BR102014017261A2 - Solid fuel cooker device - Google Patents

Abstract

Summary "solid fuel cooker device" for treating the present invention of a solid fuel cooker device including an outer cooker body having a receiving space, an air inlet, and an annular passageway located around the top of the outer body from the stove and communicating with the receiving space through exhaust holes; an air inlet unit connected to the air inlet; and an inner hob body suspended in the receiving space and having communicable air holes with a spacing between the inner and outer hob bodies. External air is led by the air inlet unit into the outer body of the cooker through the air inlet to flow through the clearance space, air holes, air exhaust holes and annular passage, enabling efficient combustion of solid fuels in the internal body of the stove. The gases produced by combustion are again burned in the annular passageway and therefore contain less hazardous substances and produce less smoke when discharged, making the stove device environmentally friendly. 1/1

Description

Technical Field The present invention relates to a cooker device and, more specifically, to a solid fuel cooker device for burning solid fuels such as coal or wood, to heat a fuel container. cooking over it, such as a kettle, frying pan or iron plate, to boil water, cook or grill food.

Background of the Invention Some conventional cooking stoves, such as barbecue grills, use solid fuels such as coal and wood as heating sources. Since burning charcoal and wood produces relatively weak flames, cooking stoves that use solid fuels of this type are generally used for grilling food and are not suitable for other applications such as boiling water, frying food and so on. In addition, most conventional solid fuel stoves are designed solely as a stove body for solid fuel storage. Solid fuels are stacked in the stove body and can hardly get enough oxygen to burn and produce large flames. That is, conventional solid fuel stoves have relatively low combustion efficiency and tend to produce a large amount of black smoke, which usually contains hazardous gas residues and causes air pollution. For this reason, most domestic kitchens use gas cookers for cooking. However, gas stoves are more expensive than solid fuel stoves, and gaseous fuels are not readily available in uninhabited or rural areas. For this reason, gas stoves are not suitable for outdoor use and rural areas.

Description of the Invention To overcome the above and other disadvantages, the solid fuel cooker device disclosed by the present invention comprises an outer cooker body, an air inlet unit, and an inner cooker body. The outer body of the stove comprises an annular passageway, a first peripheral wall and a bottom. The annular passageway is located externally around an open upper end of the first peripheral wall and has a gas outlet therein. The first peripheral wall together with the bottom defines a receiving space between them. The first peripheral wall has an air inlet, a plurality of air exhaust holes and a radially inwardly extending support flange provided therein. The air inlet is located near the bottom, the support flange is located at a height lower than the air exhaust holes, and the air exhaust holes communicate the receiving space with the annular passage. The air inlet unit is connected at one end to the air inlet. The inner body of the stove comprises a second peripheral wall and a fuel base. The second peripheral wall has a plurality of air holes located therein and comprises a locating flange. The locating flange is radially extended outwardly and located around an open upper end of the second peripheral wall to rest on the support flange of the outer cooker body such that the inner cooker body is suspended in space. receiving the outer body of the stove with a spacing between the inner body of the stove and the outer body of the stove. External air is pulled and directed by the air inlet unit to flow through the air inlet into the distancing space, and then flows through the air holes of the cooker inner body, the body air exhaust holes cooker, and the annular passage. According to the solid fuel cooker device of the present invention, the air holes located in the second peripheral wall of the inner body of the stove are circumferentially spaced in the second peripheral wall and arranged in two rows. The air holes in one of the two rows are located closer to the fuel base, and the air holes in the other row are located closer to the locating flange. According to the solid fuel cooker device of the present invention, the air inlet unit comprises a fan, an air inlet tube, and a cooker damper. The air inlet pipe is mounted on the first peripheral wall of the cooker outer body to communicate with the air inlet. The fan is mounted on the air inlet pipe. The cooker baffle is equipped with a stop to rest against the top surface of the air inlet pipe, such that the cooker baffle is located between the fan and the air inlet to cover a portion of the air inlet. air, and the stove damper is movable vertically relative to the air inlet to regulate the amount of external air that is drawn by the fan and admitted into the outer body of the stove through the air inlet. [007] According to one embodiment of the solid fuel cooker device, the outer body of the cooker is also equipped on the first peripheral wall with a fuel supply opening and a fuel supply port. The fuel filler port is pivotally and pivotally connected to the first peripheral wall via a pivot pin to open and close the fuel filler opening. And the inner body of the stove is fitted in the second peripheral wall with an opening corresponding to the fuel supply opening. In the embodiment described above, the fuel filler opening provided in the first peripheral wall of the cooker outer body is located higher than the air inlet, the fuel filler port is fitted. externally with a protrusion, and the cooker damper is equipped with a vertical row of retaining holes. With these arrangements, the stove damper can be moved vertically by engaging one of the selected retaining holes with the fuel filler door protrusion for the purpose of regulating the amount of external air that is drawn in by the fan and admitted into the fan. inside the outer body of the stove through the air inlet. In the embodiment described above, the fueling port is equipped with a handle, which is connected at one end to the pivot pin and used to move the fueling port to open or close the fueling port. of fuels; and, the first peripheral wall is located adjacent to the fuel filler opening with a lock normally used to hold the fuel filler door in a closed position. [010] In accordance with the present invention, the stove muffler of the solid fuel stove device is equipped with a lever. According to another embodiment of the solid fuel cooker device, the outer body of the cooker has a protrusion provided on the first peripheral wall, and the cooker baffle has a vertical row of retaining holes provided therein. And, the stove damper can be moved vertically by engaging one of the selected retaining holes with the protrusion of the first peripheral wall for the purpose of regulating the amount of external air that is drawn by the fan and admitted into the outer body. from the stove through the air inlet. [012] In the embodiment described above, the outer body of the stove also has in the first peripheral wall a fuel filler opening and a fuel filler door. The fuel filler port is pivotally and pivotally connected to the first peripheral wall via a pivot pin to open and close the fuel filler opening. And, the inner body of the stove is equipped in the second peripheral wall with an opening corresponding to the fuel supply opening. [013] In the embodiment described above, the fueling port is equipped with a handle, which is connected at one end to the pivot pin and used to move the fueling port to open or close the fueling port. of fuels; and, the first peripheral wall is located adjacent to the fuel filler opening with a lock normally used to hold the fuel filler door in a closed position. Being characterized by the air exhaust holes and the air holes located in the outer and inner body of the stove at predetermined positions, respectively, by the distance between the inner body of the stove and the outer body of the stove, by the passage and by the air inlet unit, the solid fuel cooker device according to the embodiments of the present invention enables good air circulation in the cooker device and good combustion efficiency, and can therefore be used in various applications, such as boiling water, cooking food, barbecues and the like. The solid fuel cooker device of the present invention can be used to replace conventional gas cooker and other kitchen stoves for convenient and energy saving cooking. In addition, the adoption of the annular passage around the open upper end in the outer body of the stove allows combustion gases to be burned again before being discharged from the stove device. Consequently, the exhaust gases contain less hazardous substances and do not produce excess smoke, making the stove device of the present invention environmentally friendly.

BRIEF DESCRIPTION OF THE DRAWINGS The structure and technical means adopted by the present invention to achieve the above described and other objects can be better understood with reference to the following detailed description of the embodiments and the accompanying drawings, in which: 1 illustrates an exploded perspective view of a solid fuel cooker device according to a first embodiment of the present invention showing an outer and inner cooker body thereof; Figure 2 illustrates an assembled view of Figure 1; Figure 3 shows a side cross-sectional view showing the solid fuel cooker device according to the first embodiment of the present invention being used to heat a cooking vessel; Figure 4 shows an exploded perspective view of a solid fuel cooker device according to a second embodiment of the present invention showing an outer and inner cooker body thereof; Figure 5 illustrates an assembled view of Figure 4; Figure 6 shows a side cross-sectional view showing the solid fuel cooker device according to the second embodiment of the present invention being used to heat a cooking vessel; Figure 7 illustrates a stove muffler included in the second embodiment of the present invention being raised to admit more air within the solid fuel cooker device; Figure 8 illustrates a side cross-sectional view of Figure 7; Figure 9 shows the stove muffler of Figure 7 being raised higher to allow maximum air intake; Figure 10 illustrates a side cross-sectional view of Figure 9; Figure 11 illustrates a fuel supply port included in the second embodiment of the present invention being opened for introducing more solid fuels into the cooker device; Figure 12 shows an exploded perspective view of a solid fuel cooker device according to a third embodiment of the present invention showing an outer and inner cooker body thereof; Figure 13 shows an assembled view of Figure 12 with a cooking vessel placed on top of the solid fuel cooker device; and Figure 14 illustrates an assembled side cross-sectional view showing the solid fuel cooker device according to the third embodiment of the present invention being used to heat a cooking vessel.

Detailed Description of Preferred Embodiments The present invention will now be described with some preferred embodiments thereof, and with reference to the accompanying drawings.  In order to facilitate understanding, elements that are the same in preferred embodiments are identified by the same reference numerals.  [017] Please refer to Figures 1 to 3.  The solid fuel cooker device 1 according to a first embodiment of the present invention comprises an outer cooker body 100, an air inlet unit 200, and an inner cooker body 300.  The outer body of the stove 100 comprises an annular passageway 110, a first peripheral wall 120 and a bottom 130.  The annular passageway 110 is located externally around an open upper end of the first peripheral wall 120.  The first peripheral wall 120 together with the bottom 130 defines a receiving space 140 therebetween.  The first peripheral wall 120 has an air inlet 121, a plurality of air exhaust holes 122 and a radially inwardly extending support flange 123 provided therein.  Air inlet 121 is located near bottom 130, support flange 123 is located at a lower height than air exhaust holes 122, air exhaust holes 122 communicate receiving space 140 with annular passageway 110, and annular passageway 110 has a gas outlet 111 provided therein.  Air inlet unit 200 is connected at one end to air inlet 121.  The inner body of the stove 300 comprises a second peripheral wall 310 and a fuel base 320.  The second peripheral wall 310 has a plurality of air holes 311a, 311b located therein, and a radially outwardly located locating flange 312 located around an open upper end thereof.  The locating flange 312 is configured to rest on the support flange 123 of the cooker outer body 100.  When said locating flange 312 rests on the support flange 123, the inner body of the stove 300 is suspended in the receiving space 140 of the outer body of the stove 100 such that a spacing space exists between the inner body of the stove. 300 and the outer body of the stove 100.  Air entering the cooker device 1 through the air inlet 121 flows sequentially through the spacing space, the air holes 311a, 311b in the inner body of the stove 300, the air exhaust holes 122 of the outer body of the stove 100, and of the annular passageway 110.  [018] In the first embodiment illustrated, the air inlet unit 200 comprises a fan 210 and an air inlet tube 220.  Air inlet tube 220 is mounted on first peripheral wall 120 to communicate with air inlet 121, and fan 210 is mounted in air inlet tube 220.  As can be seen from Figures 1, 2 and 3, the inlet tube 220 has a proximal end connected to the inlet 121 of the outer body of the stove 100, and a distal end to which the fan 210 is mounted to draw external air to into the air inlet tube 220 such that external air flows through the air inlet 121 into the receiving space 140 of the outer body of the stove 100.  In the first embodiment, the air inlet tube 220 is illustrated as a tube having a rectangular cross section.  However, it should be understood that said air inlet tube 220 may be configured differently and of varying length according to the present need for use.  [019] To use the solid fuel cooker device 1, as shown in Figure 1, first place the inner body of the stove 300 into the receiving space 140 of the outer body of the stove 100 such that the locating flange 312 of the stove 300 inner body is supported on support flange 123 of stove 100 external body.  In other words, the inner body of the stove 300 disposed in the outer body of the stove 100 is supported on the latter only by contacting the locating flange 312 with the supporting flange 123, and there is a gap between the first peripheral wall 120 of the outer cooker body 100 and the second peripheral wall 310 of the inner cooker body 300, as well as between the bottom 130 of the outer cooker body 100 and the fuel base 320 of the inner cooker body 300.  Next, as shown in Figure 2, place solid fuels 10, such as charcoal and wood, into the inner body of stove 300.  After solid fuel combustion 10 has started, the fan 210 of the air inlet unit 200 is turned on to draw external air into the cooker 1, and a cooking vessel 20 is positioned over the open upper end of the cooker. first peripheral wall 120 of the outer body of the stove 100.  The heat produced by the combustion of solid fuels 10 is used to heat and cook the food in the cooking vessel 20.  As can best be seen from Figure 3, in the cooker 1 according to the first embodiment of the present invention, the air inlet unit 200 acts to pull and guide the outside air into the cooking space. receiving 140 from the outer body of the stove 100.  That is, the external air is drawn by the air inlet unit 200 to flow through the air inlet 121 into the distance between the inner body of the stove 300 and the outer body of the stove 100.  As it flows through the spacing space, air passes through the air holes 311a, 311b of the second peripheral wall 310 into the inner body of the stove 300 to provide sufficient oxygen to the combustion solid fuels 10.  The gases produced by combustion of solid fuels 10 in the inner body of the stove 300 are of high temperature and move correspondingly upwards.  However, the high temperature gases are prevented from moving further upward by the cooking vessel 20, which is located above and which closes the open upper end of the outer body of the stove 100.  For this reason, the high temperature gases flow through the air exhaust ports 122 of the cooker outer body 100 into the annular passageway 110.  The high temperature gases captured in annular passage 110 are again burned to contain less hazardous substances.  The gases produced by the combustion are finally discharged from the stove device 1 through the gas outlet 111 without producing excess smoke.  Correspondingly, in the first embodiment of the present invention, external air is drawn by the air inlet unit 200 into the cooker device 1 through the air inlet 121 to flow through the distance between the cooker body 300 and cooker body 100, air holes 311a, 311b of cooker body 300, air exhaust ports 122 of cooker body 100, and annular passageway 110.  External air flows into the stove device 1 along the path described above to continuously provide sufficient oxygen for solid fuels 10 to burn into the stove inner body 300 and produce large flames.  Therefore, the solid fuel cooker device 1 enables good solid fuel combustion 10 and has the advantages of convenience of use and energy saving.  According to the first embodiment of the present invention, the incorporation of the annular passageway 110 causes the gases produced by the combustion to be burned again before being expelled through the gas outlet 111, causing the exhaust gases to contain less. hazardous substances and produce less smoke, making the solid fuel cooker device 1 of the present invention environmentally friendly.  In the first embodiment illustrated, the air holes 311a, 311b are circumferentially spaced at the second peripheral wall 310, and arranged in an upper row and a lower row, respectively.  The bottom row of air holes 311b is located near fuel base 320.  That is, the lower row of air holes 311b is located closest to solid fuels 10, while the upper row of air holes 311a is located closest to locating flange 312.  After flowing through the air inlet 121 and into the distance between the inner body of the stove 300 and the outer body of the stove 100, the external air flows through the air holes 311 a and 311 b into the inner body of the stove 300 to continuously supply oxygen to the 10 combustion solid fuels.  As shown in Figures 2 and 3, according to the first embodiment, the gas outlet 111 of the annular passage 110 of the outer body of the stove 100 may be connected to an exhaust pipe 30, which conducts the waste of gases produced by combustion in an environment outside the home or elsewhere.  With exhaust pipe 30, an exhaust path for waste gas can be planned when the solid fuel cooker device 1 is used indoors.  Figures 4 to 11 show a solid fuel cooker device 2 according to a second embodiment of the present invention.  As shown, since the solid fuel cooker device 2 of the second embodiment is generally structurally similar to the solid fuel cooker device 1 of the first embodiment, the elements of the stove 2 that are the same as the stove 1 are same or similar reference numbers.  Similar to the first embodiment, the solid fuel cooker device 2 of the second embodiment comprises an outer cooker body 100 ', an air inlet unit 200' and an inner cooker body 300 '.  The outer body of the stove 100 'comprises an annular passageway 110, a first peripheral wall 120 and a bottom 130.  The annular passageway 110 is located externally around an open upper end of the first peripheral wall 120.  The first peripheral wall 120 together with the bottom 130 defines a receiving space 140 therebetween.  Said first peripheral wall 120 has an air inlet 121, a plurality of air exhaust holes 122 and a radially inwardly extending support flange 123 provided therein.  Air inlet 121 is located near bottom 130, support flange 123 is located at a lower height than air exhaust holes 122, air exhaust holes 122 communicate receiving space 140 with annular passageway 110, and annular passageway 110 has a gas outlet 111 provided therein.  Air inlet unit 200 'is connected at one end to air inlet 121.  The inner body of the stove 300 'comprises a second peripheral wall 310 and a fuel base 320.  The second peripheral wall 310 has a plurality of air holes 311a, 311b located therein, and a radially outwardly located locating flange 312 located around an open upper end thereof.  The locating flange 312 is configured to rest on the support flange 123 of the cooker outer body 100 '.  When locating flange 312 rests on support flange 123, the inner body of the cooker 300 'is suspended in the receiving space 140 of the outer body of the cooker 100' such that a spacing space exists between the inner body of the cooker 300 '. stove 300 'and the outer body of stove 100'.  Air entering the stove 2 through air inlet 121 flows sequentially through the spacing space, air holes 311a, 311b in the inner body of the stove 300 ', air exhaust holes 122 of the outer body of the stove 100' , and the annular passageway 110.  In the second embodiment, the air inlet unit 200 'also comprises a stove damper 230, which is equipped with a stop 232 for resting on the top surface of the air inlet tube 220, in such a manner the stove damper 230 is located between the fan 210 and the air inlet 121 to block a portion of the air inlet 121.  The stove damper 230 is vertically movable relative to the air inlet 121 so as to regulate the amount of external air that is drawn by the fan 210 and guided by the air inlet tube 220 into the outer body of the stove 100 'through of the air inlet 121.  More specifically, the air inlet unit 200 'of the cooker device 2 of the second embodiment comprises a fan 210, an air inlet tube 220, and the above-mentioned cooker damper 230.  Air inlet tube 220 is mounted on first peripheral wall 120 to communicate with air inlet 121, and fan 210 is mounted in air inlet tube 220.  The cooker damper 230 is supported on the air inlet tube 220 with the stopper 232 resting on the top surface of the air inlet tube 220, such that the cooker damper 230 is located between the fan 210 and the 121, and is vertically movable to regulate the amount of external air that can be guided into the outer body of the stove 100 'through the air inlet 121.  When the stop 232 is resting on the air inlet tube 220, the stove damper 230 does not fully close the air inlet 121, as shown in Figure 6, and the amount of external air that can pass through the air inlet 121 it's smaller.  The cooker damper 230 is located in the air inlet tube 220 at a distance from the proximal end thereof, and is therefore also spaced from air inlet 121 by a certain distance.  With the stop 232 resting on the top surface of the air inlet tube 220, the stove damper 230 has a spaced lower end of the bottom surface of the air inlet tube 220 for a distance.  The external air drawn by the fan 210 into the air inlet tube 220 flows through the space between the lower end of the stove damper 230 and the bottom surface of the air inlet tube 220 to enter the body receiving space 140. cooker 100 'through the air inlet 121.  The stove damper 230 is also equipped with a lever 233, with which the user can move the stove damper 230 up and down to adjust the position of the stove damper 230 relative to the air inlet 121.  [028] In the second embodiment, the outer body of the stove 100 'also has in the first peripheral wall 120 a fuel filler opening 124 and a fuel filler port 125.  Fuel filler port 125 is pivotally and pivotally connected via a pivot pin 128 to the first peripheral wall 120 to open and close the fuel filler opening 124.  The inner body of the stove 300 'is fitted to the second peripheral wall 310 with an opening 313 corresponding to the fuel supply opening 124.  For this reason, and as can be seen in Figure 6, when a user wishes to place more solid fuels 10 into the stove's inner body 300 'while a cooking vessel 20 is positioned on top of the stove 2 device, the user simply opens the fuel filler port 125 and inserts the additional solid fuels 10 into the inner body 300 'of the cooker through the fuel filler port 124 without removing the cooking container 20 from the cooker device 2.  With these arrangements, the cooker 2 device offers greater convenience of use.  According to the second embodiment, the fueling port 125 of the cooker 2 device is equipped with a handle 127 which is connected at one end to the pivot pin 128.  By handling the handle 127, the fueling port 125 can be rotated to open or close the fueling port 124.  A lock 129 is mounted on the first peripheral wall 120 in a position adjacent to the fuel filler opening 124 to keep the fuel filler door 125 normally in a closed position.  As shown, the fuel filler opening 124 is located on the first peripheral wall 120 of the cooker outer body 100 'at a higher position than the air inlet 121, the fuel filler port 125 is externally equipped with a protrusion 126, and the stove damper 230 is equipped with a vertical line of spaced retaining holes 231a, 231b.  By engaging one of the selected retaining holes 231a, 231b with protrusion 126, it is possible to adjust the position of the stove damper 230 relative to air inlet 121 to regulate the amount of air that can be delivered by fan 210 to stove interior 2.  For example, as shown in Figures 5 and 6, the stove damper 230 is initially located lower than the air inlet 121, with the stopper 232 resting on the top surface of the cooker tube. air inlet 220.  Then, as shown in Figures 7 and 8, for the burning of solid fuels 10 to produce larger flames, the stove dam 230 is raised to the retaining hole 231a, which is located higher in the stove dam 230, for engaging with the protrusion 126 such that the cooker damper 230 covers a smaller area of the air inlet 121, to allow a greater amount of air outside the cooker outer body 100 'through the air inlet 121, so that solid fuels 10 burn more intensely.  In addition, as shown in Figures 9 and 10, when the cooker damper 230 is raised to the retaining hole 231b, which is located lower in the cooker damper 230, to engage with the boss 126, a larger amount external air is allowed to flow through the air inlet 121 into the outer body 100 'of the cooker.  Briefly, according to the second embodiment of the present invention, incorporation of the vertically spaced retaining holes 231a, 231b enables stepwise control of the amount of air allowed, allowing the user to regulate the amount of air allowed according to current need for use, and correspondingly control the size of the flames on the stove 2.  In the second illustrated embodiment, two retaining holes 231a, 231b are shown.  Initially, the stove damper stop 230 is supported on the top surface of the air inlet pipe 220 and the amount of air allowed is small.  When the highest retaining hole 231a is selected to engage the protrusion 126, the amount of air allowed is increased.  And, when the lower retaining hole 231b is selected to engage with the protrusion 126, a larger amount of admitted air is obtained.  It should be understood that the number of retaining holes is not limited to two, but may be increased according to the current design need.  It should be noted that in the cooker device 2 according to the second embodiment, the protrusion 126 is provided on the fuel filler port 125, and the fuel filler door 125 cannot be turned to the open position when the stove damper 230 is raised with any of the retaining holes 231a, 231b engaged with the protrusion 126.  This design ensures that air inlet 121 is always located at the lowest position allowing only a small amount of air inside the cooker body 100 'when fuel filler port 125 is open for solid fuel introduction 10 opening the fuel filler door 125 will not cause an increased convection effect resulting in excessively large flames.  In other words, as shown in Figure 11, when the user wishes to open the fuel filler door 125 to introduce additional solid fuels 10, the stove damper 230 must first be lowered until the stop 232 rests over the top of the stove surface. air inlet tube 220.  At this point, the stove baffle 230 only admits less air inside the cooker 2 through the air inlet 121, so as to avoid the risk of suddenly intensifying the flames.  With these arrangements, the solid fuel cooker device 2 is safer, and not only effectively protects the user from burns, but also prevents the food in the cooking vessel 20 from becoming overcooked or burnt.  Similar to the cooker device 1 of the first embodiment, the cooker device 2 of the second embodiment also utilizes the air inlet unit 200 'thereof to guide outside air into the cooker 2 device through the air inlet 121, and external air entering the cooker device 2 flows through the spacing between the inner body 300 'of the cooker and the outer body 100' of the cooker, from the air holes 311a, 311b of the inner body 300 ' of the cooker, air exhaust ports 122 of the outer body 100 'of the cooker and the annular passageway 110.  External air flows into the stove 2 device along the path described above to continuously provide sufficient oxygen for solid fuels 10 to burn into the stove's inner body 300 'and produce large flames.  Therefore, the solid fuel cooker device 2 enables good solid fuel combustion 10 and has the advantages of saving energy and being of convenient use.  According to the second embodiment of the present invention, the incorporation of the annular passage 110 causes the gases produced by combustion to be burned again before being expelled through the gas outlet 111, causing the discharged gases to contain less hazardous substances and produce less smoke, making the solid fuel cooker device 2 of the present invention environmentally friendly.  [035] Please refer to Figures 12 to 14.  A solid fuel cooker device 3 according to the third embodiment of the present invention is generally structurally similar to the solid fuel cooker device 2 of the second embodiment, but has a fuel filler opening 124 incorporated in the first wall. 120 of the outer body 100 "of the stove in a higher and offset position of the air intake 121.  According to the third embodiment of the present invention, the fuel filler opening 124 may be suitably sized according to the present need for use.  According to the cooker device 3 of the third embodiment, the outer body 100 "of the cooker has a protrusion 126 'incorporated into the first peripheral wall 120, and the baffle 230 of the air intake unit 200' has a vertical row of retaining holes 231a, 231b provided therein.  By engaging one of the selected retaining holes 231a, 231b with protrusion 126 ', it is possible to adjust the position of the stove damper 230 relative to the air inlet 121 to regulate the amount of air that can be delivered by the fan 210 into the stove 3 via the air inlet 121.  The stove damper 230 is also equipped with a lever 233, with which the user can move the stove damper 230 up and down to adjust the position of the stove damper 230 relative to the air inlet 121.  Similar to the cooker device 2 of the second embodiment, the cooker device 3 of the third embodiment also comprises a fuel filler port 124 and a fuel filler port 125 incorporated in the first peripheral wall 120 of the outer body 100. "from the stove.  Fuel filler port 125 is pivotally and pivotally connected via a pivot pin 128 to the first peripheral wall 120 to open and close the fuel filler opening 124.  The inner body of the stove 300 "is equipped in the second peripheral wall 310 with an opening 313 corresponding to the fuel supply opening 124.  For this reason, and as can be seen in Figure 13, when a user wishes to place more solid fuels 10 into the cooker body 300 "while a cooking pan 20 is positioned on top of the cooker device 3, the user simply opens the fuel filler port 125 and introduces the additional solid fuels 10 into the inner body 300 "of the cooker through the fuel filler port 124 without removing the cooking container 20 from the cooker device 3.  With these arrangements, the cooker 3 device offers greater convenience of use.  In addition, the fueling port 125 is equipped with a handle 127 which is connected at one end to the pivot pin 128.  By handling the handle 127, the fueling port 125 can be rotated to open or close the fueling port 124.  A lock 129 is mounted to the first peripheral wall 120 in a position adjacent to the fuel filler opening 124 to hold the fuel filler door 125 in a normally closed position.  In addition, similarly to the cooker devices 1,2 of the first and second embodiments, respectively, the cooker device 3 of the third embodiment also uses the air inlet unit 200 "thereof to guide the air outside the The interior of the cooker 3 through the air inlet 121, and the external air entering the cooker 3 flows through the distance between the inner body 300 "of the cooker and the outer body 100" of the cooker, from the air holes 311a. 311b of the cooker inner body 300 ", the air exhaust ports 122 of the cooker outer body 100" and the annular passageway 110.  External air flows into the stove device 3 along the path described above to continuously provide sufficient oxygen for solid fuels 10 to burn into the stove's inner body 300 "and produce large flames.  Therefore, the solid fuel cooker device 3 enables good solid fuel combustion 10 and has the advantages of saving energy and being of convenient use.  According to the third embodiment of the present invention, the incorporation of the annular passageway 110 causes the gases produced by the combustion to be burned again before being expelled through the gas outlet 111, causing the discharged gases to contain less of the gas. hazardous substances and produce less smoke, making the solid fuel cooker device 3 of the present invention environmentally friendly.  In the first, second and third embodiments, the cooking vessel 20 positioned on top of the solid fuel cooker device 1,2,3 is shown to be a wok frying pan for cooking and frying food.  However, it should be understood that the cooking vessel 20 may also be a kettle, a frying pan, an iron plate or a cooking grid.  The solid fuel cooker device 1, 2, 3 according to the present invention may be of different sizes to meet different usage requirements.  The cooker device 1, 2, 3 can be small in size and portable, or large in size and immobile in one place.  The cooker 1,2, 3 can be used for outdoor activities such as camping or picnicking, or it can be used in a kitchen to replace a conventional gas cooker.  Since solid fuels such as coal and wood are cheaper and more readily available, the solid fuel cooker device of the present invention is highly suitable for use in uninhabited or rural areas.  [040] Being characterized by the air exhaust holes and the air holes located in the cooker outer and inner body in predetermined positions, respectively, by the distance between the cooker inner body and the cooker outer body, through the passage and by the air inlet unit, the solid fuel cooker device according to the embodiments of the present invention enables good air circulation in the cooker device and good combustion efficiency, and can therefore be used in various applications, such as boiling water, cooking food, barbecues and the like.  The solid fuel cooker device of the present invention can be used to replace conventional gas cooker and other kitchen stoves for convenient and energy saving cooking.  In addition, the adoption of the annular passage around the open upper end in the outer body of the stove allows combustion gases to be burned again before being discharged from the stove device.  Consequently, the exhaust gases contain fewer hazardous substances and do not produce excess smoke, making the stove device of the present invention environmentally friendly in design.  [041] The present invention has been described with some preferred embodiments thereof, and it should be understood that many changes and modifications to the embodiments described herein may be made without departing from the scope and spirit of the invention which it is intended to be. limited only by the appended claims.

Claims (10)

1. SOLID FUEL STOVE DEVICE, characterized in that it comprises an external stove body having an annular passage, a first peripheral wall and a bottom; the annular passageway is located externally around an open upper end of the first peripheral wall and has a gas outlet therein; the first peripheral wall together with the bottom define a receiving space between them; and the first peripheral wall has an air inlet, a plurality of air exhaust holes and a radially inwardly extending support flange provided therein; the air inlet is located near the bottom, the support flange is located at a height lower than the air exhaust holes, and the air exhaust holes communicate the receiving space with the annular passageway; the air inlet unit is connected at one end to the air inlet; and the inner body of the stove comprises a second peripheral wall and a fuel base; the second peripheral wall has a plurality of air holes located therein and comprises a locating flange; the locating flange is radially extended outwardly and located around an open upper end of the second peripheral wall to rest on the support flange of the outer cooker body such that the inner cooker body is suspended in space receiving the outer body of the stove with a spacing between the inner body of the stove and the outer body of the stove; and in which external air is drawn and directed by the air inlet unit to flow through the air inlet into the distancing space, and then flows through the air holes of the inner body of the stove, the exhaust ports of air from the outer body of the stove, and the annular passage. STOVE DEVICE according to claim 1, characterized in that the air holes located in the second peripheral wall of the cooker inner body are circumferentially spaced in the second peripheral wall and arranged in two rows; the air holes in one of the two rows are located closer to the fuel base, and the air holes in the other row are located closer to the locating flange. STOVE DEVICE according to claim 2, characterized in that the air inlet unit comprises a fan, an air inlet tube, and a stove damper; the air inlet tube is mounted on the first peripheral wall of the cooker outer body to communicate with the air inlet; the fan is mounted on the air inlet pipe; and the cooker damper is equipped with a stop to rest against the top surface of the air inlet pipe such that the cooker damper is located between the fan and the air inlet to cover a portion of the inlet. of air; and the stove damper is movable vertically with respect to the air inlet to regulate the amount of external air that is drawn by the fan and admitted into the outer body of the stove through the air inlet. STOVE DEVICE according to claim 3, characterized in that the outer body of the stove is also provided in the first peripheral wall with a fuel filler opening and a fuel filler door; the fueling port is pivotally and pivotally connected to the first peripheral wall via a pivoting pin to open and close the fueling port; and the inner body of the stove is fitted in the second peripheral wall with an opening corresponding to the fuel supply opening. STOVE DEVICE according to claim 4, characterized in that the fuel supply opening provided in the first peripheral wall of the cooker outer body is located at a higher position than the air inlet, the door. The fuel supply unit is externally equipped with a protrusion, and the stove damper is equipped with a vertical row of retaining holes; and the stove damper can be moved vertically by engaging one of the selected retaining holes with the fuel filler door protrusion for the purpose of regulating the amount of external air that is drawn by the fan and admitted into the outer body. from the stove through the air inlet. STOVE DEVICE according to claim 5, characterized in that the fuel filler door is equipped with a handle, which is connected at one end to the pivot pin and used to move the fuel filler door to open it. or close the fuel supply port; and wherein the first peripheral wall is located adjacent the fuel filler opening with a lock normally used to hold the fuel filler door in a closed position. STOVE DEVICE according to claim 6, characterized in that the hob is also equipped with a lever. STOVE DEVICE according to claim 3, characterized in that the outer body of the stove is provided with a protrusion provided in the first peripheral wall, and the stove damper has a vertical row of retaining holes; The hob can be moved vertically by engaging one of the selected retaining holes with the protrusion of the first peripheral wall for the purpose of regulating the amount of external air that is drawn by the blower and admitted into the outer body of the hob through from the air inlet. STOVE DEVICE according to claim 8, characterized in that the outer body of the stove is also provided in the first peripheral wall with a fuel filler opening and a fuel filler port; the fueling port is pivotally and pivotally connected to the first peripheral wall via a pivoting pin to open and close the fueling port; and the inner body of the stove is fitted in the second peripheral wall with an opening corresponding to the fuel supply opening. STOVE DEVICE according to claim 9, characterized in that the fuel filler door is equipped with a handle, which is connected at one end to the pivot pin and used to move the fuel filler door to open it. or close the fuel supply port; and wherein the first peripheral wall is located adjacent the fuel filler opening with a lock used to hold the fuel filler door in a normally closed position.