CN214275817U - High-efficiency energy-saving carbon counting machine - Google Patents

Abstract

An efficient energy-saving carbon counting machine belongs to the technical field of catering appliances. Its structural design is reasonable, and is high to heat utilization rate, and each structure can be dismantled the replacement, and is simple to use convenient. The carbon counting machine comprises a bracket, a blower, an ash box, a smoke filtering box, an exhaust fan, a carbon counting box, a warm water box, a preheating air box and an oven; the point charcoal case is fixed to be placed on the support for the ash bin of collecting lime-ash is placed under the point charcoal case, oven, preheating bellows and warm water case are folded on the point charcoal case in proper order by supreme down, it places in the support rear to strain the cigarette case, correspond the position and all be provided with the same some charcoal chamber one of cross sectional dimension shape, some charcoal chamber two and some charcoal chamber three in warm water case, preheating bellows and the oven, set up and be provided with exhaust pipe one in the warm water case of the top. This point charcoal machine structural design is reasonable, and is high to heat utilization rate, and the function is abundant, and each structure can be dismantled the replacement, convenience simple to use.

Description

High-efficiency energy-saving carbon counting machine

Technical Field

The utility model belongs to the technical field of food and beverage apparatus, in particular to energy-efficient point charcoal machine.

Background

The existing carbon lighting machine consumes a large amount of gas during working, generates a large amount of sparks and dust, is easy to cause fire if the sparks are discharged into a kitchen flue, wastes a large amount of heat sources during working, cannot store the lighted carbon and cannot cultivate the carbon, and more gas can be used if the ignited carbon is completely lighted.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that exists among the above-mentioned background art, the utility model provides a high-efficient energy-saving point charcoal machine, its structural design is reasonable, and is high to heat utilization efficiency, each structure can dismantle the replacement, convenience simple to use.

The utility model provides a technical scheme that its technical problem adopted is: an efficient energy-saving charcoal-lighting machine comprises a support, an air blower, an ash box, a smoke filtering box, an exhaust fan, a charcoal-lighting box, a warm water box, a preheating air box and an oven.

Some charcoal casees are fixed to be placed on the support for the ash bin of collecting lime-ash is placed under some charcoal casees, oven, preheating bellows and warm water case are by supreme stack in proper order on some charcoal casees down, strain the cigarette case and place at the support rear, strain and be provided with aspiration channel and exhaust pipe two on the cigarette case, the exhaust fan is connected to exhaust pipe two, warm water case, preheating bellows and oven correspond the position and all be provided with the same some charcoal chamber one of cross sectional dimension shape, some charcoal chamber two and some charcoal chamber three, set up and be provided with exhaust pipe one in the warm water case of the top, exhaust pipe one communicates some charcoal chamber one and aspiration channel.

The charcoal counting box comprises a box body I, a grate plate, a furnace end, an air collecting cylinder, a blast pipe, an ash discharging box, a box plate I, a box plate II, a plug board, a gas pipe, a communication hole I, a charcoal taking port, a pin, a limiting fence, a fixing fence and a box door V; the middle position of the bottom of the first box body is provided with a cylindrical air gathering barrel with an open upper end, the furnace end is circular and is concentrically arranged with the air gathering barrel, a blast pipe communicated with an air blower is arranged at the position below the furnace end on the side wall of the air gathering barrel, the lower end of the air gathering barrel is provided with an ash discharging box for discharging ash, a grate plate is arranged above the furnace end, the periphery of the grate plate is fixed on the first box body, a charcoal taking port for taking out ignited charcoal is arranged at the position above the grate plate on the front wall of the first box body, a box door with a sealing function is hinged on the charcoal taking port, the upper wall of the first box body is provided with a first intercommunicating hole with the same cross section shape and size as the charcoal taking cavity, and the first intercommunicating hole is tightly attached to the. The lower part of the furnace end is connected with a gas pipe, and a gas outlet of the furnace end is arranged on the side surface. The ash discharging box is characterized in that the left side and the right side of the lower portion of the ash discharging box are respectively provided with a box plate II and a box plate I, the box plate I is provided with a pin column for installing a plug board and a limit fence for limiting the plug board, the box plate II is provided with a fixed fence for plug board plug-in mounting, and the plug board is rotatably installed on the pin column.

The warm water tank comprises a tank body II, a carbon discharge port I, a carbon discharge port II, a carbon counting cavity I, an exhaust pipe I, a water storage cavity, a limiter, a water filling port, a water outlet, a water overflow port tank door I, a tank door II and a communication hole II; a first point carbon cavity is arranged in the box body II, the first point carbon cavity is arranged close to the front wall and the lower wall of the box body II, the lower end of the point carbon cavity is arranged with an opening, the opening is a second intercommunicating pore, a first carbon placing port and a second carbon placing port are sequentially arranged on the front wall of the first carbon dispensing cavity from top to bottom, a first box door with a sealing function is hinged on the first carbon placing port, a second box door with a sealing function is hinged on the second carbon placing port, a water storage cavity is formed between the first carbon dispensing cavity and the box body, a water filling port is arranged on the upper wall of the water storage cavity, a water outlet is arranged on the side wall of the water storage cavity close to the lower wall, a position limiter for controlling the water level is arranged on the rear wall of the water storage cavity close to the upper wall, an overflow port is arranged on the same side wall of the water storage cavity and the water outlet, the height position of the overflow port is between the limiter and the upper wall of the second box body, the first exhaust pipe is arranged at the upper position of the rear wall of the first point carbon cavity, and the first exhaust pipe penetrates through the water storage cavity to be communicated with the outer part of the second box body and is connected with the air suction pipe.

The smoke filtering box comprises a box body V, an air suction pipe, an exhaust pipe II and a filter plate; the middle position of the front-back direction in the box body five is provided with a filter plate, the filter plate is fixedly connected with the upper wall and two side walls of the box body five, a gap is reserved between the filter plate and the lower wall, the filter plate is a reticular plate, water is filled into the box body five, the water level is flush with the lower edge of the filter plate, an air suction pipe and an exhaust pipe II are respectively arranged on two sides of the filter plate, the air suction pipe is connected with the exhaust pipe I, and the exhaust pipe II is connected with an exhaust fan.

The preheating air box comprises a box body III, a communicating hole IV, a carbon dispensing cavity II, a carbon placing hole III, a preheating cavity, an air inlet, an air outlet, a box door III, a plurality of porous plates and a plurality of plate wings; run through from top to bottom in the box three and be provided with some charcoal chamber two, some charcoal chamber two hugs closely three antethecas of box and sets up, and the port is intercommunicating pore three under some charcoal chamber two, and some charcoal chamber two goes up the port and is intercommunicating pore four, some charcoal chamber two and box form between three and preheat the chamber, preheat the intracavity and be provided with a plurality of perforated plates, be provided with a plurality of board wings between per two adjacent and parallel perforated plates, a plurality of board wings set up on the lateral wall of some charcoal chamber two to from top to bottom with arranging, air inlet and gas outlet have been seted up on the left and right sides wall of box three respectively, it puts charcoal mouth three to have seted up on the two antethecas of some charcoal chamber, it is equipped with the chamber door three that has sealing effect to put the three last hinges of charcoal mouth.

The oven comprises a box body IV, a carbon counting cavity III, a carbon placing opening IV, a communication hole V, a communication hole VI, a box door IV, a plurality of baking grids and a plurality of drawing baking baskets; run through from top to bottom in the box four and be provided with some charcoal chamber three, some charcoal chamber three is hugged closely four antethecas of box and is set up, and some charcoal chamber three is down the port and be intercommunicating pore six for five last ports of intercommunicating pore, and some charcoal chamber three and box four within a definite time vacuole formation set up a plurality of plywoods formation a plurality of roast check, and are a plurality of roast baskets are installed to the pull in the roast check, it puts charcoal mouth four to have seted up on the four antethecas of box, it is equipped with chamber door four that has sealed effect to put the four upward hinges of charcoal mouth.

The carbon taking port, the carbon placing port I, the carbon placing port II, the carbon placing port III and the carbon placing port IV are all arranged in an inclined mode, and the box door V, the box door I, the box door II, the box door III and the box door IV are all arranged in an inclined mode in a matched mode.

The utility model has the advantages that: this point charcoal machine structural design is simple reasonable, and heat utilization rate is high, and the function is abundant, and each part can be dismantled the replacement, convenience simple to use.

Drawings

The present invention will be further explained with reference to the drawings and examples.

FIG. 1 is a simplified structural diagram of the present invention;

FIG. 2 is a first schematic view of the structure of the charcoal dispensing box of the present invention;

FIG. 3 is a second schematic view of the structure of the charcoal dotting machine of the present invention (the grate plate is not shown in the figure);

FIG. 4 is a schematic structural view of the ash pan of the present invention;

FIG. 5 is a schematic view of the structure of the warm water tank of the present invention;

FIG. 6 is a schematic view of the structure of the smoke filtering box of the present invention;

FIG. 7 is a schematic structural view of a preheating bellows of the present invention;

FIG. 8 is a top cross sectional view of the preheating windbox structure of the present invention;

fig. 9 is a first structural schematic view of the oven of the present invention;

fig. 10 is a schematic view of the structure of the oven of the present invention;

fig. 11 is a schematic view of the overall structure of the present invention;

fig. 12 is a schematic view of the overall structure of the present invention;

fig. 13 is a schematic view of the overall structure of the present invention;

in the figure: 1. a support; 2. a blower; 3. an ash bin; 4. a smoke filtering box; 5. an exhaust fan; 6. a charcoal box is lighted; 7. a warm water tank; 8. preheating an air box; 9. an oven; 40. a fifth box body; 41. an air suction pipe; 42. a second exhaust duct; 43. filtering the plate; 60. a first box body; 61. a grate plate; 62. a furnace end; 63. a wind gathering cylinder; 64. a blast pipe; 65. a dust box; 66. a first box plate; 67. a second box plate; 68. inserting plates; 69. a gas pipe; 610. a first communication hole; 611. a charcoal taking port; 612. a pin; 613. a limit fence; 614. fixing the fence; 615. a box door five; 70. a second box body; 71. a first charcoal placing port; 72. a second carbon placing port; 73. a first charcoal dispensing cavity; 74. a first exhaust pipe; 75. a water storage cavity; 76. a stopper; 77. a water injection port; 78. a water outlet; 79. an overflow port; 710. a first box door; 711. a second box door; 712. a second communication hole; 80. a box body III; 81. a communicating hole III; 82. a communicating hole IV; 83. a second charcoal dispensing cavity; 84. a third carbon placing port; 85. a preheating chamber; 86. a perforated plate; 87. a plate fin; 88. an air inlet; 89. an air outlet; 810. a box door III; 90. a box body IV; 91. a third carbon dotting cavity; 92. a carbon placing port IV; 93. a communicating hole V; 94. a communicating hole six; 95. baking grids; 96. drawing the roasting basket; 97. and a box door IV.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. The figures are simplified schematic diagrams illustrating the basic structure of the invention in a schematic way only, and therefore they show only the components relevant to the invention.

As shown in the attached drawing, the high-efficiency energy-saving carbon lighting machine comprises a support 1, a blower 2, an ash box 3, a smoke filtering box 4, an exhaust fan 5, a carbon lighting box 6, a warm water box 7, a preheating air box 8 and an oven 9.

As shown in fig. 1, some charcoal boxes 6 are fixed to be placed on support 1, and ash box 3 for collecting ash is placed under some charcoal boxes 6, oven 9, preheating bellows 8 and warm water tank 7 are stacked on some charcoal boxes 6 from bottom to top in proper order, smoke filtering box 4 is placed in the support rear, is provided with aspiration channel 41 and two exhaust pipes 42 on smoke filtering box 4, and exhaust fan 5 is connected to two exhaust pipes 42, corresponding position all is provided with the same some charcoal chamber one 73, two 83 of some charcoal chamber and three 91 of some charcoal chamber of cross sectional dimension shape in warm water tank 7, preheating bellows 8 and oven 9, sets up to be provided with exhaust pipe one 74 in the warm water tank 7 of the top, exhaust pipe one 74 communicates some charcoal chamber one 73 and aspiration channel 41.

As shown in fig. 2, 3 and 4, the charcoal dotting box comprises a box body I60, a grate plate 61, a furnace end 62, an air collecting barrel 63, a blast pipe 64, an ash discharging box 65, a box plate I66, a box plate II 67, an inserting plate 68, a gas pipe 69, a communicating hole I610, a charcoal taking port 611, a pin 612, a limit fence 613, a fixed fence 614 and a box door five 615; the middle position of the bottom of the first box body 60 is provided with a cylindrical air gathering barrel 63 with an open upper end, the furnace end 62 is circular and is arranged concentrically with the air gathering barrel 63, a blast pipe 64 communicated with the air blower 2 is arranged on the side wall of the air gathering barrel 63 and is positioned below the furnace end 62, the lower end of the air gathering barrel 63 is provided with an ash discharging box 65 used for discharging ash and slag, a grate plate 61 is arranged above the furnace end 62, the periphery of the grate plate 61 is fixed on the first box body 60, a charcoal taking port 611 used for taking out ignited charcoal is arranged on the front wall of the first box body 60 and positioned above the grate plate 61, five box doors 615 with sealing function are hinged on the charcoal taking port 611, a first communicating hole 610 with the same section shape and size as the first charcoal lighting cavity 73 is formed in the upper wall of the first box body 60, and the first communicating hole 610 is arranged in close contact with the box door. The lower part of the burner 62 is connected with a gas pipe 69, and a gas outlet of the burner 62 is arranged on the side surface. The left side and the right side of the lower part of the ash discharging box 65 are respectively provided with a box plate II 67 and a box plate I66, the box plate I66 is provided with a pin 612 for installing an inserting plate 68 and a limit fence 613 for limiting the inserting plate 68, the box plate II 67 is provided with a fixed fence 614 for inserting the inserting plate 68, and the inserting plate 68 is rotatably installed on the pin 612.

As shown in fig. 5, the warm water tank 7 includes a second tank body 70, a first charcoal discharging port 71, a second charcoal discharging port 72, a first charcoal lighting chamber 73, a first exhaust duct 74, a water storage chamber 75, a stopper 76, a water filling port 77, a water outlet 78, a first overflow port 79, a first tank door 710, a second tank door 711 and a second communication hole 712; a first carbon dotting cavity 73 is arranged in the second box body 70, the first carbon dotting cavity 73 is tightly attached to the front wall and the lower wall of the second box body 70, the lower end of the first carbon dotting cavity 73 is open and is a second communication hole 712, a first carbon placing opening 71 and a second carbon placing opening 72 are sequentially formed in the front wall of the first carbon dotting cavity 73 from top to bottom, a first door 710 with a sealing effect is hinged on the first carbon placing opening 71, a second door 711 with a sealing effect is hinged on the second carbon placing opening 72, a water storage cavity 75 is formed between the first carbon dotting cavity 73 and the second box body 70, a water filling opening 77 is formed in the upper wall of the water storage cavity 75, a water outlet 78 is formed in the position, close to the lower wall, of the rear wall of the water storage cavity 75, a position, close to the upper wall, for controlling the water level, a stopper 76 is arranged in the position, on the same side wall of the water storage cavity 75 and the water outlet 78, an overflow opening 79 is formed in the height position of the overflow opening 79, and is between the stopper 76 and the upper wall of the second box body 70, the first exhaust pipe 74 is arranged on the upper portion of the rear wall of the first charcoal dotting cavity 73, and the first exhaust pipe 74 penetrates through the water storage cavity 75 to be communicated to the outside of the second box body 70 and is connected with the air suction pipe 41.

As shown in fig. 6, the smoke filtering box 4 includes a box body five 40, an air suction pipe 41, an exhaust pipe two 42 and a filter plate 43; the middle position of fore-and-aft direction is provided with the filter plate 43 in the five 40 interior box, filter plate 43 and the upper wall of five 40 of box and both sides wall fixed connection and with leave the space between the lower wall, filter plate 43 is netted board, water injection in the five 40 of box, the water level is along the parallel and level with filter plate 43 down, aspiration channel 41 and two 42 sets up respectively in the both sides of filter plate 43 of exhaust pipe, aspiration channel 41 links to each other with exhaust pipe 74, and exhaust pipe 42 links to each other with exhaust fan 5.

As shown in fig. 7 and 8, the preheating wind box 8 includes a box body three 80, a communication hole three 81, a communication hole four 82, a charcoal lighting chamber two 83, a charcoal discharging port three 84, a preheating chamber 85, a gas inlet 88, a gas outlet 89, a box door three 810, a plurality of porous plates 86 and a plurality of plate fins 87; run through from top to bottom in the three 80 boxes and be provided with some charcoal chamber two 83, some charcoal chamber two 83 hugs closely three 80 antethecas of box and sets up, and the port is intercommunicating pore three 81 under some charcoal chamber two 83, and the port is intercommunicating pore four 82 on some charcoal chamber two 83, it preheats chamber 85 to form between some charcoal chamber two 83 and three 80 boxes, preheat and be provided with a plurality of perforated plates 86 in the chamber 85, be provided with a plurality of board wings 87 between per two adjacent and parallel perforated plates 86, a plurality of board wings 87 set up on the lateral wall of some charcoal chamber two 83 to from top to bottom the same row setting, air inlet 88 and gas outlet 89 have been seted up respectively on the wall of the left and right sides of three 80 boxes, seted up on the wall of some charcoal chamber two 83 and put charcoal mouth three 84, it is equipped with three doors 810 that have the sealing action to put the hinge on the charcoal mouth three 84.

As shown in fig. 9 and 10, the oven 9 includes a box body four 90, a charcoal counting cavity three 91, a charcoal placing opening four 92, a communication hole five 93, a communication hole six 94, a box door four 97, a plurality of oven grids 95 and a plurality of pull-out oven baskets 96; run through from top to bottom in four 90 of box and be provided with three 91 in some charcoal chamber, three 91 in some charcoal chamber hug closely four 90 antethecas of box and set up, and the port is six 94 for the intercommunicating pore for five 93 last ports in some charcoal chamber, and the vacuole formation between three 91 in some charcoal chamber and four 90 of box sets up a plurality of plywoods in the cavity and forms a plurality of roast check 95, and is a plurality of roast basket 96 of pull is installed to the pull in the roast check 95, set up on four 90 antethecas of box and put charcoal mouth four 92, it is equipped with four 97 of chamber doors that have sealing action to put the hinge on four 92 of charcoal mouth.

As shown in fig. 13, the charcoal taking port 611, the charcoal placing port one 71, the charcoal placing port two 72, the charcoal placing port three 84, and the charcoal placing port four 92 are all disposed in an inclined manner, and the box door five 615, the box door one 710, the box door two 711, the box door three 810, and the box door four 97 are all disposed in an inclined manner in a matching manner.

The working principle of the high-efficiency energy-saving carbon lighting machine is as follows: when the charcoal ignition work is executed, charcoal is stacked on the grate plate 61, the furnace end 62 is ignited, the air blower 2 works at the same time, air with high oxygen content enters the air gathering cylinder 63, the charcoal ignition process can be completed by accelerating flame combustion, dust, residues and the like generated in the process are discharged into the smoke filtering box 4 through the first exhaust pipe 74, are filtered by the filter plate 43 and are discharged by the exhaust fan 5.

When the charcoal culturing process is executed, the charcoal which is not completely burnt out or is not completely ignited is placed in the charcoal igniting cavity, all box doors are completely closed, an environment with relatively low oxygen content is formed, the burning speed of the charcoal can be slowed down in the environment, the charcoal cannot be extinguished very fast, the process can be continued for a long time, and when the charcoal needs to be ignited again, the air blower 2 is turned on to accelerate air flow, and the charcoal burns again.

When the charcoal counting or charcoal raising process is executed, the whole charcoal counting machine can generate large heat, a warm water tank 7, a preheating air box 8 and an oven 9 are additionally arranged above a charcoal counting box 6 for avoiding heat waste, the preheating air box 8 and the oven 9 can be mutually replaced and installed between the charcoal counting box 6 and the warm water tank 7 or installed completely according to needs, after the structures are installed, a communicated charcoal counting cavity for placing charcoal and charcoal counting can be formed jointly, and each structure is provided with a charcoal discharge port for discharging charcoal into the charcoal counting cavity.

The warm water tank 7 is simultaneously provided with a water filling port 77, a water outlet 78, an overflow port 79 and a stopper 76, the stopper 76 is used for automatically controlling the water level of the inlet water and controlling the on-off of the inlet water, and the overflow port 79 is arranged for preventing the water from overflowing out of the tank body when the stopper 76 fails.

The perforated plate 86 and the plate fins 87 arranged in the preheating cavity 85 of the preheating air box 8 can prevent air needing preheating from passing through the preheating cavity 85 too fast and not reaching the preheating effect, and meanwhile, the perforated plate 86 and the plate fins 87 have the heat conduction effect and can accelerate the preheating of the air.

The lateral wall of the three 91 point charcoal cavities in the oven 9 is made of fire-resistant materials, food materials to be baked are placed in the pull baking basket 96 and then placed in the baking grids 95 to be baked, the baking grids 95 are arranged into three parts around the three 91 point charcoal cavities, and the temperature of the three 91 point charcoal cavities can be fully utilized and can be taken conveniently.

All the connection positions of the carbon counting machine are sealed, so that the safety is ensured.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a high-efficient energy-conserving some charcoal machine which characterized in that: including some charcoal case (6), can dismantle ash bin (3) that are used for collecting the lime-ash that sets up in some charcoal case (6) below, can dismantle the warm water case (7) that sets up in some charcoal case (6) top and can absorb and utilize some charcoal case (6) waste heat, can dismantle to set up and be used for filtering smoke and dust at some charcoal case (6) rear and strain smoke box (4), warm water case (7) are equipped with some charcoal chamber (73) and deposit water chamber (75), some charcoal case (6), some charcoal chamber (73) and strain smoke box (4) and communicate in proper order, and the smoke and dust that some charcoal case (6) produced gives the heat transfer for after depositing water chamber (75) through some charcoal chamber (73), discharges from straining smoke box (4).

2. The efficient energy-saving carbon lighting machine as claimed in claim 1, wherein: the efficient energy-saving carbon lighting machine also comprises a preheating air box (8) and an oven (9); it has preheating bellows (8) or oven (9) to go between charcoal case (6) and warm water case (7) to some demountable installation, fixed the placing on support (1) of charcoal case (6) of some, correspond the position in warm water case (7), preheating bellows (8) and oven (9) and all be provided with the same and the intercommunication of cross sectional dimension shape some charcoal chamber one (73), some charcoal chamber two (83) and some charcoal chamber three (91).

3. The efficient energy-saving carbon lighting machine as claimed in claim 2, wherein: the charcoal counting box (6) comprises a box body I (60), a grate plate (61), a furnace end (62), an air collecting cylinder (63), a blast pipe (64), an ash discharging box (65), a communication hole I (610), a charcoal taking port (611) and a box door five (615); the upper end of the air gathering cylinder (63) is open and fixedly penetrates through a center hole formed in the bottom of the first box body (60), the furnace end (62) is arranged in the middle of the air gathering cylinder (63), a blast pipe (64) communicated with the air blower (2) is arranged on the side wall of the air gathering cylinder (63) and located below the furnace end (62), an ash discharging box (65) used for discharging ash is arranged at the lower end of the air gathering cylinder (63), a grate plate (61) installed in the first box body (60) is arranged above the furnace end (62), a charcoal taking port (611) used for taking out ignited charcoal is formed in the front wall of the first box body (60), the charcoal taking port (611) is arranged above the grate plate (61), a box door (615) with a sealing effect is hinged to the charcoal taking port (611), a first communicating hole (610) with the same cross-section shape and size as a first point charcoal cavity (73) of the warm water tank (7) is formed in the upper wall of the first box body (60), the first communication hole (610) is arranged close to the front wall.

4. The efficient energy-saving carbon lighting machine as claimed in claim 3, wherein: the lower part of the furnace end (62) is connected with a gas pipe (69), and a gas outlet of the furnace end (62) is arranged on the side surface.

5. The efficient energy-saving carbon lighting machine as claimed in claim 4, wherein: the charcoal lighting box (6) further comprises a box plate I (66), a box plate II (67), an inserting plate (68), a pin column (612), a limiting rail (613) and a fixing rail (614); go out ash box (65) lower part left and right sides and be provided with two (67) of box board and box board (66) as the switch door respectively, and the contact surface of two (67) of box board and box board (66) is the L type of overlap joint each other, round pin post (612) one end is rotated and is installed on box board (66), and the other end inserts and installs in spacing fence (613) on box board (66), picture peg (68) are installed on round pin post (612), and in round pin post (612) rotation insert fixed fence (614), fixed fence (614) are installed on box board two (67) for keep the closed state of box board two (67) and box board (66).

6. The efficient energy-saving carbon lighting machine as claimed in claim 3, wherein: the warm water tank (7) comprises a second tank body (70), a first carbon discharging port (71), a second carbon discharging port (72), a first carbon lighting cavity (73), a first exhaust pipe (74), a water storage cavity (75), a limiting stopper (76), a water filling port (77), a water outlet (78), an overflow port (79), a first tank door (710), a second tank door (711) and a second communicating hole (712); a point carbon cavity I (73) is arranged in the box body II (70), the point carbon cavity I (73) is tightly attached to the front wall and the lower wall of the box body II (70), the lower end of the point carbon cavity I (73) is arranged in an open manner and is a communication hole II (712) communicated with the communication hole I (610), a carbon placing port I (71) and a carbon placing port II (72) communicated with the point carbon cavity I (73) are sequentially arranged on the front wall of the box body II (70) from top to bottom, a box door I (710) with a sealing effect is hinged on the carbon placing port I (71), a box door II (711) with a sealing effect is hinged on the carbon placing port II (72), a water storage cavity (75) is formed between the point carbon cavity I (73) and the box body II (70), a water injection port (77) is arranged on the upper wall of the water storage cavity (75), a water outlet (78) is arranged on the side wall of the water storage cavity (75) close to the lower wall, and a stopper (76) for controlling the water level is arranged on the rear wall of the water storage cavity (75) close to the upper wall, the water storage cavity (75) and the water outlet (78) are arranged on the same side wall, a water overflow port (79) is formed in the same side wall, the height position of the water overflow port (79) is located between a limiting stopper (76) and the upper wall of the second box body (70), the first exhaust pipe (74) is arranged on the upper portion of the rear wall of the first point carbon cavity (73), and the first exhaust pipe (74) penetrates through the water storage cavity (75) to be communicated with the outside of the second box body (70) and is connected with the air suction pipe (41).

7. The efficient energy-saving carbon lighting machine as claimed in claim 1, wherein: the smoke filtering box (4) comprises a box body five (40), an air suction pipe (41), an exhaust pipe two (42) and a filter plate (43); the air intake of aspiration channel (41) links to each other with exhaust pipe (74), and the air outlet of exhaust pipe two (42) links to each other with exhaust fan (5), aspiration channel (41) and exhaust pipe two (42) all communicate with five (40) of box, and is equipped with filter plate (43) between the air outlet of aspiration channel (41) and exhaust pipe two (42) air intake, filter plate (43) and the upper wall of five (40) of box and left and right sides wall fixed connection and with the lower wall within a definite time leave the space, filter plate (43) are netted board, pour into water in five (40) of box, water level and filter plate (43) down along the parallel and level.

8. The efficient energy-saving carbon lighting machine as claimed in claim 6, wherein: the preheating air box (8) comprises a box body III (80), a communicating hole III (81), a communicating hole IV (82), a carbon counting cavity II (83), a carbon placing hole III (84), a preheating cavity (85), an air inlet (88), an air outlet (89), a box door III (810), a plurality of porous plates (86) and a plurality of plate fins (87); a point carbon cavity II (83) is vertically arranged in the box body III (80) in a penetrating way, the point carbon cavity II (83) is arranged close to the front wall of the box body III (80), the lower port of the point carbon cavity II (83) is a communication hole III (81), the upper port of the point carbon cavity II (83) is a communication hole IV (82), a preheating cavity (85) is formed between the second carbon ignition cavity (83) and the third box body (80), a plurality of porous plates (86) are arranged in the preheating cavity (85), a plurality of plate fins (87) are arranged between every two adjacent and parallel porous plates (86), the plurality of plate fins (87) are arranged on the outer side wall of the second charcoal lighting cavity (83), and are arranged in the same row from top to bottom, the left side wall and the right side wall of the box body III (80) are respectively provided with an air inlet (88) and an air outlet (89), a charcoal placing opening III (84) is formed in the front wall of the charcoal dispensing cavity II (83), and a box door III (810) with a sealing effect is hinged to the charcoal placing opening III (84).

9. The efficient energy-saving carbon lighting machine as claimed in claim 8, wherein: the oven (9) comprises a box body IV (90), a carbon counting cavity III (91), a carbon placing opening IV (92), a communication hole V (93), a communication hole VI (94), a box door IV (97), a plurality of baking grids (95) and a plurality of drawing baking baskets (96); run through from top to bottom in box four (90) and be provided with some charcoal chamber three (91), some charcoal chamber three (91) hug closely box four (90) antetheca setting, and some charcoal chamber three (91) lower port is that the intercommunicating pore is five (93) to go up the port and is six (94) for the intercommunicating pore, and some charcoal chamber three (91) and box four (90) within a definite time vacuole formation set up a plurality of plywoods in the cavity and form a plurality of roast check (95), a plurality of roast basket (96) of pull installation in roast check (95), put charcoal mouth four (92) have been seted up on box four (90) antetheca, put four (92) shangjungs of charcoal mouth and be equipped with four (97) of chamber door that have the sealing effect.

10. The efficient energy-saving carbon lighting machine as claimed in claim 9, wherein: the carbon taking port (611), the carbon placing port I (71), the carbon placing port II (72), the carbon placing port III (84) and the carbon placing port IV (92) are all arranged in a downward inclined mode from inside to outside.

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