CN108266759A - A kind of closing type gas combustion stove release mechanism based on spring reset - Google Patents
A kind of closing type gas combustion stove release mechanism based on spring reset Download PDFInfo
- Publication number
- CN108266759A CN108266759A CN201810113614.9A CN201810113614A CN108266759A CN 108266759 A CN108266759 A CN 108266759A CN 201810113614 A CN201810113614 A CN 201810113614A CN 108266759 A CN108266759 A CN 108266759A
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- China
- Prior art keywords
- gas
- plate
- guide tube
- fixed block
- guide
- Prior art date
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- 238000002485 combustion reaction Methods 0.000 title claims abstract description 63
- 230000007246 mechanism Effects 0.000 title claims abstract description 18
- 239000007789 gas Substances 0.000 claims abstract description 64
- 239000000567 combustion gas Substances 0.000 claims abstract description 57
- 239000004065 semiconductor Substances 0.000 claims abstract description 43
- 238000001816 cooling Methods 0.000 claims abstract description 25
- 230000017525 heat dissipation Effects 0.000 claims description 40
- 238000009434 installation Methods 0.000 claims description 13
- 230000008878 coupling Effects 0.000 claims description 6
- 238000010168 coupling process Methods 0.000 claims description 6
- 238000005859 coupling reaction Methods 0.000 claims description 6
- 230000009467 reduction Effects 0.000 claims description 5
- 239000000203 mixture Substances 0.000 claims description 4
- 230000000694 effects Effects 0.000 abstract description 30
- 238000010586 diagram Methods 0.000 description 11
- 238000005516 engineering process Methods 0.000 description 11
- 230000006835 compression Effects 0.000 description 8
- 238000007906 compression Methods 0.000 description 8
- 230000009471 action Effects 0.000 description 5
- 239000002775 capsule Substances 0.000 description 5
- 238000004880 explosion Methods 0.000 description 3
- 230000004044 response Effects 0.000 description 2
- 239000007787 solid Substances 0.000 description 2
- 239000004020 conductor Substances 0.000 description 1
- 230000005611 electricity Effects 0.000 description 1
- 238000010304 firing Methods 0.000 description 1
- 238000010025 steaming Methods 0.000 description 1
- 230000005619 thermoelectricity Effects 0.000 description 1
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24C—DOMESTIC STOVES OR RANGES ; DETAILS OF DOMESTIC STOVES OR RANGES, OF GENERAL APPLICATION
- F24C3/00—Stoves or ranges for gaseous fuels
- F24C3/12—Arrangement or mounting of control or safety devices
- F24C3/126—Arrangement or mounting of control or safety devices on ranges
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24C—DOMESTIC STOVES OR RANGES ; DETAILS OF DOMESTIC STOVES OR RANGES, OF GENERAL APPLICATION
- F24C15/00—Details
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24C—DOMESTIC STOVES OR RANGES ; DETAILS OF DOMESTIC STOVES OR RANGES, OF GENERAL APPLICATION
- F24C3/00—Stoves or ranges for gaseous fuels
- F24C3/10—Arrangement or mounting of ignition devices
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25B—REFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
- F25B21/00—Machines, plants or systems, using electric or magnetic effects
- F25B21/02—Machines, plants or systems, using electric or magnetic effects using Peltier effect; using Nernst-Ettinghausen effect
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Portable Nailing Machines And Staplers (AREA)
- Solid-Fuel Combustion (AREA)
Abstract
The invention belongs to gas-cooker technical fields, more particularly to a kind of closing type gas combustion stove release mechanism based on spring reset, it includes combustion head, suction ring, first gas-guide tube, total housing, gas combustion stove casing, first cone tooth combination, elastic balloon, triconodont combines, igniter, rectangular tube, cooling duct, first semiconductor chilling plate, second semiconductor chilling plate etc., wherein the unlit gas of gas-cooker, which can be drawn into through blast tube in elastic balloon, stores, and after gas combustion range ignition success, combustion gas in elastic balloon can quickly be drained into through blast tube in gas-cooker utilization of being burnt again;In addition, after gas-cooker is flame-out suddenly, solenoid valve can close the air inlet of gas-cooker according to the signal received, ensure that the safe handling of gas-cooker;The configuration of the present invention is simple has preferable using effect.
Description
Technical field
The invention belongs to gas-cooker technical field more particularly to a kind of closing type gas combustion stove safe machines based on spring reset
Structure.
Background technology
Gas-cooker traditional at present before being lighted a fire, from the stomata of gas-cooker emerge by the combustion gas for having sub-fraction,
In order to efficiently use these unemployed combustion gas before ignition, so just needing a kind of combustion gas recovering mechanism;In addition it is firing
After gas kitchen igniting in normally combustion process, after gas-cooker is flame-out suddenly, combustion gas can still continue from the stomata of gas-cooker
It emerges, in this way there have been security risk, in order to can guarantee that gas-cooker can stop steaming after flame-out suddenly, in addition in Initial Stage after Ignition
The extra combustion gas emerged can also be recycled, then just need to design a kind of gas-cooker release mechanism.
The present invention designs a kind of closing type gas combustion stove release mechanism based on spring reset and solves the problems, such as above.
Invention content
To solve drawbacks described above of the prior art, the present invention discloses a kind of closing type gas combustion stove safety based on spring reset
Mechanism, it is realized using following technical scheme.
A kind of closing type gas combustion stove release mechanism based on spring reset, it is characterised in that:It include combustion head, suction ring,
First gas-guide tube, total housing, gas combustion stove casing, first shell, the second gas-guide tube, motor, the first cone tooth combination, third gas-guide tube,
Guide rail, rack, sliding panel, elastic balloon, the first fixed block, the second axis, the first fixed plate, the second cone tooth combination, third axis, the
Two fixed plates, third fixed plate, triconodont combination, first gear, second gear, rack guide rail, the first spring, cylinder are fixed
Block, the second fixed block, igniter, thermocouple, the first pump, third fixed block, the first hole, annular section, the second stomata, burning
Slot, the first stomata, third stomata, the 4th stomata, annular chamber, the 4th fixed block, guide-track groove, pump shaft, first axle, the 4th axis,
Two springs, guide block, wherein total housing is made of the first plate, the second plate, third plate, the 4th plate, top plate and bottom plate;It is provided on top plate
First hole;First fixed plate and the second fixed plate are installed on the second plate;First fixed block, the second fixation are installed on bottom plate
Block, third fixed block and the 4th fixed block;Second fixed block is located at bottom plate at the position of the first plate;It is leaned on second fixed block
Guide-track groove is provided on upper face at one jiao of nearly second plate;First fixed block is between the second fixed block and third plate;The
Three fixed blocks and the 4th fixed block are between the second fixed block and the first fixed block;Gas combustion stove casing is mounted on top plate;Combustion gas
Stove shell has burning groove;There is annular section on the upper surface of gas combustion stove casing;Combustion head is mounted in the low groove face of burning groove
Between at position;The periphery circumferential direction of combustion head is equably provided with multiple first stomatas;Outside annular section to gas combustion stove casing
Multiple second stomatas are equably provided between disc along circumferential direction;Suction ring is mounted on the periphery of gas combustion stove casing;Air-breathing
Annular chamber is provided in ring;Circumferential direction is equably provided with multiple third stomatas on the inner headed face of suction ring;Third stomata and annular
Chamber communicates;Each second stomata is communicated with a corresponding third stomata;4th gas there are one being opened on the periphery of suction ring
Hole;4th stomata is communicated with annular chamber;Igniter is mounted on by bar on the kerve face of burning groove;Thermocouple is mounted on by bar
On the kerve face of burning groove.
First shell is mounted on the first fixed block;First shell by shell top plate, shell bottom plate, first end plate, the second end plate,
First side plate and the second side plate are formed.
Motor is mounted on the 4th fixed block;First pump is mounted on third fixed block;One end of pump shaft and motor shaft phase
Connection, the other end are connected by shaft coupling with the first pump;One end of first axle is connected with motor shaft, and the other end is equipped with
One cone tooth combination;Second axis passes through the first fixed plate, and one end of the second axis bores tooth with first and combines connection, and the other end is equipped with the
Plug tap tooth combines;Third axis passes through the second fixed plate, and one end of third axis bores tooth with second and combines connection, and the other end is equipped with the
Triconodont combines;4th axis passes through third fixed plate, and one end of the 4th axis combines connection with triconodont, and the other end is equipped with the
One gear;Guide rail is installed on the second plate by fixed plate;Guide block is mounted in guide rail;One end of second spring is mounted on guide block
On, the other end is mounted on the wall surface of guide rail;Second gear is mounted on by axis on guide block;Second gear is slided on by guide block
In guide rail;Second gear is meshed with first gear.
Rack guide rail is mounted in guide-track groove;One end of rack is nested in rack guide rail, and the other end is equipped with sliding panel;
Symmetrically there are two the first springs for installation on sliding panel;First spring is not connected on one end and the second fixed block of sliding panel;Circle
Column fixed block is mounted on the second fixed block, and cylinder fixed block is located between two the first springs;Elastic balloon one end is mounted on
On cylinder fixed block, the other end is mounted on sliding panel;Second gear is matched with rack.
One end of first gas-guide tube is mounted in the 4th stomata, and the other end passes through the first hole mounted on the circular hole of first end plate
On;One end of second gas-guide tube is mounted on the circular hole of the second end plate, and the other end is connected with the first pump;The one of third gas-guide tube
End is mounted on the first pump, and the other end is connected with elastic balloon;Third gas-guide tube is communicated with elastic balloon.
As being further improved for this technology, above-mentioned first cone tooth is combined as two axis and two of 90 degree bores tooth groups each other
Into;Above-mentioned second cone tooth is combined as two axis, and two of 90 degree cone teeth form each other;Above-mentioned triconodont is combined as two axis
Line two of 90 degree cone teeth compositions each other.
As being further improved for this technology, when rack is in the lowermost end of rack guide rail, elastic balloon, which is in, to be flattened
State;When first gear does not rotate, second gear is meshed with rack.
As being further improved for this technology, the combustion gas of above-mentioned combustion head is passed in and out by solenoid valve control.
As being further improved for this technology, after gas stove switch is opened, solenoid valve is opened, and thermocouple is known after 2 seconds
Other temperature is less than 500 degree, and solenoid valve is closed.
As being further improved for this technology, the temperature of above-mentioned thermocouple identification from the temperature reduction higher than 500 degree be 500
When below degree, solenoid valve is closed after 2 seconds.
As being further improved for this technology, the wide and high ratio of first shell is 10:1.
As being further improved for this technology, rectangular tube, the first semiconductor chilling plate have been further included in said first shell
With the second semiconductor chilling plate, wherein one end of rectangular tube is mounted in first end plate, and the other end is mounted on the second end plate;Square
The both sides of shape pipe are connected respectively with the first side plate and the second side plate;Rectangular tube is located at the middle position of first shell;By square
Shape pipe, first end plate and the second end plate constitute cooling duct;First semiconductor chilling plate is mounted on the upper tube face of rectangular tube,
One end of first semiconductor chilling plate is connect with first end plate, the other end and the second end plate connection;By the first semiconductor chilling plate,
Shell top plate, first end plate, the second end plate, the first side plate and the second side plate constitute the first heat dissipation channel;Second semiconductor refrigerating
Piece is mounted on the down tube face of rectangular tube, and one end of the second semiconductor chilling plate is connect with first end plate, the other end and second end
Plate connects;Is constituted by the second semiconductor chilling plate, shell bottom plate, first end plate, the second end plate, the first side plate and the second side plate
Two heat dissipation channels;First gas-guide tube is communicated with cooling duct;Second gas-guide tube is communicated with cooling duct;First heat dissipation channel and
Venthole is provided in first end plate, the second end plate at two heat dissipation channels, two side position.
As being further improved for this technology, it further includes the 4th gas-guide tube, the 5th gas-guide tube, the second pump, the 6th air guide
Pipe, the second hole, the 7th gas-guide tube, current divider, the 8th gas-guide tube, the 4th hole, the 9th gas-guide tube, third hole are opened in bottom plate
There are the second hole, third hole and the 4th hole;Second hole is between the second fixed block and third fixed block;Third hole and the 4th hole position
Between the first fixed block and third plate;Second pump is mounted on third fixed block;First pump is located between the second pump and motor;
Second pump is connect with the shaft of the first pump by shaft coupling, and one end of the 6th gas-guide tube is mounted on the second pump, other end installation
In the second hole;One end of 7th gas-guide tube is mounted on the second pump, and the other end is equipped with current divider;One end of 8th gas-guide tube
On current divider, the other end is mounted on the second end plate;8th gas-guide tube is communicated with the first heat dissipation channel;4th gas-guide tube
One end be mounted on first end plate on, the other end be mounted on the 4th hole in;4th gas-guide tube is communicated with the first heat dissipation channel;9th
One end of gas-guide tube is mounted on current divider, and the other end is mounted on the second end plate;9th gas-guide tube and the second heat dissipation channel phase
It is logical;One end of 5th gas-guide tube is mounted in first end plate, and the other end is mounted in third hole;5th gas-guide tube and the second heat dissipation
Channel communicates.
As being further improved for this technology, the wide and high ratio of above-mentioned rectangular tube is 10:1.
The effect of igniter is in the present invention:Igniter can be lighted the combustion gas emerged from the first stomata.
First shell or the wide and high ratio of rectangular tube are 10:1, then the channel of ratio has and will be led to by this in this way
The effect that the combustion gas of road burning is extinguished, prevents flame suck-back from entering in elastic balloon, so as to cause explosion.
Identification signal can be passed to chip, the rotation of chip controls motor and the folding of solenoid valve by thermocouple.Combustion gas
The effect of suction ring is equipped on stove shell periphery is:Combustion gas can be in and out of through the second stomata and third stomata in annular chamber,
Combustion gas in annular chamber can be in and out of through the 4th stomata in the first gas-guide tube.
The effect of the first semiconductor chilling plate and the second semiconductor chilling plate is in the present invention:It on the one hand can be logical by cooling
Temperature in road is maintained at a below the ignition temperature of combustion gas;On the other hand the first heat dissipation channel and the can be transferred heat to
Two heat dissipation channels further improve the effect that channel extinguishes the combustion gas of burning.
The effect of cooling duct is:It can be cooled down after the combustion gas of high-temp combustion is inhaled into cooling duct,
The combustion gas of final high-temp combustion can be off;Flame is prevented to be drawn into elastic balloon, causes what elastic balloon exploded
Effect.
The convection action that the effect of first heat dissipation channel and the second heat dissipation channel is available with air stream is come to the first half
Conductor cooling piece and the second semiconductor chilling plate hot-side heat dissipation.
The effect of motor is in the present invention:One side motor can drive the first pump and the second pump work;On the other hand electricity
Machine can be through first axle, the first cone tooth combination, the second axis, the second cone tooth combination, the combination of third axis, triconodont and the 4th axis band
Dynamic first gear rotation.
First gear is meshed with second gear, and second gear is with the matched effect of rack:On the one hand, when the first tooth
When wheel rotates clockwise, first gear can be moved up through second gear band carry-over bar;On the other hand, when the first gear inverse time
When needle rotates, rack moves down under the action of the spring, and when rack is moved down into maximum position, second gear will be unable to again
Drive rack moves, and then under first gear and the collective effect of rack, and second gear is moved to the direction of second spring, takes off
It is engaged from rack, prevents the rack that does not move from generating interference to motor.
One end of rack is equipped with sliding panel, and the other end is inserted into rack guide rail;Elastic balloon one end, which is mounted on, to be slided
On plate, the other end is mounted in cylinder fixed plate;So when rack moves up, rack can be through sliding panel tensile elasticity gas
Capsule, and then increase the gas storage space of elastic balloon;When rack moves down, rack can be through sliding panel elasticity of compression gas
Capsule, and then reduce the gas storage space of elastic balloon;When rack is moved down into maximum position under the action of the spring, elastic gas
Capsule is crushed, and the gas storage space of elastic balloon is almost nil at this time.The effect of first spring is that sliding panel can be made quickly downward
It is mobile, and then sliding panel can be such that the combustion gas in elastic balloon quickly discharges with Fast Compression elastic balloon.Pass through the first spring
The speed that the rack that restoring force moment quickly moves down moves down is more than the speed that motor drives first gear to rotate counterclockwise
Degree, so the first spring is selected to restore.Rack, which quickly moves down, can be such that combustion gas is quickly discharged from elastic balloon, prevent fire
Flame suck-back.
In the present invention one is constituted by the first gas-guide tube, cooling duct, the second gas-guide tube, the first pump and third gas-guide tube
Blast tube;So under the rotating forward of the first pump operates, being inhaled into combustion gas in annular chamber can be logical through the first gas-guide tube, cooling
Road, the second gas-guide tube, the first pump and third gas-guide tube are entered in elastic balloon;Under the reversion of the first pump operates, elastic gas
Combustion gas in capsule can enter annular chamber through third gas-guide tube, the first pump, the second gas-guide tube, cooling duct and the first gas-guide tube
In, the combustion gas in annular chamber is emerged from third stomata and the second stomata again.
4th gas-guide tube in the present invention, the first heat dissipation channel, the 8th gas-guide tube, current divider, the 7th gas-guide tube, the second pump and
6th gas-guide tube constitutes the first airflow path;So under the running of the second pump, air can be in the first airflow path
Flowing, and then radiate to the first semiconductor chilling plate.
5th gas-guide tube in the present invention, the second heat dissipation channel, the 9th gas-guide tube, current divider, the 7th gas-guide tube, the second pump and
6th gas-guide tube constitutes the second airflow path;So under the running of the second pump, air can be in the second airflow path
Flowing, and then radiate to the second semiconductor chilling plate.
When gas-cooker when not in use, solenoid valve is closed;Second gear is meshed with rack, and rack is in rack
During the least significant end of guide rail, elastic balloon is in collapsed state.
When gas-cooker in use, solenoid valve is opened, motor, which rotates forward, to be started, before igniter does not light combustion gas, thermocouple
The temperature signal recognized is less than 500 degree;During motor rotates forward, on the one hand, motor is through first axle, the first cone tooth group
Conjunction, the second axis, the second cone tooth combination, the combination of third axis, triconodont and the 4th axis drive first gear to rotate clockwise, and first
Gear can be moved up through second gear band carry-over bar, and the first spring is stretched, and rack can be through sliding panel tensile elasticity gas
Capsule, and then increase the gas storage space of elastic balloon and generate negative pressure;On the other hand, motor is driving the first pump and the second pump just
Turn, under the rotating forward running of the first pump and the suction function of elastic balloon, be not ignited combustion gas that device lights through the second stomata and
Third stomata is drawn into annular chamber;Being inhaled into combustion gas in annular chamber can enter through blast tube in elastic balloon, into
And the gas storage that elastic balloon will not lighted;Under the rotating forward of the second pump, the first airflow path and second in air
It flows in airflow path, and then radiates to the first semiconductor chilling plate and the second semiconductor chilling plate.When solenoid valve open, 2
The temperature that thermocouple is identified after second still less than 500 degree, close by solenoid valve.
After igniter lights combustion gas, the temperature signal that thermocouple recognizes is more than 500 degree, and thermocouple is by signal through chip
Motor is passed to, at this time motor reversal;During motor reversal, on the one hand, motor through first axle, first cone tooth combination,
Second axis, the second cone tooth combination, the combination of third axis, triconodont and the 4th axis drive first gear to rotate counterclockwise, the first tooth
Wheel can be moved down through second gear band carry-over bar, and under the reset response of the first spring, rack can be quick through sliding panel
Elasticity of compression air bag, and then the gas storage space of elastic balloon is made quickly to reduce makes the combustion gas of storage in elastic balloon compression and the
It is quickly drained into burning stove shell, and then stores through blast tube, annular chamber, third stomata and the second stomata under the reversion of one pump
Combustion gas be burned utilization, the combustion gas for playing the role of to underuse efficiently uses.Motor reversal stops after 5 seconds
Only.
During gas-cooker normal combustion, when suddenly encountering flame-out situation, combustion gas at this time is still being emerged;Later
Thermocouple identification temperature from the temperature reduction higher than 500 degree be less than 500 degree when, solenoid valve is closed after 2 seconds.
Relative to traditional gas-cooker technology, the unlit gas of gas-cooker can be drawn into through blast tube in the present invention
It is stored in elastic balloon, and after gas combustion range ignition success, the combustion gas in elastic balloon can be fast through blast tube again
Speed is drained into gas-cooker utilization of being burnt;In addition, after gas-cooker is flame-out suddenly, solenoid valve can according to the signal received
To close the air inlet of gas-cooker, the safe handling of gas-cooker ensure that;The configuration of the present invention is simple has preferable using effect.
Description of the drawings
Fig. 1 is global facility distribution schematic diagram.
Fig. 2 is global facility perspective diagram.
Fig. 3 is global facility section(One)Schematic diagram.
Fig. 4 is global facility section(Two)Schematic diagram.
Fig. 5 is gas-cooker structure diagram.
Fig. 6 is suction ring structure diagram.
Fig. 7 is suction ring diagrammatic cross-section.
Fig. 8 is casing cross-section(One)Schematic diagram.
Fig. 9 is casing cross-section(Two)Schematic diagram.
Figure 10 is enclosure interior installing component schematic diagram.
Figure 11 is the first pump scheme of installation.
Figure 12 is first shell section schematic elevation view.
Figure 13 is first shell diagrammatic cross-section.
Figure 14 is the first semiconductor chilling plate scheme of installation.
Figure 15 is sliding panel scheme of installation.
Figure 16 is the first cone tooth combination scheme of installation.
Figure 17 is elastic balloon scheme of installation.
Figure 18 is second gear scheme of installation.
Figure 19 is second spring scheme of installation.
Figure 20 is guide rail structure schematic diagram.
Figure 21 is rack guide rail diagrammatic cross-section.
Figure 22 is that second gear coordinates schematic diagram with rack.
Figure label title:1st, combustion head;2nd, suction ring;3rd, the first gas-guide tube;4th, total housing;5th, gas combustion stove casing;6th,
One housing;7th, the second gas-guide tube;8th, motor;9th, the first cone tooth combination;10th, third gas-guide tube;11st, guide rail;12nd, rack;13rd, it is sliding
Movable plate;14th, elastic balloon;15th, the 4th gas-guide tube;16th, the 5th gas-guide tube;17th, the first fixed block;18th, the second axis;19th, first
Fixed plate;20th, the second cone tooth combination;21st, third axis;22nd, the second fixed plate;23rd, third fixed plate;24th, triconodont combines;
25th, first gear;26th, the 6th gas-guide tube;27th, second gear;28th, rack guide rail;29th, the first spring;30th, cylinder fixed block;
31st, the second fixed block;32nd, igniter;33rd, thermocouple;34th, the first pump;35th, third fixed block;36th, the first hole;37th, annular is cut
Face;38th, the second stomata;39th, burning groove;40th, the first stomata;41st, third stomata;42nd, the 4th stomata;43rd, annular chamber;44th,
One plate;45th, the second plate;46th, third plate;47th, the 4th plate;48th, bottom plate;49th, top plate;50th, the second hole;51st, third hole;52nd,
Four holes;53rd, the 4th fixed block;54th, guide-track groove;55th, the second pump;56th, current divider;58th, the 7th gas-guide tube;59th, the 8th gas-guide tube;
60th, the 9th gas-guide tube;61st, pump shaft;62nd, first axle;63rd, rectangular tube;64th, cooling duct;65th, the first heat dissipation channel;66th, second
Heat dissipation channel;68th, the 4th axis;69th, second spring;70th, guide block;71st, the first semiconductor chilling plate;72nd, the second semiconductor refrigerating
Piece;91st, shell top plate;92nd, shell bottom plate;93rd, first end plate;94th, the second end plate;95th, the first side plate;96th, the second side plate.
Specific embodiment
As shown in Figure 1, 2, it includes combustion head 1, suction ring 2, the first gas-guide tube 3, total housing 4, gas combustion stove casing 5, first
Housing 6, the second gas-guide tube 7, motor 8, first bore tooth combination 9, third gas-guide tube 10, guide rail 11, rack 12, sliding panel 13, bullet
Property air bag 14, the first fixed block 17, the second axis 18, the first fixed plate 19, second cone tooth combination 20, third axis 21, second fix
Plate 22, third fixed plate 23, triconodont combination 24, first gear 25, second gear 27, rack guide rail 28, the first spring 29,
Cylinder fixed block 30, the second fixed block 31, igniter 32, the pump of thermocouple 33, first 34, third fixed block 35, the first hole 36, ring
Shape section 37, the second stomata 38, burning groove 39, the first stomata 40, third stomata 41, the 4th stomata 42, annular chamber the 43, the 4th are solid
Block 53, guide-track groove 54, pump shaft 61, first axle 62, the 4th axis 68, second spring 69, guide block 70 are determined, as shown in Figure 8,9, wherein always
Housing 4 is made of the first plate 44, the second plate 45, third plate 46, the 4th plate 47, top plate 49 and bottom plate 48;As shown in figure 9, top plate
The first hole 36 is provided on 49;First fixed plate 19 and the second fixed plate 22 are installed on second plate 45;Is equipped on bottom plate 48
One fixed block 17, the second fixed block 31,35 and the 4th fixed block 53 of third fixed block;It is close that second fixed block 31 is located at bottom plate 48
At the position of first plate 44;On second fixed block 31 guide-track groove 54 is provided on the upper face at one jiao of the second plate 45;The
One fixed block 17 is between the second fixed block 31 and third plate 46;It is solid that 35 and the 4th fixed block 53 of third fixed block is located at second
Determine between 31 and first fixed block 17 of block;As shown in Figure 1,5, gas combustion stove casing 5 is mounted on top plate 49;Gas combustion stove casing 5 has combustion
Burn slot 39;There is annular section 37 on the upper surface of gas combustion stove casing 5;Combustion head 1 is mounted on the centre of the low groove face of burning groove 39
At position;The periphery circumferential direction of combustion head 1 is equably provided with multiple first stomatas 40;Annular section 37 arrives gas combustion stove casing 5
Periphery between be equably provided with multiple second stomatas 38 along circumferential direction;As shown in Fig. 1,6,7, suction ring 2 is mounted on combustion
On the periphery of gas kitchen shell 5;Annular chamber 43 is provided in suction ring 2;Circumferential direction is equably provided with more on the inner headed face of suction ring 2
A third stomata 41;Third stomata 41 is communicated with annular chamber 43;Each second stomata 38 and a corresponding third stomata 41
It communicates;4th stomata 42 there are one being opened on the periphery of suction ring 2;4th stomata 42 is communicated with annular chamber 43;As shown in figure 5,
Igniter 32 is mounted on by bar on the kerve face of burning groove 39;Thermocouple 33 is mounted on the kerve face of burning groove 39 by bar
On.
As shown in Figure 12,13, first shell 6 is mounted on the first fixed block 17;First shell 6 is by shell top plate 91, shell bottom
Plate 92, first end plate 93, the second end plate 94, the first side plate 95 and the second side plate 96 are formed.
As shown in Fig. 3,4,10,11, motor 8 is mounted on the 4th fixed block 53;First pump 34 is mounted on third fixed block
On 35;One end of pump shaft 61 is connected with 8 axis of motor, and the other end is connected by shaft coupling with the first pump 34;Such as Fig. 3,10,16
Shown, one end of first axle 62 is connected with 8 axis of motor, and the other end is equipped with the first cone tooth combination 9;Second axis 18 passes through first
9 connections are combined in fixed plate 19, one end of the second axis 18 with the first cone tooth, and the other end is equipped with the second cone tooth combination 20;Third axis
21 pass through the second fixed plate 22, and 20 connections are combined in one end of third axis 21 with the second cone tooth, and the other end is equipped with triconodont group
Close 24;4th axis 68 passes through third fixed plate 23, and one end of the 4th axis 68 combines 24 connections with triconodont, and the other end is equipped with
First gear 25;As shown in Fig. 3,17, guide rail 11 is mounted on by fixed plate on the second plate 45;As shown in Figure 18,19,20, lead
Block 70 is mounted in guide rail 11;One end of second spring 69 is mounted on guide block 70, and the other end is mounted on the wall surface of guide rail 11;
Second gear 27 is mounted on by axis on guide block 70;Second gear 27 is slided on by guide block 70 in guide rail 11;Second gear 27
It is meshed with first gear 25.
As shown in Fig. 9,17,21, rack guide rail 28 is mounted in guide-track groove 54;One end of rack 12 is nested in rack guide rail
In 28, the other end is equipped with sliding panel 13;Symmetrically there are two the first springs 29 for installation on sliding panel 13;First spring 29 does not connect
It connects on one end and the second fixed block 31 of sliding panel 13;Cylinder fixed block 30 is mounted on the second fixed block 31, cylinder fixed block
30 are located between two the first springs 29;14 one end of elastic balloon is mounted on cylinder fixed block 30, and the other end, which is mounted on, to be slided
On plate 13;Second gear 27 is matched with rack 12.
As shown in Fig. 4,7,8,11, one end of the first gas-guide tube 3 is mounted in the 4th stomata 42, and the other end passes through the first hole
36 are mounted on the circular hole of first end plate 93;As shown in Figure 11,12, one end of the second gas-guide tube 7 is mounted on the second end plate 94
On circular hole, the other end is connected with the first pump 34;As shown in figure 15, one end of third gas-guide tube 10 is mounted on the first pump 34,
The other end is connected with elastic balloon 14;Third gas-guide tube 10 is communicated with elastic balloon 14.
As shown in figure 16, for two axis, two of 90 degree cone teeth form each other for above-mentioned first cone tooth combination 9;Above-mentioned second
Boring tooth combination 20, two of 90 degree cone teeth form each other for two axis;Above-mentioned triconodont combination 24 is two axis each other 90
Two cone tooth compositions of degree.
When rack 12 is in the lowermost end of rack guide rail 28, elastic balloon 14 is in collapsed state;When first gear 25
When not rotating, second gear 27 is meshed with rack 12.
The combustion gas of above-mentioned combustion head 1 is passed in and out by solenoid valve control.
After gas stove switch is opened, solenoid valve is opened, and the temperature that thermocouple 33 is identified after 2 seconds is less than 500 degree, electromagnetism
Valve is closed.
The temperature that above-mentioned thermocouple 33 identifies from the temperature reduction higher than 500 degree be less than 500 degree when, solenoid valve is after 2 seconds
It closes.
As shown in figure 11, the wide and high ratio of first shell 6 is 10:1.
As shown in Figure 12,13, rectangular tube 63, the first semiconductor chilling plate 71 and have been further included in said first shell 6
Two semiconductor chilling plates 72, as shown in Figure 12,13,14, wherein one end of rectangular tube 63 is mounted in first end plate 93, the other end
On the second end plate 94;The both sides of rectangular tube 63 are connected respectively with the first side plate 95 and the second side plate 96;Rectangular tube 63
Positioned at the middle position of first shell 6;Cooling duct 64 is constituted by rectangular tube 63,93 and second end plate 94 of first end plate;
First semiconductor chilling plate 71 is mounted on the upper tube face of rectangular tube 63, one end of the first semiconductor chilling plate 71 and first end plate
93 connections, the other end are connect with the second end plate 94;By the first semiconductor chilling plate 71, shell top plate 91, first end plate 93, second end
Plate 94, the first side plate 95 and the second side plate 96 constitute the first heat dissipation channel 65;Second semiconductor chilling plate 72 is mounted on rectangle
On the down tube face of pipe 63, one end of the second semiconductor chilling plate 72 is connect with first end plate 93, and the other end connects with the second end plate 94
It connects;By the second semiconductor chilling plate 72, shell bottom plate 92, first end plate 93, the second end plate 94, the first side plate 95 and the second side plate 96
Constitute the second heat dissipation channel 66;First gas-guide tube 3 is communicated with cooling duct 64;Second gas-guide tube 7 is communicated with cooling duct 64;
Venthole is provided in first end plate 93, the second end plate 94 at 66 liang of side positions of first heat dissipation channel 65 and the second heat dissipation channel.
As shown in Fig. 8,11, it includes the 4th gas-guide tube 15, the 5th gas-guide tube 16, second pumps the 55, the 6th gas-guide tube 26, the
Two holes 50, the 7th gas-guide tube 58, current divider 56, the 8th gas-guide tube 59, the 4th hole 52, the 9th gas-guide tube 60, third hole 51 are such as schemed
8th, shown in 9, the second hole 50,51 and the 4th hole 52 of third hole are provided in bottom plate 48;Second hole 50 is located at the second fixed block 31
Between third fixed block 35;51 and the 4th hole 52 of third hole is between the first fixed block 17 and third plate 46;As Fig. 9,10,
Shown in 11, the second pump 55 is mounted on third fixed block 35;First pump 34 is located between the second pump 55 and motor 8;Second pump 55
It is connect with the shaft of the first pump 34 by shaft coupling, one end of the 6th gas-guide tube 26 is mounted on the second pump 55, other end installation
In the second hole 50;One end of 7th gas-guide tube 58 is mounted on the second pump 55, and the other end is equipped with current divider 56;8th air guide
One end of pipe 59 is mounted on current divider 56, and the other end is mounted on the second end plate 94;8th gas-guide tube 59 and the first heat dissipation are logical
Road 65 communicates;One end of 4th gas-guide tube 15 is mounted in first end plate 93, and the other end is mounted in the 4th hole 52;4th air guide
Pipe 15 is communicated with the first heat dissipation channel 65;One end of 9th gas-guide tube 60 is mounted on current divider 56, and the other end is mounted on second
On end plate 94;9th gas-guide tube 60 is communicated with the second heat dissipation channel 66;One end of 5th gas-guide tube 16 is mounted on first end plate 93
On, the other end is mounted in third hole 51;5th gas-guide tube 16 is communicated with the second heat dissipation channel 66.
As shown in figure 14, the wide and high ratio of above-mentioned rectangular tube 63 is 10:1.
The effect of igniter 32 is in the present invention:Igniter 32 can be by the combustion gas emerged from the first stomata 40 to point
It.
First shell 6 or the wide and high ratio of rectangular tube 63 are 10:1, then the channel of ratio has and will pass through in this way
The effect that the combustion gas of channel burning is extinguished, prevents flame suck-back from entering in elastic balloon 14, so as to cause explosion.
Identification signal can be passed to chip, the rotation of chip controls motor 8 and the folding of solenoid valve by thermocouple 33.Combustion
The effect of suction ring 2 is equipped on 5 periphery of gas kitchen shell is:Combustion gas can be in and out of ring through the second stomata 38 and third stomata 41
In shape chamber 43, the combustion gas in annular chamber 43 can be in and out of through the 4th stomata 42 in the first gas-guide tube 3.
The effect of the first semiconductor chilling plate 71 and the second semiconductor chilling plate 72 is in the present invention:It on the one hand can will be cold
But the temperature in channel 64 is maintained at a below the ignition temperature of combustion gas;On the other hand the first heat dissipation can be transferred heat to lead to
65 and second heat dissipation channel 66 of road further improves the effect that channel extinguishes the combustion gas of burning.
The effect of cooling duct 64 is:It can be carried out after the combustion gas of high-temp combustion is inhaled into cooling duct 64 cold
But, the combustion gas of final high-temp combustion can be off;Flame is prevented to be drawn into elastic balloon 14, causes elastic balloon 14
The effect of explosion.
The convection action that the effect of first heat dissipation channel 65 and the second heat dissipation channel 66 is available with air stream is come to
71 and second semiconductor chilling plate of semiconductor cooling piece, 72 hot-side heat dissipation.
The effect of motor 8 is in the present invention:One side motor 8 can drive 55 work of the first pump 34 and the second pump;It is another
Aspect motor 8 can bore tooth through first axle 62, first and combine the 9, second axis 18, second cone tooth combination 20, third axis 21, third cone
Tooth combination 24 and the 4th axis 68 drive first gear 25 to rotate.
First gear 25 is meshed with second gear 27, and second gear 27 is with the matched effect of rack 12:On the one hand,
In Figure 22(a)Shown, when first gear 25 rotates clockwise, first gear 25 can be through second gear 27 with carry-over bar 12
It moves up;On the other hand, as in Figure 22(b)It is shown, when first gear 25 rotates counterclockwise, rack 12 under the action of the spring
It moves down, in Figure 22(c)Shown, when rack 12 is moved down into maximum position, second gear 27 will be unable to drive again
Rack 12 moves, and then under first gear 25 and the collective effect of rack 12, and second gear 27 is to the direction of second spring 69
It is mobile, it is engaged departing from rack 12, prevents the rack not moved 12 from generating interference to motor 8.
One end of rack 12 is equipped with sliding panel 13, and the other end is inserted into rack guide rail 28;Pacify 14 one end of elastic balloon
On sliding panel 13, the other end is mounted in cylinder fixed plate;So when rack 12 moves up, rack 12 can be through cunning
13 tensile elasticity air bag 14 of movable plate, and then increase the gas storage space of elastic balloon 14;When rack 12 moves down, rack 12
Can be through 13 elasticity of compression air bag 14 of sliding panel, and then reduce the gas storage space of elastic balloon 14;When rack 12 is made in spring
When being moved down into maximum position under, elastic balloon 14 is crushed, and the gas storage space of elastic balloon 14 is almost nil at this time.The
The effect of one spring 29 is that sliding panel 13 can be made quickly to move down, and then sliding panel 13 can be with Fast Compression elastic balloon
14, the combustion gas in elastic balloon 14 is made quickly to discharge.The rack quickly moved down by the restoring force moment of the first spring 29
12 speed moved down are more than the speed that motor 8 drives first gear 25 to rotate counterclockwise, so selecting the first spring 29 extensive
It is multiple.Rack 12, which quickly moves down, can be such that combustion gas is quickly discharged from elastic balloon 14, prevent flame suck-back.
By 10 groups of the first gas-guide tube 3, cooling duct 64, the second gas-guide tube 7, first pump 34 and third gas-guide tube in the present invention
Into a blast tube;So when under the rotating forward running of the first pump 34, being inhaled into combustion gas in annular chamber 43 can be through first
Gas-guide tube 3, cooling duct 64, the second gas-guide tube 7, first pump 34 and third gas-guide tube 10 are entered in elastic balloon 14;When
Under the reversion running of one pump 34, combustion gas in elastic balloon 14 can be pumped through third gas-guide tube 10, first 34, second gas-guide tube 7,
64 and first gas-guide tube 3 of cooling duct is entered in annular chamber 43, and the combustion gas in annular chamber 43 is again from third stomata 41 and second
It emerges in stomata 38.
4th gas-guide tube 15, the first heat dissipation channel 65, the 8th gas-guide tube 59, current divider 56, the 7th gas-guide tube in the present invention
58th, the second pump 55 and the 6th gas-guide tube 26 constitute the first airflow path;So under the running of the second pump 55, air can be with
It flows in the first airflow path, and then radiates to the first semiconductor chilling plate 71.
5th gas-guide tube 16, the second heat dissipation channel 66, the 9th gas-guide tube 60, current divider 56, the 7th gas-guide tube in the present invention
58th, the second pump 55 and the 6th gas-guide tube 26 constitute the second airflow path;So under the running of the second pump 55, air can be with
It flows in the second airflow path, and then radiates to the second semiconductor chilling plate 72.
Specific embodiment:When gas-cooker when not in use, solenoid valve is closed;Second gear 27 and 12 phase of rack
Engagement, when rack 12 is in the least significant end of rack guide rail 28, elastic balloon 14 is in collapsed state.
When gas-cooker in use, solenoid valve is opened, motor 8, which rotates forward, to be started, before igniter 32 does not light combustion gas, thermoelectricity
Even 33 temperature signals recognized are less than 500 degree;During motor 8 rotates forward, on the one hand, motor 8 is through first axle 62, first
It bores tooth combination the 9, second axis 18, second cone tooth combination 20, third axis 21, triconodont combination 24 and the 4th axis 68 and drives the first tooth
Wheel 25 rotates clockwise, and first gear 25 can be moved up through second gear 27 with carry-over bar 12, and the first spring 29 is stretched,
Rack 12 can be through 13 tensile elasticity air bag 14 of sliding panel, and then increases the gas storage space of elastic balloon 14 and generate negative pressure;
On the other hand, motor 8 drives 55 rotating forward of the first pump 34 and the second pump, in the rotating forward running of the first pump 34 and bearing for elastic balloon 14
Under pressure effect, it is not ignited the combustion gas that device 32 is lighted and is drawn into annular chamber 43 through the second stomata 38 and third stomata 41;It is inhaled
Entering into annular chamber 43 combustion gas can enter in elastic balloon 14, and then the combustion that elastic balloon 14 will not lighted through blast tube
Gas stores;Under the rotating forward of the second pump 55, flowed in the first airflow path and the second airflow path in air, and then
It radiates to the first semiconductor chilling plate 71 and the second semiconductor chilling plate 72.When solenoid valve is opened, thermocouple 33 is identified after 2 seconds
Temperature still less than 500 degree, solenoid valve close.
After igniter 32 lights combustion gas, temperature signal that thermocouple 33 recognizes is more than 500 degree, and thermocouple 33 is by signal
Motor 8 is passed to through chip, motor 8 inverts at this time;During motor 8 inverts, on the one hand, motor 8 is through first axle 62, the
One cone tooth combines the 9, second axis 18, second cone tooth combination 20, third axis 21, triconodont combination 24 and the 4th axis 68 and drives first
Gear 25 rotates counterclockwise, and first gear 25 can be moved down through second gear 27 with carry-over bar 12, in the first spring 29
Under reset response, rack 12 can be through 13 Fast Compression elastic balloon 14 of sliding panel, and then makes the gas storage space of elastic balloon 14
It is quick to reduce, make the combustion gas of storage under the compression of elastic balloon 14 and the reversion of the first pump 34 quickly through blast tube, annular chamber
43rd, 41 and second stomata 38 of third stomata is drained into burning stove shell, and then the combustion gas stored is burned utilization, and playing will not
The effect that the combustion gas made full use of efficiently uses.Motor 8 stops after inverting 5 seconds.
During gas-cooker normal combustion, when suddenly encountering flame-out situation, combustion gas at this time is still being emerged;Later
Thermocouple 33 identify temperature from the temperature reduction higher than 500 degree be less than 500 degree when, solenoid valve is closed after 2 seconds.
In conclusion the main advantageous effect of the present invention is:The unlit gas of gas-cooker can be sucked through blast tube
It is stored into elastic balloon 14, and after gas combustion range ignition success, the combustion gas in elastic balloon 14 can be again through combustion gas
Channel is quickly drained into gas-cooker utilization of being burnt;In addition, after gas-cooker is flame-out suddenly, solenoid valve is according to receiving
Signal can close the air inlet of gas-cooker, ensure that the safe handling of gas-cooker;The configuration of the present invention is simple has preferable use
Effect.
Claims (10)
1. a kind of closing type gas combustion stove release mechanism based on spring reset, it is characterised in that:It includes combustion head, suction ring, the
One gas-guide tube, gas combustion stove casing, first shell, the second gas-guide tube, motor, the first cone tooth combination, third gas-guide tube, is led at total housing
Rail, rack, sliding panel, elastic balloon, the first fixed block, the second axis, the first fixed plate, the second cone tooth combination, third axis, second
Fixed plate, third fixed plate, triconodont combination, first gear, second gear, rack guide rail, the first spring, cylinder are fixed
Block, the second fixed block, igniter, thermocouple, the first pump, third fixed block, the first hole, annular section, the second stomata, burning
Slot, the first stomata, third stomata, the 4th stomata, annular chamber, the 4th fixed block, guide-track groove, pump shaft, first axle, the 4th axis,
Two springs, guide block, wherein total housing is made of the first plate, the second plate, third plate, the 4th plate, top plate and bottom plate;It is provided on top plate
First hole;First fixed plate and the second fixed plate are installed on the second plate;First fixed block, the second fixation are installed on bottom plate
Block, third fixed block and the 4th fixed block;Second fixed block is located at bottom plate at the position of the first plate;It is leaned on second fixed block
Guide-track groove is provided on upper face at one jiao of nearly second plate;First fixed block is between the second fixed block and third plate;The
Three fixed blocks and the 4th fixed block are between the second fixed block and the first fixed block;Gas combustion stove casing is mounted on top plate;Combustion gas
Stove shell has burning groove;There is annular section on the upper surface of gas combustion stove casing;Combustion head is mounted in the low groove face of burning groove
Between at position;The periphery circumferential direction of combustion head is equably provided with multiple first stomatas;Outside annular section to gas combustion stove casing
Multiple second stomatas are equably provided between disc along circumferential direction;Suction ring is mounted on the periphery of gas combustion stove casing;Air-breathing
Annular chamber is provided in ring;Circumferential direction is equably provided with multiple third stomatas on the inner headed face of suction ring;Third stomata and annular
Chamber communicates;Each second stomata is communicated with a corresponding third stomata;4th gas there are one being opened on the periphery of suction ring
Hole;4th stomata is communicated with annular chamber;Igniter is mounted on by bar on the kerve face of burning groove;Thermocouple is mounted on by bar
On the kerve face of burning groove;
First shell is mounted on the first fixed block;First shell is by shell top plate, shell bottom plate, first end plate, the second end plate, first
Side plate and the second side plate are formed;
Motor is mounted on the 4th fixed block;First pump is mounted on third fixed block;One end of pump shaft is connected with motor shaft,
The other end is connected by shaft coupling with the first pump;One end of first axle is connected with motor shaft, and the other end is equipped with the first cone
Tooth combines;Second axis passes through the first fixed plate, and connection is combined in one end of the second axis with the first cone tooth, and the other end is equipped with the second cone
Tooth combines;Third axis passes through the second fixed plate, and connection is combined in one end of third axis with the second cone tooth, and the other end is equipped with third cone
Tooth combines;4th axis passes through third fixed plate, and one end of the 4th axis combines connection with triconodont, and the other end is equipped with the first tooth
Wheel;Guide rail is installed on the second plate by fixed plate;Guide block is mounted in guide rail;One end of second spring is mounted on guide block,
The other end is mounted on the wall surface of guide rail;Second gear is mounted on by axis on guide block;Second gear is slided on by guide block and led
In rail;Second gear is meshed with first gear;
Rack guide rail is mounted in guide-track groove;One end of rack is nested in rack guide rail, and the other end is equipped with sliding panel;It slides
Symmetrically there are two the first springs for installation on plate;First spring is not connected on one end and the second fixed block of sliding panel;Cylinder is consolidated
Block is determined on the second fixed block, and cylinder fixed block is located between two the first springs;Elastic balloon one end is mounted on cylinder
On fixed block, the other end is mounted on sliding panel;Second gear is matched with rack;
One end of first gas-guide tube is mounted in the 4th stomata, and the other end passes through the first hole to be mounted on the circular hole of first end plate;
One end of second gas-guide tube is mounted on the circular hole of the second end plate, and the other end is connected with the first pump;One end of third gas-guide tube
On the first pump, the other end is connected with elastic balloon;Third gas-guide tube is communicated with elastic balloon.
2. a kind of closing type gas combustion stove release mechanism based on spring reset according to claim 1, it is characterised in that:It is above-mentioned
First cone tooth is combined as two axis, and two of 90 degree cone teeth form each other;Above-mentioned second cone tooth is combined as two axis each other 90
Two cone tooth compositions of degree;Above-mentioned triconodont is combined as two axis, two of 90 degree cone teeth compositions each other.
3. a kind of closing type gas combustion stove release mechanism based on spring reset according to claim 1, it is characterised in that:Work as tooth
When item is in the lowermost end of rack guide rail, elastic balloon is in collapsed state;When first gear does not rotate, second gear and tooth
Item is meshed.
4. a kind of closing type gas combustion stove release mechanism based on spring reset according to claim 1, it is characterised in that:It is above-mentioned
The combustion gas of combustion head is passed in and out by solenoid valve control.
5. a kind of closing type gas combustion stove release mechanism based on spring reset according to claim 4, it is characterised in that:Work as combustion
After gas kitchen switch is opened, solenoid valve is opened, and the temperature that thermocouple is identified after 2 seconds is less than 500 degree, and solenoid valve is closed.
6. a kind of closing type gas combustion stove release mechanism based on spring reset according to claim 5, it is characterised in that:It is above-mentioned
Thermocouple identification temperature from the temperature reduction higher than 500 degree be less than 500 degree when, solenoid valve is closed after 2 seconds.
7. a kind of closing type gas combustion stove release mechanism based on spring reset according to claim 1, it is characterised in that:First
The wide and high ratio of housing is 10:1.
8. a kind of closing type gas combustion stove release mechanism based on spring reset according to claim 1, it is characterised in that:It is above-mentioned
One end of rectangular tube, the first semiconductor chilling plate and the second semiconductor chilling plate, wherein rectangular tube has been further included in first shell
In first end plate, the other end is mounted on the second end plate;The both sides of rectangular tube respectively with the first side plate and the second side plate
It is connected;Rectangular tube is located at the middle position of first shell;It is logical that cooling is constituted by rectangular tube, first end plate and the second end plate
Road;First semiconductor chilling plate is mounted on the upper tube face of rectangular tube, and one end and the first end plate of the first semiconductor chilling plate connect
It connects, the other end and the second end plate connection;By the first semiconductor chilling plate, shell top plate, first end plate, the second end plate, the first side plate
The first heat dissipation channel is constituted with the second side plate;Second semiconductor chilling plate is mounted on the down tube face of rectangular tube, and the second half lead
One end of body cooling piece is connect with first end plate, the other end and the second end plate connection;By the second semiconductor chilling plate, shell bottom plate,
First end plate, the second end plate, the first side plate and the second side plate constitute the second heat dissipation channel;First gas-guide tube and cooling duct phase
It is logical;Second gas-guide tube is communicated with cooling duct;First end plate at two side position of first heat dissipation channel and the second heat dissipation channel,
Venthole is provided on two end plates.
9. a kind of closing type gas combustion stove release mechanism based on spring reset according to claim 8, it is characterised in that:It is also
Including the 4th gas-guide tube, the 5th gas-guide tube, the second pump, the 6th gas-guide tube, the second hole, the 7th gas-guide tube, current divider, the 8th air guide
Pipe, the 4th hole, the 9th gas-guide tube, third hole are provided with the second hole, third hole and the 4th hole in bottom plate;Second hole is located at the
Between two fixed blocks and third fixed block;Third hole and the 4th hole are between the first fixed block and third plate;Second pump installation
On third fixed block;First pump is located between the second pump and motor;Second pump is connect with the shaft of the first pump by shaft coupling,
One end of 6th gas-guide tube is mounted on the second pump, and the other end is mounted in the second hole;One end of 7th gas-guide tube is mounted on the
On two pumps, the other end is equipped with current divider;One end of 8th gas-guide tube is mounted on current divider, and the other end is mounted on the second end plate
On;8th gas-guide tube is communicated with the first heat dissipation channel;One end of 4th gas-guide tube is mounted in first end plate, and the other end is mounted on
In 4th hole;4th gas-guide tube is communicated with the first heat dissipation channel;One end of 9th gas-guide tube is mounted on current divider, other end peace
On the second end plate;9th gas-guide tube is communicated with the second heat dissipation channel;One end of 5th gas-guide tube is mounted in first end plate,
The other end is mounted in third hole;5th gas-guide tube is communicated with the second heat dissipation channel.
10. a kind of closing type gas combustion stove release mechanism based on spring reset according to claim 8, it is characterised in that:On
The wide and high ratio for stating rectangular tube is 10:1.
Priority Applications (3)
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CN201910031060.2A CN109506254B (en) | 2018-02-05 | 2018-02-05 | Safety mechanism of closed gas stove |
CN201810113614.9A CN108266759B (en) | 2018-02-05 | 2018-02-05 | A kind of closing type gas combustion stove release mechanism based on spring reset |
CN201910031059.XA CN109506253B (en) | 2018-02-05 | 2018-02-05 | Gas-cooker safety mechanism based on spring resets |
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CN201810113614.9A CN108266759B (en) | 2018-02-05 | 2018-02-05 | A kind of closing type gas combustion stove release mechanism based on spring reset |
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CN201910031059.XA Division CN109506253B (en) | 2018-02-05 | 2018-02-05 | Gas-cooker safety mechanism based on spring resets |
CN201910031060.2A Division CN109506254B (en) | 2018-02-05 | 2018-02-05 | Safety mechanism of closed gas stove |
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CN201910031059.XA Active CN109506253B (en) | 2018-02-05 | 2018-02-05 | Gas-cooker safety mechanism based on spring resets |
CN201910031060.2A Active CN109506254B (en) | 2018-02-05 | 2018-02-05 | Safety mechanism of closed gas stove |
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CN117781304A (en) * | 2023-12-11 | 2024-03-29 | 无锡锡州机械有限公司 | Gas leading-in device of heat exchanger |
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CN110779047B (en) * | 2019-10-28 | 2021-05-14 | 绍兴市寅创科技有限公司 | Gradually-opened waste heat recovery stove |
CN112747338B (en) * | 2021-01-07 | 2022-08-16 | 宁波方太厨具有限公司 | Fire cover for gas stove and gas stove |
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CN206131082U (en) * | 2016-08-31 | 2017-04-26 | 杨波 | Leak protection gas gas -cooker |
CN106482174A (en) * | 2016-12-23 | 2017-03-08 | 浙江潮邦厨具电器有限公司 | A kind of fuel gas return-flow mechanism of integrated kitchen range |
CN206479377U (en) * | 2017-01-05 | 2017-09-08 | 新昌县七星街道菊燕百货批发部 | A kind of air pre-test is surveyed and uses sample collection equipment |
CN106871170A (en) * | 2017-03-31 | 2017-06-20 | 苏州盖恩茨电子科技有限公司 | A kind of intelligent stove flame surrounding edge device |
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CN117781304A (en) * | 2023-12-11 | 2024-03-29 | 无锡锡州机械有限公司 | Gas leading-in device of heat exchanger |
Also Published As
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CN109506253B (en) | 2020-04-28 |
CN109506253A (en) | 2019-03-22 |
CN109506254A (en) | 2019-03-22 |
CN109506254B (en) | 2020-06-05 |
CN108266759B (en) | 2019-03-12 |
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