CN205119173U - Cooking utensils gather can heat insulating ring - Google Patents

Cooking utensils gather can heat insulating ring Download PDF

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Publication number
CN205119173U
CN205119173U CN201420871844.9U CN201420871844U CN205119173U CN 205119173 U CN205119173 U CN 205119173U CN 201420871844 U CN201420871844 U CN 201420871844U CN 205119173 U CN205119173 U CN 205119173U
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CN
China
Prior art keywords
heat insulation
insulation loop
cumulative heat
cumulative
groove
Prior art date
Application number
CN201420871844.9U
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Chinese (zh)
Inventor
李孝龙
Original Assignee
李孝龙
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Filing date
Publication date
Priority to CN201420525418X priority Critical
Priority to CN201420525418 priority
Priority to CN2014206871783 priority
Priority to CN201420687178 priority
Application filed by 李孝龙 filed Critical 李孝龙
Priority to CN201420871844.9U priority patent/CN205119173U/en
Application granted granted Critical
Publication of CN205119173U publication Critical patent/CN205119173U/en

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Abstract

The utility model relates to a cooking utensils gather can heat insulating ring, including heat shield and collar, its characterized in that: a plurality of heat shields through the bottom insert key or slot or bayonet socket or draw -in groove or jack or pivot or pivot groove insert around the collar insert key or slot or bayonet socket or draw -in groove or jack or pivot or pivot groove on, it can heat insulating ring to constitute around the combustor that the annular gathers, the collar be located on the annular step in the combustor base outside or the inclined plane of base outside circumference or convex face to go up inclusive AND combustor base integrative. The advantage be gather can heat insulating ring the bore size adjustable, be applicable to not the pan in footpath at the bottom of the equidimension, overcome around the pot body of handle footpath the problem of gathering high temperature damage that can the heat insulating ring gathering with the easy quilt of pot handle. Improve the air inlet condition, improve combustion efficiency, reduce carbon monoxide and discharge high -efficient environmental protection. Not changing the cooking utensils structure, installing additional on having cooking utensils, simple convenient and fast is convenient for promote on a large scale popularize, and is safe in utilization.

Description

A kind of kitchen range cumulative heat insulation loop
Technical field
The utility model relates to a kind of cumulative heat-proof device of gas kitchen ranges, is a kind of cumulative heat insulation loop applied on kitchen range specifically.
Background technology
The embedded gas range used in current family, burner is when burning, air is supplemented by around burner and top, easily formed close to vacuum state in the center of burner, cause burner centre position flame anoxic firepower little, imperfect combustion, thus cause efficiency of combustion low, produce flame high-temperature area be positioned at around pot body not in pot body central area, a large amount of heat energy is diffused in around pot body and burner, less than 60 percent, (standard GB/T 16410 " household gas utensils " specifies operating efficiency, the built-in type cooker thermal efficiency is greater than 50%), the serious waste energy, carbon monoxide emission exceeds standard, harm environment, health risk.
In order to reduce surrounding's heat-energy losses of burner and pot body, wind-proof energy-saving circle is often used to be arranged on around burner in family, but because most wind-proof energy-saving circle is all only simply be surrounded by burner, can not air intake, more cause fuel gas buring insufficient (when particularly using on built-in type cooker) on the contrary, more waste energy, carbon monoxide emission exceeds standard.The caliber size of energy saving ring current in addition can not regulate, and the high temperature heat produced for the pan burner that footpath, the end is less is gathered in around pot body, easily causes the damage of pot body and panhandle, also allows people operate.
Summary of the invention
The purpose of this utility model is to provide a kind of cumulative heat insulation loop applied around cooking range furnace end.
The utility model is realized by following technical scheme.
A kind of kitchen range cumulative heat insulation loop, include cumulative heat insulation loop and burner and burner, it is characterized in that: described cumulative heat insulation loop (3) is arranged on burner step (2) by the card article on its bottom centre hole or centre bore or boss or Spring Card (28), or be arranged on burner base (11) exterior annular step, or on the inclined-plane being arranged on burner base (11) outer circumference or arc-shaped surface; Or described cumulative heat insulation loop (3) is arranged on by the card article on its centre bore or centre bore or boss or Spring Card on the sleeve pipe step (25) of the outer ring fire sleeve pipe (24) being positioned at outer ring of burner fire gas outlet (4) top;
Or installing ring (14), by installing ring Spring Card or below Spring Card, is installed in around burner base bottom described cumulative heat insulation loop, or installing ring is arranged on around burner base by a head screw (26).
A kind of kitchen range cumulative heat insulation loop, include cumulative heat insulation loop, grate, it is characterized in that: described grate support is established groove (30), grate support (29) inserts in the under shed bracket groove (28) in cumulative heat insulation loop (3), and the flange above cumulative heat insulation loop under shed bracket groove or junction are arranged in the groove on grate support;
Or establish step above described grate support, grate support (29) inserts in the under shed bracket groove (28) in cumulative heat insulation loop (3), and the flange above cumulative heat insulation loop under shed bracket groove or junction are arranged on grate support upper step.
A kind of kitchen range cumulative heat insulation loop, includes cumulative heat insulation loop, grate, it is characterized in that: the inner side of described grate support vertical part or outside or the left and right sides are provided with boss (33), and cumulative heat insulation loop is arranged on boss by bracket groove.
A kind of kitchen range cumulative heat insulation loop, comprise heat shield and installing ring, it is characterized in that: on the step that described installing ring is positioned at burner base exterior annular or the inclined-plane of chassis outer side circumference or arc-shaped surface or with burner base one, installing ring (36) around establishes slotting key or slot or bayonet socket or draw-in groove or jack or rotating shaft or rotary axis groove, slotting key or slot or bayonet socket or draw-in groove or jack or rotating shaft or rotary axis groove are established in described heat shield (35) bottom, multiple heat shield (35) inserts respectively by the slotting key of bottom or slot or bayonet socket or draw-in groove or jack or rotating shaft or rotary axis groove and is arranged on installing ring (36) slotting key around or slot or bayonet socket or draw-in groove or jack or rotating shaft or rotary axis groove, looping cumulative heat insulation loop around burner,
Or the location folding bar (41) that described heat shield (35) is inserted below key by bottom is inserted in the slot be arranged on around installing ring (36).
A kind of kitchen range cumulative heat insulation loop, includes cumulative heat insulation loop, grate, it is characterized in that: described cumulative heat insulation loop is independent loop configuration, or the loop configuration be made up of two panels and above multiple monolithic heat shields; Above or below described independent loop configuration cumulative heat insulation loop or rear or bracket groove are provided with clip, by the raised or sunken part on clip or clip, are installed in depression on grate support or grate support or projection;
Or the described loop configuration cumulative heat insulation loop be made up of two panels and above multiple monolithic heat shields, above or below its monolithic heat shield or rear or side or bracket groove are provided with clip, by the raised or sunken part on clip or clip, be installed in depression on grate support or grate support or projection;
Described monolithic heat shield is laterally or longitudinally circular arc, or is horizontal and vertically all circular arc.
Described cumulative heat insulation loop circumference side or base circle spread configuration multiple bar shaped fresh air inlet (20) or oblique bar shaped fresh air inlet (21);
Or described cumulative heat insulation loop circumference side or base circle are disposed with multiple open slot (22) or inclined open groove (23), the opening of the open slot or inclined open groove that are wherein positioned at circumference side is positioned at the upper edge of cumulative heat insulation loop, and the opening being positioned at open slot bottom cumulative heat insulation loop or inclined open groove is positioned at the edge of cumulative heat insulation loop centre bore
Or described cumulative heat insulation loop circumference side or base circle spread configuration or arranged askew arrange multiple circular fresh air inlet, or described cumulative heat insulation loop circumference side or the multiple arc fresh air inlet of base circle spread configuration.
Fresh air inlet bottom described cumulative heat insulation loop or on the bottom installing ring of heat shield or the direction, air port of groove are towards the circumferencial direction of base plane, or towards the inner side of base plane circumferencial direction or outside, or towards the center of base plane, or towards the outside of base plane; Fresh air inlet on described cumulative heat insulation loop side or heat shield or the direction, air port of groove towards the circumferencial direction of cumulative heat insulation loop side, or above or below cumulative heat insulation loop side surface circumference direction.
The side air inlet groove of described cumulative heat insulation loop or the side of heat shield are with flanging forward or backward, and heat energy when reducing air intake is run off by air intake duct radiation.
Described cumulative heat insulation loop or heat shield can be the individual layers manufactured by metal material or fireproof high-temperature resistant heat-barrier material, also can be bilayer or sandwich construction or hollow structure; Or can be bonding or embed the inner ring be made up of fireproof high-temperature resistant heat-barrier material or far-infrared ceramic material be made up of multiple monolithic on described cumulative heat insulation loop or heat shield, or can be bonding or embed fireproof high-temperature resistant heat-barrier material or far-infrared ceramic material on described heat shield; Or described cumulative heat insulation loop or heat shield are coated with fireproof high-temperature resistant heat-barrier material or far-infrared material or ceramic material.
Described installing ring all keeps the superposition of left and right successively of equidirectional order between each heat shield side and adjacent heat shield side.
Advantage is: the caliber size of cumulative heat insulation loop is adjustable, is applicable to the pan in different large handle footpath, overcomes around pot body that the less pan in footpath, the end easily causes by the high temperature that cumulative heat insulation loop is assembled and the damage of panhandle, allows people easily operate.By the bottom of cumulative heat insulation loop and side air inlet, fully oxygen supply, the air-inlet condition of burner can be improved, improves efficiency of combustion, reduce carbon monoxide emission, high-efficiency environment friendly by burner in addition.Have on kitchen range in family and install additional, do not need to change current kitchen range structure, be convenient to large-scale promotion and popularize, use safety.
Cumulative heat insulation loop adopts the high temperature resistant heat insulation material and far-infrared composite material that the coefficient of heat conduction is low simultaneously, greatly reduce the heat energy of burner generation to the heat radiation around kitchen range, reduce the environment temperature around stove table-board and kitchen range, the thermal efficiency of kitchen range is significantly improved, and energy-saving effect is more remarkable.
Accompanying drawing explanation
Fig. 1 and Fig. 1-1 is arranged on the structural representation on burner step for cumulative heat insulation loop.
Fig. 2 and Fig. 2-1 is for cumulative heat insulation loop is by the structural representation above lower endless foundation ring installation burner.
Fig. 3 is the schematic perspective view of cumulative heat insulation loop.
Fig. 3-1 is cumulative heat insulation loop bottom air inlet hole and the schematic top plan view communicated around centre bore.
Fig. 4 is the structural representation that cumulative heat insulation loop is arranged on burner peripheral circular step.
Fig. 4-1 is that in Fig. 4, burner base side is the schematic diagram on inclined-plane.
Fig. 4-2 is that in Fig. 4, burner base side is the schematic diagram of arc-shaped surface.
Fig. 4-3 is the schematic top plan view of Fig. 4.
Fig. 4-4 is that in Fig. 4-3, cumulative heat insulation loop is arranged on the schematic diagram on burner base step by the card article on centre bore.
Fig. 5 is that cumulative heat insulation loop is arranged on the structural representation around burner by installing ring.
Fig. 5-1 is the upward view of installing ring in Fig. 5.
Fig. 5-2 is the top view of installing ring in Fig. 5.
Fig. 6 be in installing ring in establish the schematic diagram of Spring Card.
Fig. 6-1 is the top view of installing ring in Fig. 6.
Fig. 6-2 is the upward view of installing ring in Fig. 6.
Fig. 7 is the schematic diagram arranging Spring Card below installing ring.
Fig. 7-1 is the top view of installing ring in Fig. 7.
Fig. 7-2 is the upward view of installing ring in Fig. 7.
Fig. 8 arranges the schematic diagram increasing sleeve pipe above outer ring of burner fire gas outlet.
Fig. 8-1 arranges the schematic diagram increasing sleeve pipe above burner central flame gas outlet.
Fig. 8-2 increases sleeve pipe to be arranged on schematic diagram above burner in Fig. 8 and Fig. 8-1.
Fig. 8-3 is that in Fig. 8-2, burner is arranged on the schematic diagram increased on sleeve pipe.
Fig. 8-4 increases schematic diagram on sleeve pipe lower endless step for cumulative heat insulation loop in Fig. 8-3 is arranged on outer ring fire.
Fig. 9 is the schematic diagram that cumulative heat insulation loop circumference side arranges multiple bar shaped fresh air inlet.
Fig. 9-1 is the schematic diagram that in Fig. 9, oblique fresh air inlet is arranged in cumulative heat insulation loop circumference side.
Fig. 9-2 is the schematic diagram that in Fig. 9, cumulative heat insulation loop circumference side is provided with multiple open slot.
Fig. 9-3 is the schematic diagram that in Fig. 9-2, inclined open groove is arranged in cumulative heat insulation loop circumference side.
Fig. 9-4 is the schematic diagram that in Fig. 9, cumulative heat insulation loop circumference side arranges multiple circular fresh air inlet.
Fig. 9-5 be in Fig. 9-4 circular fresh air inlet at the schematic diagram of the oblique setting in cumulative heat insulation loop circumference side.
Figure 10 is the application schematic diagram of bottom side to fresh air inlet.
Figure 10-1 is the top view of Figure 10.
Figure 10-2 is the application schematic diagram of side to fresh air inlet.
Figure 10-3 is the top view of Figure 10-2.
Figure 11 is cumulative heat insulation loop circumference side air intake duct with the schematic diagram of flanging backward.
Figure 11-1 is the schematic perspective view of Figure 11.
Figure 12 is the schematic diagram arranging downward open stand groove in cumulative heat insulation loop.
Figure 12-1 is that in Figure 12, cumulative heat insulation loop is arranged on the schematic diagram on grate support.
Figure 12-2 is the schematic diagram that in Figure 12-1, grate support is provided with step.
Figure 12-3 arranges multiple schematic diagram under shed air intake duct in Figure 12 cumulative heat insulation loop.
Figure 13 is the schematic diagram that the grate bracket groove of cumulative heat insulation loop is provided with clip.
Figure 13-1 is that in Figure 13, cumulative heat insulation loop is installed in the schematic diagram on grate support by clip.
Figure 13-2 is the schematic diagram in Figure 13, cumulative heat insulation loop not being established by grate bracket groove clip.
Figure 13-3 is cumulative heat insulation loop is arranged on bracket bosses schematic diagram by its bracket groove.
Figure 13-4 installs the schematic diagram be placed on below support on step for cumulative heat insulation loop.
Figure 14 is the schematic diagram of heat shield.
Figure 14-1 is the installing ring of heat shield in Figure 14.
Figure 14-2 is the schematic diagram that in Figure 14, heat shield forms heat insulation loop in installing ring.
Figure 14-3 is heat shield is arranged in burner base schematic diagram by installing ring.
Figure 14-4 inserts the schematic diagram be arranged on base jack for heat shield.
Figure 15 is the schematic diagram establishing rotating shaft below heat shield.
Figure 15-1 is schematic diagram installing ring being arranged axle card.
Figure 15-2 is that in Figure 15, below heat shield, rotating shaft is arranged on the schematic diagram on installing ring in axle card.
Figure 15-3 is the schematic diagram that in Figure 15, heat shield side arranges flanging.
Figure 15-4 is the schematic diagram be arranged on the heat shield of flanging on installing ring.
Figure 16 is schematic diagram heat shield being arranged thermal insulation ceramics sheet.
Figure 16-1 is schematic diagram heat shield being arranged downward air inlet.
Figure 16-2 is schematic diagram heat shield being arranged side air inlet mouth.
Figure 16-3 is the schematic diagram being provided with clip in the grate bracket groove on heat shield
Figure 16-4 is that in Figure 16-3, heat shield is installed in the schematic diagram on grate support by clip.
Below in conjunction with accompanying drawing, the utility model is further described.
Detailed description of the invention
Embodiment 1
See Fig. 1 and Fig. 1-1, shown in figure, cumulative heat insulation loop 3 is arranged on the burner step 2 above burner 1 by its underpart centre bore 10 (see Fig. 3), cumulative heat insulation loop 3 lower central hole 10 is positioned at the outside of outer ring of burner gas outlet 4 simultaneously, burner 6 is arranged on outer ring of burner gas outlet 4 and gas outlet, center 5, because cumulative heat insulation loop 3 is arranged on distance burner step 2 added between cumulative heat insulation loop and water pond 8 or stove table-board, add by the intake in cumulative heat insulation loop bottom air inlet hole 7, thus the oxygen supply that above guarantee burner, burner combustion needs, while cumulative is heat insulation, ensure the Thorough combustion of combustion gas, improve efficiency of combustion, reduce the discharge of pernicious gas, energy-conserving and environment-protective.
In application, cumulative heat insulation loop 3 also can be directly installed on the surrounding (see Fig. 2 and Fig. 2-1) of outer ring of burner gas outlet by the annular foundation ring 9 below it, and increase the spacing with below water pond 8 or stove table-board bottom cumulative heat insulation loop by annular foundation ring, thus by increasing the oxygen supply of the fresh air inlet 7 bottom cumulative heat insulation loop for burner above burner, ensure the Thorough combustion of combustion gas, improve efficiency of combustion.In application, cumulative heat insulation loop 3 also can replace annular foundation ring to be directly installed on around outer ring of burner gas outlet by the leg arranged below it.
In application, cumulative heat insulation loop bottom air inlet hole 7 can with communicate (see Fig. 3-1) around centre bore 10.
In application, cumulative heat insulation loop can be the individual layer manufactured by metal material or fireproof high-temperature resistant heat-barrier material, also can be bilayer or sandwich construction or hollow structure.
In application, the inner ring that the fireproof high-temperature resistant heat-barrier material that is made up of multi-disc is made in cumulative heat insulation loop, can be embedded, or in cumulative heat insulation loop, be coated with fireproof high-temperature resistant heat-barrier material or far-infrared material or ceramic material.
In application, cumulative heat insulation loop 3 and inner ring thereof are provided with simultaneously the punched out of burner ignition electrode, and the punched out of burner protection device inductive probe.
In application, bottom air inlet hole and side air inlet hole can be established in the bottom in cumulative heat insulation loop 3 and side simultaneously.
In application, cumulative heat insulation loop is positioned at grate, and the groove passed for grate overhead support can be offered in the top of cumulative heat insulation loop or outside, or cumulative heat insulation loop is positioned at part below grate support lower than grate support.
Embodiment 2
See Fig. 4, shown in figure, above burner 1, burner base 11 arranged outside has ring-shaped step, cumulative heat insulation loop 3 is arranged on ring-shaped step by its centre bore, increases the spacing of cumulative heat insulation loop and below water pond or stove table-board, thus by the bottom air inlet hole of increase cumulative heat insulation loop to the oxygen supply of furnace head burner, while cumulative is heat insulation, ensure the Thorough combustion of combustion gas, improve efficiency of combustion, and can dismounting very easily clean.In application, burner base 11 outer circumference can be inclined-plane (shown in Fig. 4-1) or arc-shaped surface (shown in Fig. 4-2), on the inclined-plane that cumulative heat insulation loop is arranged on chassis outer side by its centre bore or arc-shaped surface.Fig. 4-3 is arranged on the top view in burner base for cumulative heat insulation loop.
In application, also can on cumulative heat insulation loop 3 centre bore or near card article 12 (shown in Fig. 4-4) is set, cumulative heat insulation loop is arranged on the ring-shaped step of burner base 11 by card article 12, or be arranged on by card article 12 on the inclined-plane of burner base 11 outer circumference, or be arranged on burner base 11 outer arc shape face by card article 12.
In application, card article can change its angle in cumulative heat insulation loop and shape by manual, and with the base of burner for gas stove existing in the family that fit diameter is not of uniform size, in application, card article also can be the good boss of immutable form strength.In application, burner can supplement fresh air by card article or the interval formed between boss and base, while cumulative heat insulation loop cumulative is heat insulation, ensures the efficiency of combustion of burner.
In application, cumulative heat insulation loop is positioned at grate, and the groove passed for above grate or side can be offered in the top of cumulative heat insulation loop or outside, or cumulative heat insulation loop is positioned at part below grate support lower than grate support.
Embodiment 3
Shown in Fig. 5, figure, installing ring 14 is fixed on around burner 6 base by a head screw 13, cumulative heat insulation loop 3 is arranged on above installing ring, thus the heat energy that burner produces is gathered in top around burner, prevent heat energy to the diffusion of burner surrounding, reduce heat-energy losses.
In application, installing ring can be established step or outside flange.
In application, installing ring Spring Card 15 (see Fig. 6) can be used in installing ring to replace a head screw 13, by installing ring Spring Card, installing ring is installed in around burner base, in application, installing ring 14 is also installed in (see Fig. 7) around burner base by below Spring Card 16.
In application, installing ring also can directly install the ring-shaped step be placed on around burner base, or on the inclined-plane of chassis outer side or arc-shaped surface.
In application, the below being arranged on cumulative heat insulation loop that installing ring also can be integrated.
Embodiment 4
See Fig. 8, shown in figure, the outer ring fire sleeve pipe 17 increased is provided with above the outer ring fire gas outlet 4 of burner 1, the central flame sleeve pipe 19 (see Fig. 8-1) increased is set above burner central flame gas outlet 5 simultaneously, on outer ring fire sleeve pipe 17 after burner 6 is arranged on and increases and central flame sleeve pipe 19 (see Fig. 8-2 and Fig. 8-3), cumulative heat insulation 3 is arranged on the step 18 on outer ring fire sleeve pipe 17 (see Fig. 8-4) by its centre bore, increase the spacing of cumulative heat insulation loop and below water pond or stove table-board, increase the oxygen supply of bottom air inlet hole for furnace head burner of cumulative heat insulation loop, while cumulative is heat insulation, ensure the Thorough combustion of combustion gas.
In application, outer ring fire sleeve pipe can directly integration be arranged on the bottom centre hole of cumulative heat insulation loop.
In application, outer ring fire sleeve pipe 17 also can not establish step, establish annular foundation ring below cumulative heat insulation loop centre bore simultaneously, cumulative heat insulation loop is directly installed on outer ring fire its vicinity by its annular foundation ring 9, increase the spacing with below water pond or stove table-board bottom cumulative heat insulation loop by annular foundation ring, increase the oxygen supply to furnace head burner, while cumulative is heat insulation by the bottom air inlet hole of cumulative heat insulation loop, ensure the Thorough combustion of combustion gas, improve efficiency of combustion.
Embodiment 5
In application, cumulative heat insulation loop 3 circumference side can arrange multiple bar shaped fresh air inlet 20 (see Fig. 9), also can arrange oblique bar shaped fresh air inlet 21 (see Fig. 9-1) on cumulative heat insulation loop circumference side in application.
In application, cumulative heat insulation loop 3 circumference side can arrange multiple open slot 22, the upper opening of open slot is positioned at the upper edge (see Fig. 9-2) of cumulative heat insulation loop, also can arrange inclined open groove 23 (see Fig. 9-3) in cumulative heat insulation loop circumference side in application, the upper opening of inclined open groove 23 is positioned at the upper edge of cumulative heat insulation loop simultaneously.
In application, cumulative heat insulation loop circumference side vertical array can arrange multiple circular fresh air inlet (see Fig. 9-4), and multiple circular fresh air inlet also can arrange (see Fig. 9-5) in cumulative heat insulation loop circumference side arranged askew.
In application, cumulative heat insulation loop is positioned at grate, and the groove passed for above grate or side can be offered in the top of cumulative heat insulation loop or outside.
Embodiment 6
See Figure 10 and Figure 10-1, bottom side is to the direction, air port of fresh air inlet 24 towards the circumferencial direction of cumulative heat insulation loop base plane, avoid heat energy outside width jet from fresh air inlet to lose, thus while air intake, to greatest extent the heat energy that burner produces is gathered in cumulative heat insulation loop.
In application, bottom side is to the direction, air port of fresh air inlet.Also can, towards the inner side of base plane circumferencial direction or the outside towards base plane circumferencial direction, also can be the center towards base plane or the outside towards base plane.
In application, the direction of side air inlet hole 26 or air intake duct towards the circumferencial direction of cumulative heat insulation loop side, shown in Figure 10-2, figure, side to the direction of fresh air inlet or air intake duct towards the circumferencial direction of cumulative heat insulation loop side, avoid heat energy from the side in fresh air inlet outwards width jet lose.In application, side also can be above or below the circumferencial direction of cumulative heat insulation loop side to the direction of fresh air inlet 26.
In application, the side of cumulative heat insulation loop arranges grate bracket groove 25 simultaneously.
In application, see Figure 11, the side air inlet groove of cumulative heat insulation loop, with flanging 27 backward, reduces and is run off by air intake duct radiation at the heat energy of air intake; In application, side air inlet groove also can with flanging forward.
Embodiment 7
In application, can offer downward under shed bracket groove 28 (see Figure 12) in cumulative heat insulation loop, cumulative heat insulation loop is directly installed by the flange above under shed bracket groove 28 or junction and is placed on grate support.
In application, the flange on cumulative heat insulation loop under shed bracket groove 28 top or junction can be positioned on the groove 30 above support 29 or on grate support upper step, and make cumulative heat insulation loop be positioned at burner periphery, cumulative is heat insulation.
In application, downward open slot 31 air intake (see Figure 12-3) in cumulative heat insulation loop, can be provided with simultaneously.
Embodiment 8
See Figure 13 and Figure 13-1, in application, the bracket groove 25 in cumulative heat insulation loop can arrange clip 32, cumulative heat insulation loop be installed on grate support 29 by clip, make cumulative heat insulation loop be positioned at burner periphery, cumulative is heat insulation.In application, clip 32 can by the raised or sunken part on it, is installed on depression on grate support 29 or bossing.
See Figure 13-2 and Figure 13-3, in application, the inner side of grate support vertical part or outside or the left and right sides can be provided with boss, and cumulative heat insulation loop is arranged on boss by bracket groove.The cumulative heat insulation loop that the left and right sides of grate support 29 vertical component is provided with in boss 33, Figure 13-2 is arranged on bracket bosses 33 by bracket groove 25, and make cumulative heat insulation loop be positioned at burner periphery, cumulative is heat insulation.
See Figure 13-2 and Figure 13-4, in application, cumulative heat insulation loop in Figure 13-2 directly can be installed and is placed on below support on step 34, and its overhead support groove is inserted on grate support, and simultaneously cumulative heat insulation loop also can have the annular of opening for Intermediate Gray for the loop configuration of autonomous closure.
Embodiment 9
See Figure 14, shown in figure, slotting key is provided with below heat shield 35, heat shield inserts in the slot 37 be arranged on around on installing ring 36 by inserting key, multiple heat shield forms heat insulation loop (see Figure 14-1 and Figure 14-2) on installing ring, is arranged on step around burner base 11 or inclined-plane or arc-shaped surface (see Figure 14-3) by the centre bore of installing ring.Because the top of the heat shield of slotting key mapping in slot can move forward and backward in slot, when the heat shield on installing ring moves in installing ring simultaneously, the opening diameter above the cumulative heat insulation loop be made up of installing ring reduces, and is applicable to the pot body that footpath, the end is less; When the heat shield on installing ring moves outside installing ring simultaneously, the opening diameter above the cumulative heat insulation loop be made up of installing ring strengthens, and is applicable to the pot body that footpath, the end is larger.Owing to installing ring all keeping the superposition of left and right successively of equidirectional order between each heat shield side and adjacent heat shield side, when one of them heat shield is to installing ring medial movement, due to synergistic effect, the heat shield of side will be driven to move, thus drive all heat shields to move to installation Ring current distribution, thus reduce the bore above heat insulation loop; When one of them heat shield moves to installing ring lateral direction, all heat shields also can be driven to move to the outside of installing ring simultaneously, thus increase the bore above heat insulation loop, meet the pot body in different large handle footpath, fast simple and convenient.
In application, insert key below heat shield and also can insert in the slot be arranged in burner base 11 (see Figure 14-4), multiple heat shield be arranged in base slot forms heat insulation loop around burner.
In application, be staggered front to back superposition between the heat shield that left and right is adjacent, air intake interval can be left in the superposition staggered place between adjacent heat shield.The heat insulation loop that multiple heat shield is formed not only forms a complete annular cumulative insulated space, leaves again multiple air intake interval, not only good heat-insulation effect simultaneously, air-inlet condition is good simultaneously, oxygen replenishment is sufficient, while poly-fire screen heat, ensures the Thorough combustion of combustion gas.
In application, heat shield inserts the lower of key can be provided with location folding bar 41 (see Figure 16) simultaneously, controls the moving range on heat shield top, heat shield top can be located when turning up.
In application, can with far-infrared ceramic heat shield 40 (see Figure 16) on heat shield.
In application, can with the downward fresh air inlet in air port or air intake duct 42 (see Figure 16-1) on heat shield 35; Or with air port fresh air inlet to the left or to the right or air intake duct 26 (see Figure 16-2); Or with air port fresh air inlet upwards or air intake duct.
In application, heat shield can be laterally or longitudinally circular arc, or is horizontal and vertically all circular arc.
In application, the groove 25 (see Figure 16-3) passed for grate support is offered on the top being positioned at the heat shield below grate support 29; Or the heat shield top be positioned at below grate support is lower than grate support.
Because the heat shield on installing ring can realize position adjustments, make the caliber size of the cumulative heat insulation loop be made up of multiple heat shield adjustable, be applicable to the pan in different large handle footpath, overcome around pot body that the less pan in footpath, the end easily causes by the high temperature that cumulative heat insulation loop is assembled and the damage of panhandle, and easily operate.
In application, also can establish slot below heat shield, installing ring be established slotting key, multiple heat shield is plugged on the slotting key around installing ring by the slot below it, and installing ring forms heat insulation loop,
In application, bottom installing ring, fresh air inlet or air intake duct can be provided with.
Embodiment 10
See Figure 15, shown in figure, rotating shaft 38 is provided with below heat shield 35, multiple heat shield is arranged in the axle card 39 around installing ring 36 by respective rotating shaft, installing ring forms heat insulation loop, is arranged on step around burner base or inclined-plane or arc-shaped surface by the centre bore of installing ring.
Connect owing to being linked by rotating shaft axle between heat shield and installing ring, heat shield top can be rotated before and after direction around the shaft on the axle card of installing ring, when all heat shields all move towards installation Ring current distribution, the diameter of the annular mouth formed above heat shield reduces, otherwise, the diameter of the annular mouth then formed above heat shield increases, the pot body being applicable to different large handle footpath is made it by regulating the diameter of annular mouth, the annular mouth of heat shield composition is then strengthened when pot body increases, when pot body reduces the diameter of the annular mouth reducing heat shield composition simultaneously, reduce the surrounding's heating to pot body, avoid the superheated to panhandle, allow heat energy more be collected at below pot body simultaneously, improve efficiency of combustion.
Owing to installing ring all keeping the superposition of left and right successively of equidirectional order between each heat shield side and adjacent heat shield side, when one of them heat shield is to installing ring medial movement, due to synergistic effect, the heat shield of side will be driven to move, thus drive all heat shields to move to installation Ring current distribution, thus reduce the bore above heat insulation loop; When one of them heat shield moves to installing ring lateral direction, all heat shields also can be driven to move to the outside of installing ring simultaneously, thus increase the bore above heat insulation loop, meet the pot body in different large handle footpath, fast simple and convenient.
In application, heat shield can be laterally or longitudinally circular arc, or is horizontal and vertically all circular arc.
In application, the groove passed for grate support is offered on the top being positioned at the heat shield below grate support; Or the heat shield top be positioned at below grate support is lower than grate support.
Embodiment 11
See Figure 16-3 and Figure 16-4, shown in figure, with clip 32 on the bracket groove 25 of heat shield 35, heat shield is installed on grate support 29 by clip 32, the heat shield that two panels or multiple monolithic heat shield are installed on grate support respectively by clip forms heat insulation loop around burner, be collected at below pot body by heat energy, cumulative is heat insulation.
In application, heat shield can be laterally or longitudinally circular arc, or is horizontal and vertically all circular arc.
In application, two panels or multiple monolithic heat shield can be installed in respectively by the clip that below is arranged separately bottom grate on square ring or annular ring.In application, monolithic heat shield also can respectively by the raised or sunken part on clip, is installed in depression on grate support or projection, forms cumulative heat insulation loop in burner periphery.
In application, the annular cumulative heat insulation loop of absolute construction also can by the raised or sunken part on clip or clip, is installed in depression on grate support or grate support or projection.In application, the cumulative heat insulation loop of absolute construction also can be installed in by the clip arranged below it bottom grate on square ring or annular ring, makes cumulative heat insulation loop be positioned at burner periphery.
In application, clip can be positioned at above or below independent loop configuration cumulative heat insulation loop or on rear or bracket groove.
In application, clip also can be positioned on above or below monolithic heat shield or rear or side or bracket groove.
In application, monolithic heat shield is laterally or longitudinally circular arc, or is horizontal and vertically all circular arc.

Claims (10)

1. a kitchen range cumulative heat insulation loop, include cumulative heat insulation loop and burner and burner, it is characterized in that: described cumulative heat insulation loop (3) is arranged on burner step (2) by the card article on its bottom centre hole or centre bore or boss or Spring Card (28), or be arranged on burner base (11) exterior annular step, or on the inclined-plane being arranged on burner base (11) outer circumference or arc-shaped surface; Or described cumulative heat insulation loop (3) is arranged on by the card article on its centre bore or centre bore or boss or Spring Card on the sleeve pipe step (25) of the outer ring fire sleeve pipe (24) being positioned at outer ring of burner fire gas outlet (4) top;
Or installing ring (14), by installing ring Spring Card or below Spring Card, is installed in around burner base bottom described cumulative heat insulation loop, or installing ring is arranged on around burner base by a head screw (26).
2. a kitchen range cumulative heat insulation loop, include cumulative heat insulation loop, grate, it is characterized in that: described grate support is established groove (30), grate support (29) inserts in the under shed bracket groove (28) in cumulative heat insulation loop (3), and the flange above cumulative heat insulation loop under shed bracket groove or junction are arranged in the groove on grate support;
Or establish step above described grate support, grate support (29) inserts in the under shed bracket groove (28) in cumulative heat insulation loop (3), and the flange above cumulative heat insulation loop under shed bracket groove or junction are arranged on grate support upper step.
3. a kitchen range cumulative heat insulation loop, includes cumulative heat insulation loop, grate, it is characterized in that: the inner side of described grate support vertical part or outside or the left and right sides are provided with boss (33), and cumulative heat insulation loop is arranged on boss by bracket groove.
4. a kitchen range cumulative heat insulation loop, comprise heat shield and installing ring, it is characterized in that: on the step that described installing ring is positioned at burner base exterior annular or the inclined-plane of chassis outer side circumference or arc-shaped surface or with burner base one, installing ring (36) around establishes slotting key or slot or bayonet socket or draw-in groove or jack or rotating shaft or rotary axis groove, slotting key or slot or bayonet socket or draw-in groove or jack or rotating shaft or rotary axis groove are established in described heat shield (35) bottom, multiple heat shield (35) inserts respectively by the slotting key of bottom or slot or bayonet socket or draw-in groove or jack or rotating shaft or rotary axis groove and is arranged on installing ring (36) slotting key around or slot or bayonet socket or draw-in groove or jack or rotating shaft or rotary axis groove, looping cumulative heat insulation loop around burner,
Or the location folding bar (41) that described heat shield (35) is inserted below key by bottom is inserted in the slot be arranged on around installing ring (36).
5. a kitchen range cumulative heat insulation loop, includes cumulative heat insulation loop, grate, it is characterized in that: described cumulative heat insulation loop is independent loop configuration, or the loop configuration be made up of two panels and above multiple monolithic heat shields; Above or below described independent loop configuration cumulative heat insulation loop or rear or bracket groove are provided with clip, by the raised or sunken part on clip or clip, are installed in depression on grate support or grate support or projection;
Or the described loop configuration cumulative heat insulation loop be made up of two panels and above multiple monolithic heat shields, above or below its monolithic heat shield or rear or side or bracket groove are provided with clip, by the raised or sunken part on clip or clip, be installed in depression on grate support or grate support or projection;
Described monolithic heat shield is laterally or longitudinally circular arc, or is horizontal and vertically all circular arc.
6. a kind of kitchen range cumulative heat insulation loop according to any one of claim 1 or 2 or 3 or 4 or 5, is characterized in that: described cumulative heat insulation loop circumference side or base circle spread configuration multiple bar shaped fresh air inlet (20) or oblique bar shaped fresh air inlet (21);
Or described cumulative heat insulation loop circumference side or base circle are disposed with multiple open slot (22) or inclined open groove (23), the opening of the open slot or inclined open groove that are wherein positioned at circumference side is positioned at the upper edge of cumulative heat insulation loop, and the opening being positioned at open slot bottom cumulative heat insulation loop or inclined open groove is positioned at the edge of cumulative heat insulation loop centre bore;
Or described cumulative heat insulation loop circumference side or base circle spread configuration or arranged askew arrange multiple circular fresh air inlet, or described cumulative heat insulation loop circumference side or the multiple arc fresh air inlet of base circle spread configuration.
7. a kind of kitchen range cumulative heat insulation loop according to any one of claim 1 or 2 or 3 or 4 or 5, it is characterized in that: the fresh air inlet bottom described cumulative heat insulation loop or on the bottom installing ring of heat shield or the direction, air port of groove are towards the circumferencial direction of base plane, or towards the inner side of base plane circumferencial direction or outside, or towards the center of base plane, or towards the outside of base plane; Fresh air inlet on described cumulative heat insulation loop side or heat shield or the direction, air port of groove towards the circumferencial direction of cumulative heat insulation loop side, or above or below cumulative heat insulation loop side surface circumference direction.
8. a kind of kitchen range cumulative heat insulation loop according to any one of claim 1 or 2 or 3 or 4 or 5, it is characterized in that: the side air inlet groove of described cumulative heat insulation loop or the side of heat shield are with flanging forward or backward, and heat energy when reducing air intake is run off by air intake duct radiation.
9. a kind of kitchen range cumulative heat insulation loop according to any one of claim 1 or 2 or 3 or 4 or 5, it is characterized in that: described cumulative heat insulation loop or heat shield can be the individual layers manufactured by metal material or fireproof high-temperature resistant heat-barrier material, also can be bilayer or sandwich construction or hollow structure; Or can be bonding or embed the inner ring be made up of fireproof high-temperature resistant heat-barrier material or far-infrared ceramic material be made up of multiple monolithic on described cumulative heat insulation loop or heat shield, or can be bonding or embed fireproof high-temperature resistant heat-barrier material or far-infrared ceramic material on described heat shield; Or described cumulative heat insulation loop or heat shield are coated with fireproof high-temperature resistant heat-barrier material or far-infrared material or ceramic material.
10. according to a kind of kitchen range cumulative heat insulation loop described in claim 4, it is characterized in that: the superposition of left and right successively described installing ring all keeping equidirectional order between each heat shield side and adjacent heat shield side.
CN201420871844.9U 2014-09-04 2014-12-26 Cooking utensils gather can heat insulating ring CN205119173U (en)

Priority Applications (5)

Application Number Priority Date Filing Date Title
CN201420525418X 2014-09-04
CN201420525418 2014-09-04
CN2014206871783 2014-11-06
CN201420687178 2014-11-06
CN201420871844.9U CN205119173U (en) 2014-09-04 2014-12-26 Cooking utensils gather can heat insulating ring

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201420871844.9U CN205119173U (en) 2014-09-04 2014-12-26 Cooking utensils gather can heat insulating ring

Publications (1)

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CN205119173U true CN205119173U (en) 2016-03-30

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CN201420871844.9U CN205119173U (en) 2014-09-04 2014-12-26 Cooking utensils gather can heat insulating ring

Family Applications Before (1)

Application Number Title Priority Date Filing Date
CN201410856805.6A CN105157078A (en) 2014-09-04 2014-12-26 Use and installation method of kitchen range energy gathering and heat insulation ring

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109114599A (en) * 2018-09-17 2019-01-01 刘洪瑞 A kind of cumulative component of gas-cooker
CN110779066A (en) * 2019-11-25 2020-02-11 徐州橙空间厨具有限公司 Hearth heat insulation frame

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109114599A (en) * 2018-09-17 2019-01-01 刘洪瑞 A kind of cumulative component of gas-cooker
CN110779066A (en) * 2019-11-25 2020-02-11 徐州橙空间厨具有限公司 Hearth heat insulation frame

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