polymer material, and the periphery thereof is connected to the bottom wall of the combination hole 351 , so a gasify chamber 352 is formed between the bottom of the partition membrane 41 and the first gas supply valve 36 , and the gasify chamber 352 is communicated with a gas outlet 353 .
- the bottom and the top of the partition membrane 41 are respectively connected to a passive member 411 and a support member 412 which are respectively sleeved with the second thimble valve 363 and a fifth spring 43 , the periphery of the position limiting sheet 42 having its central area being protruded is connected to the partition membrane 41 , and the upper portion of the support member 412 is protruded out of a position limiting hole 421 preformed at the center of the position limiting sheet 42 thereby being able to be sleeved with one end of the fifth spring 43 , and the other end of the fifth spring 43 is sleeved on the top inner wall of the regulation seat 44 .
- the regulation seat 44 is fitted in the fasten seat 45 with a rotary manner, and a shaft rod 441 at the top thereof is protruded out of an opening at the top of the fasten seat 45 ; then, the fasten seat 45 is fastened, e.g.
- the rotary button 46 is installed on the shaft rod 441 at the top of the regulation seat 44 , thereby allowing the rotary button 46 to synchronously drive the regulation seat 44 to rotate in the fasten seat 45 , the combination of the pressure stabilizing device 4 and the base seat 3 is therefore accomplished.
- top surface and the mid portion of a flange 442 at the bottom of the regulation seat 44 are respectively sleeved with a seal ring 443 and a friction ring 444 , so when the seal ring 443 disposed at top of the flange 442 is abutted against a block wall 451 protrudingly formed in the fasten seat 45 , the motion is defined as the limitation for the regulation seat 44 upwardly moving relative to the fasten seat 45 ; when the regulation seat 44 rotates in the fasten seat 45 , a special hand feeling is generated through the friction interfere formed through the friction ring 444 rotating on the inner wall of the fasten seat 45 .
- the fifth spring 43 disposed between the regulation seat 44 and the support member 412 on the top surface of the partition membrane 41 is in an energy releasing (stretched) status
- the passive member 411 on the bottom surface of the partition membrane 41 does not apply force to the second thimble valve 363
- the fourth spring 362 in the first gas supply valve 36 is also in the energy releasing status
- the second thimble valve 363 is abutted against the second valve seat 361
- the first gas supply valve 36 is in a closed status thereby being unable to inject fuel into the gasify chamber 352 at the bottom of the press stabilizing device 4 .
- the regulation seat 44 is driven to rotate in the fasten seat 45 and an axial displacement is generated, so the regulation seat 44 enables the fifth spring 43 to be in an energy storing (compressed) status, and the support member 412 , the central part of the partition membrane 41 and the passive member 411 and the second thimble valve 363 are synchronously and downwardly moved, thereby allowing the second valve seat 361 of the first gas supply valve 36 to be opened.
- the liquid fuel conveyed by the fuel channel 35 passes the first gas supply valve 36 and enters the gasify chamber 352 , thereby enabling the liquid fuel to be gasified, and the gasified fuel gas flows towards the gas outlet 353 and enters a gas intake control valve 32 installed at the bottom of the base seat 3 and disposed at the downstream of the gas outlet 353 .
- the diameter of the second valve seat 361 is smaller, excessive fuel gas or liquid fuel which has not yet been gasified would rapidly fill and remain in the gasify chamber 352 .
- the central part of the partition membrane 41 is elastically and upwardly displaced, and the fifth spring 43 is compressed, at this moment, the second thimble valve 363 is upwardly moved and the fourth spring 362 is stretched, thereby sealing the second valve seat 361 and stopping the supply of liquid fuel.
- the fuel rapidly flows between the first gas supply valve 36 in the base seat 3 , the pressure stabilizing device 4 and the gas intake control valve 32 , the partition membrane 41 and the second thimble valve 363 also rapidly and reciprocally move, so the liquid fuel is enabled to be fully gasified to fuel gas, thereby obtaining a constant pressure effect.
- the fifth spring 43 disposed between the regulation seat 44 and the support member 412 at the top of the partition membrane 41 is compressed or stretched for adjusting the pressure, when the pressure applied by the fifth spring 43 to the partition membrane 41 is greater than the pressure of the fourth spring 362 of the first gas supply valve 36 and the fuel pressure, and the pressure applied by the fifth spring 43 to the partition membrane 41 is smaller than the fuel gasifying pressure in the gasify chamber 352 , the partition membrane 41 , the support member 412 and the passive member 411 reciprocally and synchronously drive the second thimble valve 363 to move so as to open or close the second valve seat 361 , thereby adjusting the pressure of the fuel entering the gasify chamber 352 and the amount of gasified fuel gas flowing towards the gas outlet 353 .
- a stepped seat hole 31 allowing the gas intake control valve 32 to be installed is axially formed at the bottom of the base seat 3 , and the gas intake control valve 32 is served to control whether supplying the fuel gas.
- the configuration of the gas intake control valve 32 is to have a control rod 321 , a first spring 322 and a second spring 323 to be installed from the front of the seat hole 31 , and a front end cover 324 is provided at the front of the seat hole 31 , so a rod button 321 a at the front of the control rod 321 is protruded from the front end cover 324 and located at the rear of the opening 13 at the front; a first thimble valve 325 and a third spring 326 are sleeved in a first valve seat 327 , then the first valve seat 327 is sleeved from the rear of the seat hole 31 , thereby allowing the first and the second spring 322 , 323 to be respectively disposed between the control rod 321 and the first thimble valve 325 and between the control rod 321 and the first valve seat 327 , and the first valve seat 327 is opened or closed through the axial elastic displacement of the first thimble valve 325 .
- the rear opening of the first valve seat 327 is sleeved with a sleeve pipe 328 , and the third spring 326 is disposed between the first thimble valve 325 and the sleeve pipe 328 .
- a filter 328 a e.g. a sintered copper member, is provided in the sleeve pipe 328 , and a rear end cover 329 is provided at the rear of the seat hole 31 , thereby allowing the gas intake control valve 32 to be installed in the seat hole 31 .
- the gas outlet 353 is in communication with a gas guiding slot 329 a radially formed on the rear end cover 329 , so the gasified fuel gas is enabled to enter the gas intake control valve 32 through the gas guiding slot 329 a and to be filtered by the filter 328 a.
- the front of the base seat 3 is axially formed with an accommodation slot 33 allowing the piezoelectric device 34 to be accommodated and positioned, so a press piece 341 at the front of the piezoelectric device 34 is also located at the rear of the opening 13 at the front.
- the piezoelectric device 34 is connected to the electric conductive terminal 343 fastened in the terminal positioning hole 17 through the electric conductive wire 342 .
- the opening 13 at the front is connected to the press button 14 capable of axially moving, the press button 14 respectively allows the press piece 341 to be sleeved in and adjacent to the rod button 321 a .
- the top surface of the press button 14 is formed with a buckle hole 141 allowing the continue button 16 to be buckled.
- the first thimble valve 325 is enabled to close the first valve seat 327 , so the fuel gas conveyed by the gas outlet 353 is unable to enter the gas intake control valve 32 .
- the press piece 341 and the rod button 331 a are respectively pushed, so the control rod 321 is axially moved toward inward thereby compressing the first and the second spring 322 , 323 , the first spring 322 pushes the first thimble valve 325 and is abutted against the first valve seat 327 , and the first thimble valve 325 opens the first valve seat 327 and compresses the third spring 326 , so the fuel gas conveyed by the gas outlet 353 is enabled to rapidly pass the filter 328 a , the first valve seat 327 and the seat hole 31 along a direction marked with an arrow, and enter one end of a connection pipe 38 provided on the outer surface of the base seat 3 , the other end of the connection pipe 38 is in communication with a stepped insertion hole 39 radially formed on the top surface of the base seat 3 , the upstream of the
- the third thimble valve 373 When the third thimble valve 373 is not pushed, e.g. a mix pipe 52 of the flame device 5 not being installed yet, the third thimble valve 373 closes the third valve seat 371 .
- two ends of the connection pipe 38 are respectively connected to a first thread seat 381 and a second thread seat 382 , and the first thread seat 381 and the second thread seat 382 are respectively inserted in the seat hole 31 and the insertion hole 39 , thereby allowing the fuel gas discharged by the gas intake control valve 32 to pass the connection pipe 38 and enter the insertion hole 39 .
- the press piece 341 actuates the piezoelectric device 34 thereby generating static electricity, and the static electricity is transferred through the electric conductive wire 342 , the electric conductive terminal 343 , an electric conductive ring 515 and an electric conductive extending wire 516 to the gas guiding set 55 of the flame device 5 ; because the first spring 322 has already been abutted against the first valve seat 327 , the control rod 321 is able to continuously push the first and the second spring 322 , 323 thereby the displacement stroke of the control rod 321 being able to be absorbed and preventing any affection to the third spring 326 .
- the flame device 5 is provided with an engagement pipe 51 inserted in the opening 13 at the top of the housing 1 and the bottom thereof abutted against the top periphery of the insertion hole 39 , the interior of the engagement pipe 51 is provided with a mix pipe 52 , the bottom of the mix pipe 52 is combined with a nozzle seat 521 , and an inner flange 511 at the bottom of the engagement pipe 51 is clamped therebetween.
- the fuel gas is able to be ejected out from a nozzle 522 at the top of the nozzle seat 521 .
- the interior of the nozzle 522 is provided with a filter 524 , e.g. a sintered copper member, for filtering the fuel gas passing the nozzle seat 521 ; moreover, the mix pipe 52 is radially formed with plural air holes 523 , so the air can be introduced from air guiding slots 18 preformed at two sides of the opening 13 at the top of the housing 1 , then pass the air holes 523 so as to enter the mix pipe 52 , thereby being mixed with the fuel gas ejected by the nozzle 522 , so a mixed fuel gas is formed.
- a filter 524 e.g. a sintered copper member
- the inner wall of an outer flange 512 at the top of the engagement pipe 51 is longitudinally formed with a wire slot 513 penetrating the outer flange 512 , and the bottom surface of the outer flange 512 is preformed with an annular concave slot 514 capable of being sleeved with an electric conductive metal ring 515 , so the electric conductive ring 515 is able to be in constant contact with the electric conductive terminal 343 , and the electric conductive ring 515 is further coupled to the electric conductive extending wire 516 received in the wire slot 513 .
- the engagement pipe 51 is provided with a detach ring 53 , and the bottom of an external pipe 54 is inserted between the engagement pipe 51 and the mix pipe 52 , and the external pipe 54 is secured on the mix pipe 52 by utilizing a screw 542 thereby preventing the two pipes from shaking.
- the electric conductive extending wire 516 is received in the external pipe 54 , and the end section of the electric conductive extending wire 516 is fastened on a conductive wire positioning ring 541 at the inner front of the external pipe 54 .
- the gas guiding set 55 capable of guiding the flow direction of the mixed fuel gas is installed inside a flame pipe 56 , and a packing ring 551 is abutted against the gas guiding set 55 for being fastened in the flame pipe 56 .
- an extending pipe 57 is sleeved at the front of the flame pipe 56 , thereby finishing the assembly of the flame device 5 .
- the gas guiding set 55 is e.g. but not limited to a cross-shaped rotary member, so when the mixed fuel gas passes the cross-shaped rotary member, a vortex-like flame can be generated thereby enhancing the combustion effect.
- the steps for installing the flame device 5 on the housing 1 and the base seat 3 is that: firstly the detach ring 53 is aimed at the opening 13 at the top of the housing 1 and tightened, so the detach ring 53 is fastened on the top of the housing 1 , and the nozzle seat 521 at the bottom of the mix pipe 52 is inserted in the insertion hole 39 formed at the top of the base seat 3 , thereby allowing the second gas supply valve 37 and the nozzle seat 521 to form an airtight connection; when the detach ring 53 is rotated for being positioned, the electric conducive ring 515 of the engagement pipe 51 is in contact with the electric conductive terminal 343 preformed in the opening 13 at the top of the housing 1 , thereby forming an electrical connection from the piezoelectric device 34 to the external pipe 54 .
- the detach ring 53 is reversely rotated, the flame device 5 is enabled to be released and removed from the opening 13 at the top of the housing 1 , thereby allowing the electric conductive terminal 343 and the electric conductive ring 515 to be separated and the second gas supply valve 37 and the nozzle seat 521 to be separated, and the second gas supply valve 37 is in a closed status for preventing the fuel gas from leaking.
- the generated static electricity is transferred through the conductive wire 342 , the electric conductive terminal 343 , the electric conductive ring 515 and the electric conductive extending wire 516 , static spark is generated through the electric conductive extending wire 516 and the gas guiding set 55 of the flame pipe 56 , thereby enabling the mixed fuel gas passing the gas guiding set 55 to be ignited.
- the third thimble valve 373 closes the third valve seat 371 due to the stretch effect provided by the sixth spring 372 , thereby forming a fuel gas terminating status;
- the nozzle seat 521 of the mix pipe 52 pushes the third thimble valve 373 so as to compress the sixth spring 372 , the fuel gas is allowed to pass the third valve seat 371 for entering the nozzle seat 521 , and then the fuel gas is filtered by the filter 524 and ejected out from the nozzle 522 .
- the housing 1 of the present invention further includes the continue button 16 , the continue button 16 is disposed in the opening 13 at the top front of the housing 1 and longitudinally sleeved with a seventh spring 161 , the bottom of the seventh spring 161 is abutted against a stop piece 19 formed inside the housing 1 thereby providing the continue button 16 with an automatic recovery function.
- the longitudinal bottom of the continue button 16 is formed with a buckle hook 162 .
- the press button 14 is prevented from being automatically recovered even after the press button 14 is no longer pressed by the external force, and the gas intake control valve 32 of the base seat 3 is still able to continuously supply the fuel gas to the second gas supply valve 37 inside the insertion hole 39 .
- the housing 1 of the present invention further includes the safety button 15 , the safety button 15 is disposed in the opening 13 at the bottom front of the housing 1 and the top surface thereof is protrudingly formed with at least a stop unit 151 .
- the bottom surface of the press button 14 is protrudingly formed with a stop block 142 corresponding to the stop unit 151 , the stop block 142 is abutted against the stop unit 151 , so the press button 14 is formed in a locking status in which the press operation is not allowed. If the press button 14 is desired to be pressed, the safety button 15 is laterally pulled for allowing the stop unit 151 to be released from the stop block 142 , so the press button 14 is formed in an unlocking status in which the press operation is allowed.
- the user holds the housing 1 with single hand, the portion between the thumb and index finger (the thumb web) abuts against the oblique protrusion at the rear of the housing 1 , then the user uses the other hand to pull the safety button 15 disposed in the opening 13 at the bottom front of the housing 1 , thereby releasing the locking status of the press button 14 ; then, the user uses the index finger to press the press button 14 in the opening 13 at the front of the housing 1 , so during the press button 14 being retracted, the rod button 321 a of the gas intake control valve 32 and the press piece 341 of the piezoelectric device 34 are actuated and pressed at the same time, thereby enabling the gas intake control valve 32 to be in an opened status.
- the liquid fuel supplied by the canned gas which is connected to the connection device 2 rapidly pass the convey pipe 25 , the fuel channel 35 and the first gas supply valve 36 and reaches the pressure stabilizing device 4 for being processed with a pressure stabilizing operation, so the fully-gasified fuel gas with constant pressure is introduced through the gas outlet 353 to the seat hole 31 , the gas intake control valve 32 , the connection pipe 38 , the insertion hole 39 , the second gas supply valve 37 and enter the nozzle seat 521 of the flame device 5 so as to be ejected out by the nozzle 522 , the mix pipe 52 is enabled to introduce air through the airflow generated by the ejected fuel gas so as to be mixed for forming the mixed fuel gas, and the mixed fuel gas passes the external pipe 54 for entering the flame pipe 56 , and is formed as a special airflow through being guided by the gas guiding set 55 so as to be ejected out from the extending pipe 57 ; the static electricity generated by the piezoelectric device 34 which is synchronously pressed by the press button
- the user uses the other hand to press the continue button 16 , so the buckle hook 162 is buckled with the buckle hole 141 at the press button 14 .
- the user can release the press button 14 , and the fuel in the canned gas can still be continuously supplied to the flame pipe 56 for processing the combustion operation.
- the continue button 16 is pressed again for releasing the buckling with the press button 14 , and the continue button 16 is enabled to be automatically recovered through the seventh spring 161 , and the press button 14 is enabled to be automatically recovered through the first and the second spring 322 , 323 in the gas intake control valve 32 and the piezoelectric device 34 , lastly the safety button 15 is reversely pulled for being abutted against the press button 14 thereby forming the locking status.
- the advantages achieved by the present invention are as followings: with the special design of the gas intake control valve, when the control rod is pushed by the press button, the first sprig and the second spring are compressed at the same time, so the first spring pushes the first thimble valve till the first spring is abutted against the first valve seat, the first thimble valve compresses the third spring and opens the first valve seat, thereby allowing the fuel to rapidly pass the gas intake control valve; the residual displacement stroke of the control rod is absorbed by the first spring, and the fuel gas passing the gas intake control valve is enabled to rapidly reach the flame device so as to be ignited by the static spark generated by the piezoelectric device, thereby achieving the effect of synchronizing the fuel gas supply and the ignition process.
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- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Feeding And Controlling Fuel (AREA)
Abstract
The present invention relates to a gas combustor, including a base seat fastened in a housing, the base seat is formed with a seat hole allowing a gas intake control valve to be received; when a control rod of the gas intake control valve is pushed by a press button, a first and a second spring are synchronously compressed, so the first spring pushes a first thimble valve till the first spring is abutted against a first valve seat, the first thimble valve compresses a third spring and opens the first valve seat, thereby allowing fuel gas to rapidly pass the gas intake control valve; the residual displacement stroke of the control rod is absorbed by the first spring, and the fuel gas passing the gas intake control valve is enabled to enter a flame device so as to be ignited by static spark generated by a piezoelectric device.
Description
- 1. Field of the Invention
- The present invention relates to a gas combustor, especially to a gas combustor capable of synchronously processing ignition and rapidly supplying fuel gas.
- 2. Description of Related Art
- Fire is a must have element in our lives, with fire, we can cook food, can be provided with lighting, and the fire can also be used for combustion operations such as forging, soldering and welding. Take a canned gas for example, liquid gas is contained therein, the canned gas can be used for refilling a lighter or combined in a portable gas stove for lighting objects or cooking food, thereby providing convenience in use. Thus, the canned gas plays an important role in our lives which cannot be easily replaced.
- With the convenience provided by the canned gas, there are two types of gas combustors in the marketplace, the U.S. Pat. No. 5,466,149 (corresponding to the Taiwan Utility Patent No. 271227) and the U.S. Pat. No. 5,564,919 (corresponding to the Taiwan Utility Patent No. 277674) granted to the applicant of the present invention have disclosed a gas combustor, in which a connection nozzle at the bottom thereof is connected to a gas discharge valve of a canned gas, so liquid gas can be injected into a fuel storage tank, thereby enabling a gas discharge device installed in the gas combustor to be provided with the gas and a combustion device to be provided with fuel. Another type of gas combustor is illustrated as following: the U.S. Pat. No. 5,735,353 (corresponding to the Taiwan Utility Patent No. 329905) and the U.S. Pat. No. 5,816,794 (corresponding to the Taiwan Utility Patent No. 303012) granted to the applicant of the present invention have disclosed a gas combustor, in which a support device is installed below the gas combustor, after being connected with a canned gas available in the marketplace, the fuel in the canned gas is enabled to be gasified for supplying to the whole combustion device, thereby being able to be used for soldering or welding or other combustion operations.
- In the second type of gas combustor mentioned above, massive amount of fuel gas would be ejected due to the high pressure released by the canned gas, so larger flame can be provided for processing a continuous or large scale combustion operation.
- Moreover, according to the U.S. Pat. No. 5,735,353, a gas control device has to be opened prior to the ignition process and the fuel gas supply, then a piezoelectric device is pressed, thus the operation is still not too convenient. As such, the skilled people in the art have developed a gas combustor in which a gas intake control valve and a piezoelectric device can be synchronously controlled by a button, when the button is pressed, the gas intake control valve is opened and the piezoelectric device is actuated at the same time, thereby forming a function of synchronously supplying fuel gas and processing ignition; because a thimble valve in the gas intake control valve and a press piece in the piezoelectric device are displaced with the same stroke, e.g. 6 mm, so when the thimble valve enables the valve to be opened, the mixed fuel gas has not yet reached the location where a flame nozzle of an external pipe is provided while the piezoelectric device has already generated the static spark at the location where the flame nozzle is provided, thereby the fuel gas being unable to be ignited.
- As such, how to provide a rapid gas introducing function to the gas intake control valve for allowing the mixed fuel gas to reach and pass the flame nozzle after the press piece of the piezoelectric device has been pressed to its stroke so as to truly synchronize the fuel gas supply and the ignition process is the issue which shall be seriously concerned by the skilled people in the art.
- One primary objective of the present invention is to provide a gas combustor, in which a base seat thereof is installed with a gas intake control valve allowing gas to be rapidly introduced, during a press button being pressed, the gas intake control valve is enabled to allow gas to be rapidly introduced, and after the button is completely pressed in, fuel gas passing the gas intake control valve has already reached to the interior of a flame device thereby being able to be ignited by the static spark generated by a piezoelectric device, so the fuel gas supply and the ignition process can be truly synchronized for facilitating the combustion operation.
- For achieving said objective, one technical solution provided by the present invention is to provide a gas combustor, which includes:
- a housing, a base seat is installed therein, openings formed at the top and the bottom of the base seat are respectively disposed with a flame device and a connection device, wherein an opening at the front of the housing is disposed with a press button, the base seat is respectively and axially formed with an accommodation slot allowing a piezoelectric device to be accommodated and a seat hole allowing a gas intake control valve to be received corresponding to the location where the press button being disposed; wherein, the connection device is connected to a fuel channel inside the base seat through a convey pipe, the fuel channel is communicated with the seat hole through a gas outlet, and the bottom of the flame device is disposed in an insertion hole formed at the top of the base seat, and the insertion hole is communicated with the seat hole; and
- the gas intake control valve includes a control rod, a first spring and a second spring sleeved in from the front of the seat hole, and a front end cover is provided at the front of the seat hole, so the front of the control rod is allowed to be protruded out from the front end cover and adjacent to the press button; and includes a first valve seat sleeved in from the rear of the seat hole, and a first thimble valve and a third spring are provided in the first valve seat, thereby allowing the first and the second spring to be respectively disposed between the control rod and one end of the first thimble valve and between the control rod and the first valve seat, an opening at the rear of the first valve seat is sleeved with a sleeve pipe, thereby allowing the third spring to be disposed between the other end of the first thimble valve and the sleeve pipe, and a rear end cover is provided at the rear of the seat hole;
- when the control rod is pushed by the press button, the first and the second spring are synchronously compressed, so the first spring pushes the first thimble valve till the first spring is abutted against the first valve seat, the first thimble valve compresses the third spring and opens the first valve seat, thereby allowing the fuel gas to enter the seat hole through the gas outlet of the fuel channel and rapidly pass the gas intake control valve; the residual displacement stroke of the control rod is absorbed by the first spring, and the fuel gas passing the gas intake control valve is enabled to reach the insertion hole and enter the flame device so as to be ignited by the static spark generated by the piezoelectric device.
- The present invention will be apparent to those skilled in the art by reading the following detailed description of a preferred embodiment thereof, with reference to the attached drawings, in which:
-
FIG. 1 is a perspective view illustrating the gas combustor according to the present invention; -
FIG. 2 is another perspective view illustrating the gas combustor being viewed from another angle according to the present invention; -
FIG. 3 is a perspective exploded view illustrating the gas combustor according to the present invention; -
FIG. 4 is a perspective exploded view illustrating the base seat and the gas intake control valve according to the present invention; -
FIG. 5 is a perspective exploded view illustrating the base seat and the pressure stabilizing device according to the present invention; -
FIG. 6 is a perspective exploded view illustrating the flame device according to the present invention; -
FIG. 7 is a cross sectional view illustrating the assembly of the gas combustor according to the present invention; -
FIG. 8 is a partially enlarged cross sectional view illustrating the gas intake control valve while the press button of the gas combustor not being pressed according to the present invention; -
FIG. 9 is a cross sectional view illustrating the press button of the gas combustor being pressed according to the present invention; -
FIG. 10 is a partially enlarged cross sectional view illustrating the gas intake control valve after the press button of the gas combustor being pressed according to the present invention; -
FIG. 11 is a partially enlarged cross sectional view illustrating the connection of the pressure stabilizing device and the base seat of the gas combustor according to the present invention; -
FIG. 12 is a cross sectional view illustrating the gas combustor continuously supplying gas according to the present invention; and -
FIG. 13 is a cross sectional view illustrating the safety locking status of the gas combustor being released according to the present invention. - Referring from
FIG. 1 toFIG. 13 , the gas combustor provided by the present invention includes a housing 1, aconnection device 2, abase seat 3, apress stabilizing device 4 and aflame device 5. - The housing 1 is composed of a
left shell 11 and aright shell 12 being engaged with each other, and used for housing other components, the interior of theleft shell 11 and theright shell 12 is formed with plural tenons, slots and ribs for positioning and accommodating the other components. The assembly of the gas combustor is shown inFIG. 1 andFIG. 2 , wherein anopening 13 is respectively formed at the front, the bottom front, the top front and the rear of the housing 1 for respectively installed with apress button 14, asafety button 15, acontinue button 16 and arotary button 46, and anopening 13 formed at the top of the housing 1 can be detachably installed with theflame device 5 having different gas guidingset 55 with respect to the desired combustion flame, and anopening 13 formed at the bottom is installed with theconnection device 2 for being connected with a canned gas. - The inner wall of an
opening 13 formed at the top of thebase seat 3 is longitudinally formed with aterminal positioning hole 17 for being installed with an electricconductive terminal 343, the electricconductive terminal 343 is connected to apiezoelectric device 34 through an electricconductive wire 342. - As shown in
FIG. 3 andFIG. 7 , theconnection device 2 is disposed in theopening 13 at the bottom of the housing 1, theconnection device 2 is provided with aconnection ring 21, the interior of theconnection ring 21 is formed with aconnection part 211, theconnection part 211 is formed with aring hole 212 communicated with the top wall, wherein theconnection part 211 is designed with respect to a connection part formed at the top of the canned gas, so theconnection part 211 is formed as e.g. but not limited to threads. Abuffer ring sheet 22 is disposed between the inner wall of thering hole 212 and theconnection part 211, and aconnection segment 231 formed at one end of afilling nozzle 23 passes thebuffer ring sheet 22 and is combined with thering hole 212, and further combined with asecuring end cover 24, one end of aconvey pipe 25 passes thesecuring end cover 24 and is inserted in thefilling nozzle 23, thereby being enabled to receive the liquid fuel outputted by the canned gas. - As such, when the
connection ring 21 and the canned gas are connected, the liquid fuel is introduced from thefilling nozzle 23, and fitted at the upstream of afuel channel 35 obliquely formed at the rear of thebase seat 3 through a gasintake thread seat 251 at the other end of theconvey pipe 25, thereby allowing the liquid fuel to be conveyed to the interior of thefuel channel 35. Wherein, theconnection ring 21 is formed with apositioning slot 213 at the top periphery for being sleeved in a positioning tenon correspondingly formed inside theopening 13 at the bottom so as to be fastened. - As shown in
FIG. 3 toFIG. 5 , andFIG. 7 toFIG. 11 , thebase seat 3 is an integrally-formed seat member, the upstream of thefuel channel 35 formed at the rear thereof is connected with a firstgas supply valve 36, the firstgas supply valve 36 is installed with asecond valve seat 361 disposed in thefuel channel 35, the interior of thesecond valve seat 361 is provided with afourth spring 362 and asecond thimble valve 363 protruding out of thesecond valve seat 361, and the rear of thesecond thimble valve 363 is connected to thepressure stabilizing device 4. - The
pressure stabilizing device 4 is disposed in astepped combination hole 351 formed at the downstream of thefuel channel 35, thepressure stabilizing device 4 includes apartition membrane 41, aposition limiting sheet 42, afifth spring 43, aregulation seat 44, a fastenseat 45 and arotary button 46. Thepartition membrane 41 is an elastic membrane made of a polymer material, and the periphery thereof is connected to the bottom wall of thecombination hole 351, so agasify chamber 352 is formed between the bottom of thepartition membrane 41 and the firstgas supply valve 36, and thegasify chamber 352 is communicated with agas outlet 353. Wherein, the bottom and the top of thepartition membrane 41 are respectively connected to apassive member 411 and asupport member 412 which are respectively sleeved with thesecond thimble valve 363 and afifth spring 43, the periphery of theposition limiting sheet 42 having its central area being protruded is connected to thepartition membrane 41, and the upper portion of thesupport member 412 is protruded out of aposition limiting hole 421 preformed at the center of theposition limiting sheet 42 thereby being able to be sleeved with one end of thefifth spring 43, and the other end of thefifth spring 43 is sleeved on the top inner wall of theregulation seat 44. - The
regulation seat 44 is fitted in the fastenseat 45 with a rotary manner, and ashaft rod 441 at the top thereof is protruded out of an opening at the top of the fastenseat 45; then, the fastenseat 45 is fastened, e.g. being riveted, in thecombination hole 351, and the bottom periphery of the fastenseat 45 is served to press the periphery of theposition limiting sheet 42 and thepartition membrane 41 on the bottom wall of thecombination hole 351, then therotary button 46 is installed on theshaft rod 441 at the top of theregulation seat 44, thereby allowing therotary button 46 to synchronously drive theregulation seat 44 to rotate in the fastenseat 45, the combination of thepressure stabilizing device 4 and thebase seat 3 is therefore accomplished. - In addition, the top surface and the mid portion of a
flange 442 at the bottom of theregulation seat 44 are respectively sleeved with aseal ring 443 and afriction ring 444, so when theseal ring 443 disposed at top of theflange 442 is abutted against ablock wall 451 protrudingly formed in the fastenseat 45, the motion is defined as the limitation for theregulation seat 44 upwardly moving relative to the fastenseat 45; when theregulation seat 44 rotates in thefasten seat 45, a special hand feeling is generated through the friction interfere formed through thefriction ring 444 rotating on the inner wall of the fastenseat 45. - When the
pressure stabilizing device 4 is in a closed status, thefifth spring 43 disposed between theregulation seat 44 and thesupport member 412 on the top surface of thepartition membrane 41 is in an energy releasing (stretched) status, thepassive member 411 on the bottom surface of thepartition membrane 41 does not apply force to thesecond thimble valve 363, so thefourth spring 362 in the firstgas supply valve 36 is also in the energy releasing status, and thesecond thimble valve 363 is abutted against thesecond valve seat 361, the firstgas supply valve 36 is in a closed status thereby being unable to inject fuel into thegasify chamber 352 at the bottom of thepress stabilizing device 4. - As shown in
FIG. 11 , when therotary button 46 is rotated, theregulation seat 44 is driven to rotate in the fastenseat 45 and an axial displacement is generated, so theregulation seat 44 enables thefifth spring 43 to be in an energy storing (compressed) status, and thesupport member 412, the central part of thepartition membrane 41 and thepassive member 411 and thesecond thimble valve 363 are synchronously and downwardly moved, thereby allowing thesecond valve seat 361 of the firstgas supply valve 36 to be opened. At this moment, the liquid fuel conveyed by thefuel channel 35 passes the firstgas supply valve 36 and enters thegasify chamber 352, thereby enabling the liquid fuel to be gasified, and the gasified fuel gas flows towards thegas outlet 353 and enters a gasintake control valve 32 installed at the bottom of thebase seat 3 and disposed at the downstream of thegas outlet 353. - Because the diameter of the
second valve seat 361 is smaller, excessive fuel gas or liquid fuel which has not yet been gasified would rapidly fill and remain in thegasify chamber 352. When the internal pressure of thegasify chamber 352 is rapidly increased, the central part of thepartition membrane 41 is elastically and upwardly displaced, and thefifth spring 43 is compressed, at this moment, thesecond thimble valve 363 is upwardly moved and thefourth spring 362 is stretched, thereby sealing thesecond valve seat 361 and stopping the supply of liquid fuel. - When the fuel gas in the
gasify chamber 352 gradually enters the gasintake control valve 32, the internal pressure of thegasify chamber 352 is gradually decreased, at this moment, thefifth spring 43 is stretched, thesupport member 412, the central part of thepartition membrane 41 and thepassive member 412 are pushed to be downwardly displaced, so thesecond thimble valve 363 is downwardly moved and thefourth spring 362 is compressed, thereby forming the liquid fuel supplying status as shown inFIG. 11 . In fact, the fuel rapidly flows between the firstgas supply valve 36 in thebase seat 3, thepressure stabilizing device 4 and the gasintake control valve 32, thepartition membrane 41 and thesecond thimble valve 363 also rapidly and reciprocally move, so the liquid fuel is enabled to be fully gasified to fuel gas, thereby obtaining a constant pressure effect. - As such, through rotating the
regulation seat 44 to allow theregulation seat 44 to axially ascend or descend in thefasten seat 45, thefifth spring 43 disposed between theregulation seat 44 and thesupport member 412 at the top of thepartition membrane 41 is compressed or stretched for adjusting the pressure, when the pressure applied by thefifth spring 43 to thepartition membrane 41 is greater than the pressure of thefourth spring 362 of the firstgas supply valve 36 and the fuel pressure, and the pressure applied by thefifth spring 43 to thepartition membrane 41 is smaller than the fuel gasifying pressure in thegasify chamber 352, thepartition membrane 41, thesupport member 412 and thepassive member 411 reciprocally and synchronously drive thesecond thimble valve 363 to move so as to open or close thesecond valve seat 361, thereby adjusting the pressure of the fuel entering thegasify chamber 352 and the amount of gasified fuel gas flowing towards thegas outlet 353. - As shown in
FIG. 4 ,FIG. 7 andFIG. 8 , astepped seat hole 31 allowing the gasintake control valve 32 to be installed is axially formed at the bottom of thebase seat 3, and the gasintake control valve 32 is served to control whether supplying the fuel gas. - The configuration of the gas
intake control valve 32 is to have acontrol rod 321, afirst spring 322 and asecond spring 323 to be installed from the front of theseat hole 31, and afront end cover 324 is provided at the front of theseat hole 31, so arod button 321 a at the front of thecontrol rod 321 is protruded from thefront end cover 324 and located at the rear of theopening 13 at the front; afirst thimble valve 325 and athird spring 326 are sleeved in afirst valve seat 327, then thefirst valve seat 327 is sleeved from the rear of theseat hole 31, thereby allowing the first and thesecond spring control rod 321 and thefirst thimble valve 325 and between thecontrol rod 321 and thefirst valve seat 327, and thefirst valve seat 327 is opened or closed through the axial elastic displacement of thefirst thimble valve 325. - Wherein, the rear opening of the
first valve seat 327 is sleeved with asleeve pipe 328, and thethird spring 326 is disposed between thefirst thimble valve 325 and thesleeve pipe 328. Afilter 328 a, e.g. a sintered copper member, is provided in thesleeve pipe 328, and arear end cover 329 is provided at the rear of theseat hole 31, thereby allowing the gasintake control valve 32 to be installed in theseat hole 31. Thegas outlet 353 is in communication with agas guiding slot 329 a radially formed on therear end cover 329, so the gasified fuel gas is enabled to enter the gasintake control valve 32 through thegas guiding slot 329 a and to be filtered by thefilter 328 a. - The front of the
base seat 3 is axially formed with anaccommodation slot 33 allowing thepiezoelectric device 34 to be accommodated and positioned, so apress piece 341 at the front of thepiezoelectric device 34 is also located at the rear of theopening 13 at the front. Wherein, thepiezoelectric device 34 is connected to the electricconductive terminal 343 fastened in theterminal positioning hole 17 through the electricconductive wire 342. In addition, theopening 13 at the front is connected to thepress button 14 capable of axially moving, thepress button 14 respectively allows thepress piece 341 to be sleeved in and adjacent to therod button 321 a. Moreover, the top surface of thepress button 14 is formed with abuckle hole 141 allowing the continuebutton 16 to be buckled. - Referring to
FIG. 7 andFIG. 8 , when thepress button 14 is not pressed, with the balance effect provided by the elastic stretch of the first and thethird spring first thimble valve 325 is enabled to close thefirst valve seat 327, so the fuel gas conveyed by thegas outlet 353 is unable to enter the gasintake control valve 32. - As shown in
FIG. 3 ,FIG. 5 ,FIG. 7 ,FIG. 9 andFIG. 10 , during the press button 14 being pressed, the press piece 341 and the rod button 331 a are respectively pushed, so the control rod 321 is axially moved toward inward thereby compressing the first and the second spring 322, 323, the first spring 322 pushes the first thimble valve 325 and is abutted against the first valve seat 327, and the first thimble valve 325 opens the first valve seat 327 and compresses the third spring 326, so the fuel gas conveyed by the gas outlet 353 is enabled to rapidly pass the filter 328 a, the first valve seat 327 and the seat hole 31 along a direction marked with an arrow, and enter one end of a connection pipe 38 provided on the outer surface of the base seat 3, the other end of the connection pipe 38 is in communication with a stepped insertion hole 39 radially formed on the top surface of the base seat 3, the upstream of the insertion hole 39 is in communication with the connection pipe 38 and further installed with a second gas supply valve 37, the second gas supply valve 37 is provided with a third valve seat 371 installed at the upstream of the insertion hole 39, the interior of the third valve seat 371 is provided with a sixth spring 372 and a third thimble valve 373 protruding out of the bottom of the third valve seat 371. When thethird thimble valve 373 is not pushed, e.g. amix pipe 52 of theflame device 5 not being installed yet, thethird thimble valve 373 closes thethird valve seat 371. Wherein, two ends of theconnection pipe 38 are respectively connected to afirst thread seat 381 and asecond thread seat 382, and thefirst thread seat 381 and thesecond thread seat 382 are respectively inserted in theseat hole 31 and theinsertion hole 39, thereby allowing the fuel gas discharged by the gasintake control valve 32 to pass theconnection pipe 38 and enter theinsertion hole 39. - When the
press button 14 is pressed, thepress piece 341 actuates thepiezoelectric device 34 thereby generating static electricity, and the static electricity is transferred through the electricconductive wire 342, the electricconductive terminal 343, an electricconductive ring 515 and an electric conductive extendingwire 516 to the gas guiding set 55 of theflame device 5; because thefirst spring 322 has already been abutted against thefirst valve seat 327, thecontrol rod 321 is able to continuously push the first and thesecond spring control rod 321 being able to be absorbed and preventing any affection to thethird spring 326. - As shown in
FIG. 3 ,FIG. 6 ,FIG. 7 andFIG. 9 , theflame device 5 is provided with anengagement pipe 51 inserted in theopening 13 at the top of the housing 1 and the bottom thereof abutted against the top periphery of theinsertion hole 39, the interior of theengagement pipe 51 is provided with amix pipe 52, the bottom of themix pipe 52 is combined with anozzle seat 521, and aninner flange 511 at the bottom of theengagement pipe 51 is clamped therebetween. When the bottom of thenozzle seat 521 is sleeved with and presses thethird thimble valve 373, the fuel gas is able to be ejected out from anozzle 522 at the top of thenozzle seat 521. Wherein, the interior of thenozzle 522 is provided with afilter 524, e.g. a sintered copper member, for filtering the fuel gas passing thenozzle seat 521; moreover, themix pipe 52 is radially formed withplural air holes 523, so the air can be introduced fromair guiding slots 18 preformed at two sides of theopening 13 at the top of the housing 1, then pass the air holes 523 so as to enter themix pipe 52, thereby being mixed with the fuel gas ejected by thenozzle 522, so a mixed fuel gas is formed. Wherein, the inner wall of anouter flange 512 at the top of theengagement pipe 51 is longitudinally formed with awire slot 513 penetrating theouter flange 512, and the bottom surface of theouter flange 512 is preformed with an annularconcave slot 514 capable of being sleeved with an electricconductive metal ring 515, so the electricconductive ring 515 is able to be in constant contact with the electricconductive terminal 343, and the electricconductive ring 515 is further coupled to the electric conductive extendingwire 516 received in thewire slot 513. - Moreover, the
engagement pipe 51 is provided with a detachring 53, and the bottom of anexternal pipe 54 is inserted between theengagement pipe 51 and themix pipe 52, and theexternal pipe 54 is secured on themix pipe 52 by utilizing ascrew 542 thereby preventing the two pipes from shaking. The electric conductive extendingwire 516 is received in theexternal pipe 54, and the end section of the electric conductive extendingwire 516 is fastened on a conductivewire positioning ring 541 at the inner front of theexternal pipe 54. - For generating a special flame effect, the gas guiding set 55 capable of guiding the flow direction of the mixed fuel gas is installed inside a
flame pipe 56, and apacking ring 551 is abutted against the gas guiding set 55 for being fastened in theflame pipe 56. Lastly, an extendingpipe 57 is sleeved at the front of theflame pipe 56, thereby finishing the assembly of theflame device 5. Wherein, the gas guiding set 55 is e.g. but not limited to a cross-shaped rotary member, so when the mixed fuel gas passes the cross-shaped rotary member, a vortex-like flame can be generated thereby enhancing the combustion effect. - The steps for installing the
flame device 5 on the housing 1 and thebase seat 3 is that: firstly the detachring 53 is aimed at theopening 13 at the top of the housing 1 and tightened, so the detachring 53 is fastened on the top of the housing 1, and thenozzle seat 521 at the bottom of themix pipe 52 is inserted in theinsertion hole 39 formed at the top of thebase seat 3, thereby allowing the secondgas supply valve 37 and thenozzle seat 521 to form an airtight connection; when the detachring 53 is rotated for being positioned, the electricconducive ring 515 of theengagement pipe 51 is in contact with the electricconductive terminal 343 preformed in theopening 13 at the top of the housing 1, thereby forming an electrical connection from thepiezoelectric device 34 to theexternal pipe 54. On the other hand, if theflame device 5 is desired to be detached, the detachring 53 is reversely rotated, theflame device 5 is enabled to be released and removed from theopening 13 at the top of the housing 1, thereby allowing the electricconductive terminal 343 and the electricconductive ring 515 to be separated and the secondgas supply valve 37 and thenozzle seat 521 to be separated, and the secondgas supply valve 37 is in a closed status for preventing the fuel gas from leaking. - As such, when the
press piece 341 of thepiezoelectric device 34 is pressed by thepress button 14, the generated static electricity is transferred through theconductive wire 342, the electricconductive terminal 343, the electricconductive ring 515 and the electric conductive extendingwire 516, static spark is generated through the electric conductive extendingwire 516 and the gas guiding set 55 of theflame pipe 56, thereby enabling the mixed fuel gas passing the gas guiding set 55 to be ignited. - When the
nozzle seat 521 at the bottom of themix pipe 52 of theflame device 5 is not inserted in theinsertion hole 39, thethird thimble valve 373 closes thethird valve seat 371 due to the stretch effect provided by thesixth spring 372, thereby forming a fuel gas terminating status; when thenozzle seat 521 is inserted in theinsertion hole 39, thenozzle seat 521 of themix pipe 52 pushes thethird thimble valve 373 so as to compress thesixth spring 372, the fuel gas is allowed to pass thethird valve seat 371 for entering thenozzle seat 521, and then the fuel gas is filtered by thefilter 524 and ejected out from thenozzle 522. - As shown in
FIG. 3 andFIG. 12 , the housing 1 of the present invention further includes the continuebutton 16, the continuebutton 16 is disposed in theopening 13 at the top front of the housing 1 and longitudinally sleeved with aseventh spring 161, the bottom of theseventh spring 161 is abutted against astop piece 19 formed inside the housing 1 thereby providing the continuebutton 16 with an automatic recovery function. Wherein, the longitudinal bottom of the continuebutton 16 is formed with abuckle hook 162. When thepress button 14 is pressed for being in a retracted status, the continuebutton 16 is able to be directly pressed, thebuckle hook 162 and thebuckle hole 141 of thepress button 14 form a buckling status as shown inFIG. 12 , so thepress button 14 is prevented from being automatically recovered even after thepress button 14 is no longer pressed by the external force, and the gasintake control valve 32 of thebase seat 3 is still able to continuously supply the fuel gas to the secondgas supply valve 37 inside theinsertion hole 39. - As shown in
FIG. 3 andFIG. 13 , the housing 1 of the present invention further includes thesafety button 15, thesafety button 15 is disposed in theopening 13 at the bottom front of the housing 1 and the top surface thereof is protrudingly formed with at least astop unit 151. The bottom surface of thepress button 14 is protrudingly formed with astop block 142 corresponding to thestop unit 151, thestop block 142 is abutted against thestop unit 151, so thepress button 14 is formed in a locking status in which the press operation is not allowed. If thepress button 14 is desired to be pressed, thesafety button 15 is laterally pulled for allowing thestop unit 151 to be released from thestop block 142, so thepress button 14 is formed in an unlocking status in which the press operation is allowed. - Referring to
FIG. 1 ,FIG. 2 ,FIG. 7 andFIG. 8 , when the present invention is in actual practice, the user holds the housing 1 with single hand, the portion between the thumb and index finger (the thumb web) abuts against the oblique protrusion at the rear of the housing 1, then the user uses the other hand to pull thesafety button 15 disposed in theopening 13 at the bottom front of the housing 1, thereby releasing the locking status of thepress button 14; then, the user uses the index finger to press thepress button 14 in theopening 13 at the front of the housing 1, so during thepress button 14 being retracted, therod button 321 a of the gasintake control valve 32 and thepress piece 341 of thepiezoelectric device 34 are actuated and pressed at the same time, thereby enabling the gasintake control valve 32 to be in an opened status. - At this moment, the liquid fuel supplied by the canned gas which is connected to the connection device 2 rapidly pass the convey pipe 25, the fuel channel 35 and the first gas supply valve 36 and reaches the pressure stabilizing device 4 for being processed with a pressure stabilizing operation, so the fully-gasified fuel gas with constant pressure is introduced through the gas outlet 353 to the seat hole 31, the gas intake control valve 32, the connection pipe 38, the insertion hole 39, the second gas supply valve 37 and enter the nozzle seat 521 of the flame device 5 so as to be ejected out by the nozzle 522, the mix pipe 52 is enabled to introduce air through the airflow generated by the ejected fuel gas so as to be mixed for forming the mixed fuel gas, and the mixed fuel gas passes the external pipe 54 for entering the flame pipe 56, and is formed as a special airflow through being guided by the gas guiding set 55 so as to be ejected out from the extending pipe 57; the static electricity generated by the piezoelectric device 34 which is synchronously pressed by the press button 14 is transferred through the electric conductive wire 342, the electric conductive terminal 343, the electric conductive ring 515 and the electric conductive extending wire 516, so the static spark is able to be generated through the electric conductive extending wire 516 and the gas guiding set 55, thereby enabling the mixed fuel gas passing the gas guiding set 55 to be ignited for processing the combustion operation.
- At this moment, the user uses the other hand to press the continue
button 16, so thebuckle hook 162 is buckled with thebuckle hole 141 at thepress button 14. At this moment, the user can release thepress button 14, and the fuel in the canned gas can still be continuously supplied to theflame pipe 56 for processing the combustion operation. - If the combustion operation is desired to be stopped, the continue
button 16 is pressed again for releasing the buckling with thepress button 14, and the continuebutton 16 is enabled to be automatically recovered through theseventh spring 161, and thepress button 14 is enabled to be automatically recovered through the first and thesecond spring intake control valve 32 and thepiezoelectric device 34, lastly thesafety button 15 is reversely pulled for being abutted against thepress button 14 thereby forming the locking status. - As what has been disclosed above, the advantages achieved by the present invention are as followings: with the special design of the gas intake control valve, when the control rod is pushed by the press button, the first sprig and the second spring are compressed at the same time, so the first spring pushes the first thimble valve till the first spring is abutted against the first valve seat, the first thimble valve compresses the third spring and opens the first valve seat, thereby allowing the fuel to rapidly pass the gas intake control valve; the residual displacement stroke of the control rod is absorbed by the first spring, and the fuel gas passing the gas intake control valve is enabled to rapidly reach the flame device so as to be ignited by the static spark generated by the piezoelectric device, thereby achieving the effect of synchronizing the fuel gas supply and the ignition process.
- Many modifications and other embodiments of the inventions set forth herein will come to mind to one skilled in the art to which these inventions pertain having the benefit of the teachings presented in the foregoing descriptions and the associated drawings. Therefore, it is to be understood that the inventions are not to be limited to the specific examples of the embodiments disclosed and that modifications and other embodiments are intended to be included within the scope of the appended claims. Although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.
Claims (18)
1. A gas combustor, including:
a housing, a base seat being installed therein, openings formed at the top and the bottom of said base seat being respectively disposed with a flame device and a connection device, wherein an opening at the front of said housing being disposed with a press button, the base seat being respectively and axially formed with an accommodation slot allowing a piezoelectric device to be accommodated and a seat hole allowing a gas intake control valve to be received corresponding to the location where said press button being disposed; wherein, said connection device being connected to a fuel channel inside said base seat through a convey pipe, said fuel channel being communicated with said seat hole through a gas outlet, and the bottom of said flame device being disposed in an insertion hole formed at the top of said base seat, and said insertion hole being communicated with said seat hole; and
said gas intake control valve including a control rod, a first spring and a second spring sleeved in from the front of said seat hole, and a front end cover being provided at the front of said seat hole, so the front of said control rod being allowed to be protruded out from said front end cover and adjacent to said press button; and including a first valve seat sleeved in from the rear of said seat hole, and a first thimble valve and a third spring being provided in said first valve seat, thereby allowing said first and said second spring to be respectively disposed between said control rod and one end of said first thimble valve and between said control rod and said first valve seat, an opening at the rear of said first valve seat being sleeved with a sleeve pipe, thereby allowing said third spring to be disposed between the other end of said first thimble valve and said sleeve pipe, and a rear end cover being provided at the rear of said seat hole;
when said control rod being pushed by said press button, said first and said second spring being synchronously compressed, so said first spring pushing said first thimble valve till said first spring being abutted against said first valve seat, said first thimble valve compressing said third spring and opening said first valve seat, thereby allowing the fuel gas to enter said seat hole through said gas outlet of said fuel channel and rapidly pass said gas intake control valve; the residual displacement stroke of said control rod being absorbed by said first spring, and the fuel gas passing said gas intake control valve being enabled to reach said insertion hole and enter said flame device so as to be ignited by the static spark generated by said piezoelectric device.
2. The gas combustor as claimed in claim 1 , wherein a connection pipe is provided between said seat hole and said insertion hole of said base seat, and said connection pipe is provided on the outer surface of said base seat.
3. The gas combustor as claimed in claim 2 , wherein two ends of said connection pipe are respectively connected to a first thread seat and a second thread seat, and said first thread seat and said second thread seat are respectively inserted in said seat hole and said insertion hole.
4. The gas combustor as claimed in claim 1 , wherein the interior of said sleeve pipe is provided with a filter.
5. The gas combustor as claimed in claim 1 , further including a continue button, said continue button is disposed in an opening at the top front of said housing and longitudinally sleeved with a seventh spring abutted against the interior of said housing, the bottom of said continue button is formed with a buckle hook, the top surface of said press button is formed with a buckle hole allowing said buckle hook to be buckled, thereby preventing said press button from being automatically recovered and allowing said gas intake control valve to be remained in an opened status.
6. The gas combustor as claimed in claim 1 , further including a safety button, said safety button is disposed in an opening at the bottom front of said housing and the top surface thereof is protrudingly formed with at least a stop unit; the bottom surface of said press button is protrudingly formed with a stop block corresponding to said stop unit and abutted against said stop unit, so said press button is formed in a locking status in which the press operation is not allowed, when said safety button is laterally pulled for allowing said stop unit to be released from said stop block, said press button is formed in an unlocking status in which the press operation is allowed.
7. The gas combustor as claimed in claim 1 , wherein said connection device is provided with a connection ring, the interior of said connection ring is formed with a connection part, said connection part is communicated a ring hole of said connection ring, and a connection segment formed at one end of a filling nozzle passes said ring hole and is further combined with a securing end cover, one end of said convey pipe passes said securing end cover and protrudes into said filling nozzle.
8. The gas combustor as claimed in claim 7 , wherein said connection ring is formed with a positioning slot at the top periphery for being sleeved in a positioning tenon correspondingly formed inside the opening at the bottom so as to be fastened.
9. The gas combustor as claimed in claim 1 , wherein said fuel channel of said base seat is further communicated with a gasify chamber and a combination hole allowing a press stabilizing device to be installed therein, said gas outlet is laterally communicated with said gasify chamber; said fuel channel and said insertion hole are respectively installed with a first and a second gas supply valve, said first gas supply valve includes a second valve seat connected to the upstream of said fuel channel, the interior of said second valve seat is provided with a fourth spring and a second thimble valve protruding out of the front of said second valve seat, the rear of said second thimble valve is connected to said press stabilizing device; and said second gas supply valve includes a third valve seat connected to the upstream of said insertion hole, the interior of said third valve seat is provided with a sixth spring and a third thimble valve protruding out of the bottom of said third valve seat, and the downstream of said insertion hole allows said flame device to be inserted.
10. The gas combustor as claimed in claim 9 , wherein said press stabilizing device includes:
a partition membrane, formed as an elastic membrane made of a polymer material, the periphery thereof is connected to the bottom wall of said combination hole, the bottom of said partition membrane is adjacent to said gasify chamber, wherein the bottom of said partition membrane is connected to a passive member sleeved with said second thimble valve, the top thereof is connected to a support member; and
a regulation seat, fitted in a fasten seat with a rotary manner, and a shaft rod at the top thereof is protruded out of an opening at the top of said fasten seat; said fasten seat is fastened in said combination hole, and the bottom periphery of said fasten seat is served to press the periphery of said partition membrane onto the bottom wall of said combination hole, and a fifth spring is disposed between the top inner wall of said regulation seat and said support member;
through rotating said regulation seat to allow said regulation seat to axially ascend or descend in said fasten seat, said fifth spring disposed between said regulation seat and said support member at the top of said partition membrane is compressed or stretched for adjusting the pressure, when the pressure applied by said fifth spring to said partition membrane is greater than the pressure of said fourth spring in said first gas supply valve and the fuel pressure, and the pressure applied by said fifth spring to said partition membrane is smaller than the fuel gasifying pressure in said gasify chamber, said partition membrane, said support member and said passive member reciprocally and synchronously drive said second thimble valve to move so as to open or close said second valve seat of said first gas supply valve, thereby adjusting the pressure of the fuel entering said gasify chamber and the amount of gasified fuel gas flowing towards said gas outlet.
11. The gas combustor as claimed in claim 10 , wherein said press stabilizing device further includes a rotary button disposed on said shaft rod at the top of said regulation seat, said rotary button is protruded out of the opening at the rear of said housing.
12. The gas combustor as claimed in claim 10 , wherein said press stabilizing device further includes a position limiting sheet having its central area being protruded, the periphery thereof is connected to said partition membrane, and the upper portion of said support member is protruded out of a position limiting hole preformed at the center of said position limiting sheet.
13. The gas combustor as claimed in claim 10 , wherein the bottom of said regulation seat is radially formed with a flange sleeved with a friction ring which forms the friction interfere with the inner wall of said fasten seat.
14. The gas combustor as claimed in claim 9 , wherein said flame device includes an engagement pipe inserted in the opening at the top of said housing and the bottom thereof abutted against the top periphery of said insertion hole, the interior of said engagement pipe is provided with a mix pipe, the bottom of said mix pipe is combined with a nozzle seat, and an inner flange at the bottom of said engagement pipe is clamped therebetween, the front of said nozzle seat is provided with a nozzle, the mid portion of said mix pipe is formed with plural air holes, so air is able to be introduced from air guiding slots preformed at the front of said housing then pass said air holes so as to enter said mix pipe, thereby being mixed with the fuel gas ejected by said nozzle;
when said mix pipe is not inserted in said insertion hole, said third thimble valve closes said third valve seat due to the stretch effect provided by said sixth spring, thereby forming a fuel gas terminating status; when said mix pipe is inserted in said insertion hole, said nozzle seat pushes said third thimble valve so as to compress said sixth spring, the fuel gas is allowed to pass said third valve seat and ejected out from said nozzle at the front of said nozzle seat.
15. The gas combustor as claimed in claim 14 , wherein the top of said engagement pipe is further formed with an outer flange, an inner wall of said outer flange is longitudinally formed with a wire slot penetrating said outer flange, and the bottom surface of said outer flange is preformed with an annular concave slot capable of being sleeved with an electric conductive metal ring, said electric conductive ring is further coupled to an electric conductive extending wire received in said wire slot; said engagement pipe is disposed in a detach ring, and the bottom of an external pipe is inserted between said engagement pipe and said mix pipe, and said electric conductive extending wire is received in said external pipe, and the end section of said electric conductive extending wire is fastened on a conductive wire positioning ring at the inner front of said external pipe; and the top opening of said base seat is longitudinally formed with a terminal positioning hole for being installed with an electric conductive terminal, said electric conductive terminal is connected to said piezoelectric device through an electric conductive wire, and said electric conducive ring is in constant contact with said electric conductive terminal, thereby forming an electrical connection from said piezoelectric device to said external pipe.
16. The gas combustor as claimed in claim 14 , wherein the interior of said nozzle is provided with a filter.
17. The gas combustor as claimed in claim 15 , wherein the front of said external pipe is further connected to a flame pipe, a gas guiding set capable of guiding the flow direction of the mixed fuel gas is installed inside said flame pipe, and a packing ring is abutted against said gas guiding set for enabling said gas guiding set to be fastened in said flame pipe.
18. The gas combustor as claimed in claim 17 , wherein the front of said flame pipe is further connected to an extending pipe.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US14/079,484 US20150132705A1 (en) | 2013-11-13 | 2013-11-13 | Gas combustor |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US14/079,484 US20150132705A1 (en) | 2013-11-13 | 2013-11-13 | Gas combustor |
Publications (1)
Publication Number | Publication Date |
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US20150132705A1 true US20150132705A1 (en) | 2015-05-14 |
Family
ID=53044081
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US14/079,484 Abandoned US20150132705A1 (en) | 2013-11-13 | 2013-11-13 | Gas combustor |
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Country | Link |
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US (1) | US20150132705A1 (en) |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2017150739A (en) * | 2016-02-24 | 2017-08-31 | 株式会社旭製作所 | Structure of torch burner improved in assembling performance |
USD832902S1 (en) * | 2017-06-21 | 2018-11-06 | Chin-Lin Tsai | Gas combustor |
CN109990318A (en) * | 2017-12-30 | 2019-07-09 | 宁波方太厨具有限公司 | A kind of Gas Range Air Door Controlling Device and its ejection structure |
USD1000493S1 (en) * | 2021-05-06 | 2023-10-03 | Alexander Binzel Schweisstechnik Gmbh & Co. Kg | Nozzle for welding torch |
USD1017358S1 (en) * | 2021-11-03 | 2024-03-12 | Worthington Torch, Llc | Hand torch |
USD1030827S1 (en) * | 2023-11-29 | 2024-06-11 | Jie Wang | Propane torch |
-
2013
- 2013-11-13 US US14/079,484 patent/US20150132705A1/en not_active Abandoned
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2017150739A (en) * | 2016-02-24 | 2017-08-31 | 株式会社旭製作所 | Structure of torch burner improved in assembling performance |
USD832902S1 (en) * | 2017-06-21 | 2018-11-06 | Chin-Lin Tsai | Gas combustor |
CN109990318A (en) * | 2017-12-30 | 2019-07-09 | 宁波方太厨具有限公司 | A kind of Gas Range Air Door Controlling Device and its ejection structure |
USD1000493S1 (en) * | 2021-05-06 | 2023-10-03 | Alexander Binzel Schweisstechnik Gmbh & Co. Kg | Nozzle for welding torch |
USD1017358S1 (en) * | 2021-11-03 | 2024-03-12 | Worthington Torch, Llc | Hand torch |
USD1030827S1 (en) * | 2023-11-29 | 2024-06-11 | Jie Wang | Propane torch |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
STCB | Information on status: application discontinuation |
Free format text: ABANDONED -- FAILURE TO RESPOND TO AN OFFICE ACTION |