CN113261570A

CN113261570A - Carbon gas mixes energy-conserving oven of stainless steel

Info

Publication number: CN113261570A
Application number: CN202110557450.0A
Authority: CN
Inventors: 林明建; 钱庆伟
Original assignee: Jiaxing Sunstone Metal Products Co ltd
Current assignee: Jiaxing Sunstone Metal Products Co ltd
Priority date: 2021-05-21
Filing date: 2021-05-21
Publication date: 2021-08-17

Abstract

The invention relates to the field of ovens, in particular to a carbon-gas mixed stainless steel energy-saving oven which comprises an oven body, wherein inclined bodies are arranged at two ends of the oven body, a bottom plate is arranged at the bottom of the lower inclined body, an installation block is arranged at the upper end of the bottom plate, an accommodating cavity is formed in the installation block, and a carbon block is arranged in the accommodating cavity. The natural gas pipeline is arranged at the bottom end of the lower inclined body and arranged in the vent pipe, so that carbon gas mixing is realized, after the carbon block is combusted, the air can be continuously ventilated for barbecue, the waste of time for replacing the carbon block is avoided, and the barbecue efficiency is improved; the surface processing device comprises the driving mechanism, in the using process, the first motor realizes the rotation of the first polishing wheel and the second polishing wheel through a single driving source, the inclined body and the furnace body can be polished simultaneously, the working efficiency is improved, the upward and downward gradual polishing can be realized through the driving of the first moving mechanism and the second moving mechanism, and the polishing quality is ensured without dead angles in working.

Description

Carbon gas mixes energy-conserving oven of stainless steel

Technical Field

The invention relates to the field of ovens, in particular to a carbon gas mixed stainless steel energy-saving oven.

Background

The oven mainly used barbecue food, like roast duck etc. including the furnace shaft, go up oblique body and oblique body down, current oven is most all the carbon roast, and single barbecue mode leads to the barbecue unfinished time carbon piece to have burnt the completion easily, changes the carbon piece waste time, influences the barbecue quality.

Meanwhile, in order to increase the service life of the oven, it is necessary to perform surface treatment of the inclined body and the oven body, surface polishing, surface painting on the bottom surface of the next step, and the like. In the polishing process, the cylindrical furnace body and the circular truncated cone of the inclined body can only be separately processed, so that the working efficiency is reduced.

Disclosure of Invention

In order to solve the defects in the background technology, the invention aims to provide a carbon gas mixed stainless steel energy-saving oven.

The purpose of the invention can be realized by the following technical scheme:

a carbon gas mixed stainless steel energy-saving oven comprises an oven body, wherein inclined bodies are respectively arranged at two ends of the oven body, an upper inclined body and a lower inclined body are respectively arranged at the upper end and the bottom end of the oven body, each inclined body comprises an upper inclined body and a lower inclined body, the upper inclined body and the lower inclined body are both in a hollow circular truncated cone shape, and the structures of the upper inclined body and the lower inclined body are the same;

the furnace body is integrally cylindrical, furnace body folding edges are arranged at the upper end and the lower end of the furnace body, an observation window is formed in the side wall of the furnace body, an upper inclined body folding edge is arranged at the bottom end of the upper inclined body, an annular hanging ring is arranged in the upper inclined body and close to the top end, and the annular hanging ring is fixed on the inner wall of the upper inclined body through a connecting rod;

the upper end of the lower inclined body is provided with a lower inclined body folding edge, the bottom end of the lower inclined body is provided with a supporting leg, the bottom of the lower inclined body is provided with a bottom plate, a threaded hole is formed in the center of the bottom plate, a threaded ring is connected in the threaded hole, an installation block fixed in the center of the bottom plate is arranged at the upper end of the threaded hole, a containing cavity is formed in the installation block, a reinforcing rib is arranged at the top end of the containing cavity, a ventilating pipe is arranged between the reinforcing ribs, a carbon block is arranged in the containing cavity, and a cylindrical groove formed in the center of the carbon block is matched with the ventilating pipe.

Furthermore, the furnace body folding edge, the upper inclined body folding edge and the lower inclined body folding edge are hermetically installed.

Furthermore, the upper end of the upper inclined body is provided with a cover plate, and the cover plate is provided with a vent hole which can be opened and closed freely.

Furthermore, the surface processing device of the oven comprises a supporting mechanism, a driving mechanism is mounted at the side end of the supporting mechanism, the driving mechanism comprises a first polishing wheel capable of realizing revolution and rotation, the first polishing wheel is obliquely arranged and has the same inclination angle with the oblique body, the driving mechanism further comprises a second polishing wheel capable of realizing rotation, and the driving sources of the second polishing wheel and the first polishing wheel are both first motors;

and a first moving mechanism for driving the inclined body to move up and down and a second moving mechanism for driving the furnace body to move up and down are respectively arranged at two side ends of the driving mechanism, and the inclined body and the furnace body are respectively polished by the first polishing wheel and the second polishing wheel in the upward movement process.

Furthermore, the supporting mechanism comprises a side plate in an L shape, a top plate, a first supporting plate and a second supporting plate are arranged at the side end of the side plate from top to bottom respectively, a first limiting hole and a second limiting hole are formed in the first supporting plate and the second supporting plate respectively, and a first connecting plate and a second connecting plate are arranged at the side end of the first supporting plate and the side end of the second supporting plate respectively.

Furthermore, the driving mechanism comprises a first motor fixed at the upper end of the top plate, a driving shaft is fixed at the output end of the first motor, an eccentric shaft is fixed at the side end of the driving shaft, a first rotating shaft which is in limited rotation with a first limiting hole is rotatably connected in the eccentric shaft, a first gear and a limiting block are fixed on the side wall of the first rotating shaft, the limiting block and a second limiting hole are in limited rotation, and a first polishing wheel is installed at the bottom end of the first rotating shaft;

a second rotating shaft which is rotatably arranged between the first connecting plate and the second connecting plate is arranged on the side of the driving shaft, the driving shaft is connected with the second rotating shaft through a belt, and a second gear which is in meshing transmission with the first gear is fixed on the side wall of the second rotating shaft;

and a third rotating shaft which is rotatably arranged between the first connecting plate and the second connecting plate is arranged on the side of the second rotating shaft, a third gear which is in meshing transmission with the second gear is fixed at the side end of the third rotating shaft, and a second polishing wheel is fixed on the second rotating shaft.

Further, the first moving mechanism comprises a first fixing plate fixed at the side end of the side plate, a first servo motor is fixed at the upper end of the first fixing plate, a first lead screw is fixed at the output end of the first servo motor, a first lead screw nut is connected onto the first lead screw, a first receiving plate is fixed onto the first lead screw nut, the inner side end of the first receiving plate is arranged at the side end of the first fixing plate through a first guide rail slider pair in a sliding mode, a first placing plate is fixed at the outer side end of the first receiving plate, and a first polygonal prism is arranged at the upper end of the first placing plate.

Further, an upper inclined body tangent to the first polishing wheel is arranged above the first placing plate, a first limiting supporting plate is arranged inside the upper inclined body, a first polygonal hole in limiting fit with the first polygonal prism is formed in the bottom end of the first limiting supporting plate, a plurality of threaded through holes are formed in the side wall of the first limiting supporting plate, threaded limiting columns are connected in the threaded through holes in a threaded mode, the inner end portions of the threaded limiting columns are arranged to be cambered surfaces, and the cambered surfaces are abutted to the inner wall of the upper inclined body.

Furthermore, the second moving mechanism comprises a second fixing plate fixed at the side end of the side plate, a second servo motor is fixed at the upper end of the second fixing plate, a second lead screw is fixed at the output end of the second servo motor, a second lead screw nut is connected onto the second lead screw, a second receiving plate is fixed onto the second lead screw nut, the inner side end of the second receiving plate is arranged at the side end of the second fixing plate through a second guide rail slider pair in a sliding mode, a second placing plate is fixed at the outer side end of the second receiving plate, a second motor is fixed at the bottom end of the second placing plate, and a second polygonal prism is fixed at the output end of the second motor.

Further, the top that the board was placed to the second is provided with the furnace shaft that sets up with the second buffing wheel is tangent, the inside of furnace shaft is provided with fixture, fixture includes the locating plate, the both ends of locating plate are all rotated and are connected with the centre gripping arm, waist type hole has all been opened to the side of centre gripping arm, waist type downthehole slip is provided with the lifter plate, the upper end of lifter plate is rotated and is connected with the fastening screw who runs through the locating plate, the both ends of lifter plate have all stipulated the linking arm, the bottom mounting of linking arm has the second spacing extension board of setting in the furnace shaft, the bottom of the spacing extension board of second is opened has the second polygon hole with the spacing complex of the prismatic of second polygon.

The invention has the beneficial effects that:

1. the oven comprises the inclined body and the oven body, when the oven is used, the carbon block is arranged in the accommodating cavity, the threaded ring is matched with the threaded hole, the position of the carbon block is fixed, flame is burnt after the carbon block is ignited, meanwhile, the natural gas pipeline is arranged at the bottom end of the lower inclined body and is arranged in the vent pipe, so that carbon gas mixing is realized, after the carbon block is burnt, the air can be continuously ventilated for barbecue, the waste of time caused by replacing the carbon block is avoided, and the barbecue efficiency is improved;

2. the surface processing device comprises the driving mechanism, in the using process, the first motor realizes the rotation of the first polishing wheel and the second polishing wheel through a single driving source, the inclined body and the furnace body can be polished simultaneously, the working efficiency is improved, the upward and downward gradual polishing can be realized through the driving of the first moving mechanism and the second moving mechanism, and the polishing quality is ensured without dead angles in working.

Drawings

In order to more clearly illustrate the embodiments or technical solutions in the prior art of the present invention, the drawings used in the description of the embodiments or prior art will be briefly described below, and it is obvious for those skilled in the art to obtain other drawings without creative efforts;

FIG. 1 is a schematic view of the overall structure of the oven of the present invention;

FIG. 2 is a schematic exploded view of the oven of the present invention;

FIG. 3 is a schematic view of the present invention showing a lower inclined body;

FIG. 4 is a schematic view of the surface treatment apparatus of the oven of the present invention;

FIG. 5 is a schematic view of a support mechanism of the surface treating apparatus of the present invention;

FIG. 6 is a schematic view of a drive mechanism of the surface treating apparatus of the present invention;

figure 7 is a schematic view of a second buffing wheel of the surface treating apparatus of the present invention;

FIG. 8 is a schematic view of a first moving mechanism of the surface working apparatus of the present invention;

FIG. 9 is a schematic view showing a part of the first moving mechanism of the surface working apparatus according to the present invention;

FIG. 10 is a schematic view of a second moving mechanism of the surface working apparatus of the present invention;

FIG. 11 is a schematic view of a clamping mechanism of the surface treating apparatus of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

A carbon gas mixed stainless steel energy-saving oven is shown in figures 1-3 and comprises an oven body 1, oblique bodies are mounted at two ends of the oven body 1, an upper oblique body 2 and a lower oblique body 3 are mounted at the upper end and the bottom end of the oven body 1 respectively, the oblique bodies comprise an upper oblique body 2 and a lower oblique body 3, the upper oblique body 2 and the lower oblique body 3 are both in a hollow circular truncated cone shape, and the upper oblique body 2 and the lower oblique body 3 are identical in structure.

The whole body of furnace body 1 is cylindricly, the upper end and the lower extreme of furnace body 1 all are provided with furnace body hem 11, open the lateral wall of furnace body 1 has observation window 12, the bottom of going up oblique body 2 sets up oblique body hem 21, the position that the inside of going up oblique body 2 is close to the top is provided with annular hanging ring 22, annular hanging ring 22 passes through connecting rod 221 and fixes the inner wall at last oblique body 2, annular hanging ring 22 is used for hanging food such as roast duck, the upper end of going up oblique body 2 is provided with apron 23, it has the air vent 231 that freely opens and shuts to open on the apron 23.

The upper end of the lower inclined body 3 is provided with a lower inclined body folding edge 31, and the furnace body folding edge 11, the upper inclined body folding edge 21 and the lower inclined body folding edge 31 are all installed in a sealing mode. The bottom of the lower inclined body 3 is provided with a supporting leg 32, the bottom of the lower inclined body 3 is provided with a bottom plate 33, a threaded hole 331 is formed in the center position of the bottom plate 33, a threaded ring 332 is connected in the threaded hole 331 in a threaded manner, an installation block 34 fixed in the center position of the bottom plate 33 is arranged at the upper end of the threaded hole 331, an accommodating cavity 341 is formed in the installation block 34, a reinforcing rib 342 is arranged at the top end of the accommodating cavity 341, a vent pipe 343 is arranged between the reinforcing ribs 342, a carbon block 35 is arranged in the accommodating cavity 341, and a cylindrical groove formed in the center of the carbon block 35 is matched with the vent pipe 343.

When the carbon block 35 is used, the carbon block 35 is arranged in the accommodating cavity 341, the threaded ring 332 is matched with the threaded hole 331, the position of the carbon block 35 is fixed, and flame combustion is carried out after the carbon block 35 is ignited. Meanwhile, a natural gas pipeline is installed at the bottom end of the lower inclined body 3 and is arranged in the vent pipe 343, so that carbon gas mixing is realized, after the carbon block is combusted, the air can be continuously vented for barbecue, the waste of time for replacing the carbon block is avoided, and the barbecue efficiency is improved.

As shown in fig. 4, the surface processing device of the oven includes a supporting mechanism 4, a driving mechanism 5 is installed at a side end of the supporting mechanism 4, the driving mechanism 5 includes a first polishing wheel 55 capable of revolving and rotating, the first polishing wheel 55 is arranged obliquely and has the same inclination angle as the inclined body, the driving mechanism 5 further includes a second polishing wheel 572 capable of rotating, and the driving sources of the second polishing wheel 572 and the first polishing wheel 55 are both a first motor 51;

the two side ends of the driving mechanism 5 are respectively provided with a first moving mechanism 6 for driving the inclined body to move up and down and a second moving mechanism 7 for driving the furnace body 1 to move up and down, and the first polishing wheel 55 and the second polishing wheel 572 respectively polish the inclined body and the furnace body 1 in the upward movement process.

As shown in fig. 5, the supporting mechanism 4 includes a side plate 40 having an L-shape, a top plate 41, a first supporting plate 42 and a second supporting plate 44 are respectively disposed at side ends of the side plate 40 from top to bottom, a first limiting hole 421 and a second limiting hole 441 are respectively opened on the first supporting plate 42 and the second supporting plate 44, and a first connecting plate 43 and a second connecting plate 45 are respectively disposed at side ends of the first supporting plate 42 and the second supporting plate 44.

As shown in fig. 6 and 7, the driving mechanism 5 includes a first motor 51 fixed on the upper end of the top plate 41, an output end of the first motor 51 is fixed with a driving shaft 52, a side end of the driving shaft 52 is fixed with an eccentric shaft 53, the eccentric shaft 53 is rotatably connected with a first rotating shaft 54 which is rotatably limited by a first limiting hole 421, a side wall of the first rotating shaft 54 is fixed with a first gear 541 and a limiting block 542, the limiting block 542 and a second limiting hole 441 are rotatably limited, and a first polishing wheel 55 is installed at the bottom end of the first rotating shaft 54;

a second rotating shaft 56 which is rotatably arranged between the first connecting plate 43 and the second connecting plate 45 is arranged on the side of the driving shaft 52, the driving shaft 52 is connected with the second rotating shaft 56 through a belt 561, and a second gear 562 which is in meshing transmission with the first gear 541 is fixed on the side wall of the second rotating shaft 56;

a third rotating shaft 57 rotatably arranged between the first connecting plate 43 and the second connecting plate 45 is arranged at the side of the second rotating shaft 56, a third gear 571 in meshing transmission with the second gear 562 is fixed at the side end of the third rotating shaft 57, and a second polishing wheel 572 is fixed on the second rotating shaft 56.

When the first motor 51 is driven, the drive shaft 52 rotates to rotate the second gear 562 and further to rotate the first rotating shaft 54 and the third rotating shaft 57, so that the first polishing wheel 55 and the second polishing wheel 572 rotate, and the first rotating shaft 54 revolves while the eccentric shaft 53 rotates, so that the first polishing wheel 55 revolves.

As shown in fig. 8 and 9, the first moving mechanism 6 includes a first fixing plate 61 fixed at a side end of the side plate 40, a first servo motor 62 is fixed at an upper end of the first fixing plate 61, a first lead screw 621 is fixed at an output end of the first servo motor 62, a first lead screw nut 622 is connected to the first lead screw 621, a first receiving plate 63 is fixed to the first lead screw nut 622, an inner end of the first receiving plate 63 is slidably disposed at a side end of the first fixing plate 61 through a first guide rail slider pair 64, a first placing plate 65 is fixed at an outer end of the first receiving plate 63, and a first polygonal prism 651 is disposed at an upper end of the first placing plate 65.

An upper inclined body 2 tangent to the first polishing wheel 55 is arranged above the first placing plate 65, a first limiting support plate 66 is arranged inside the upper inclined body 2, a first polygonal hole 661 in limiting fit with a first polygonal prism 651 is arranged at the bottom end of the first limiting support plate 66, a plurality of threaded through holes 662 are formed in the side wall of the first limiting support plate 66, threaded limiting columns 663 are connected in the threaded through holes 662 in a threaded mode, the inner end portions of the threaded limiting columns 663 are arranged to be cambered surfaces, and the cambered surfaces abut against the inner wall of the upper inclined body 2.

When the upper inclined body 2 is used, the upper inclined body 2 is abutted and fixed through the first limiting support plate 66, then the first polygonal prism 651 is matched with the first polygonal hole 661, the position of the upper inclined body 2 is fixed, the first servo motor 62 is driven, and in the process that the first bearing plate 63 drives the upper inclined body 2 to move upwards, the outer surface of the upper inclined body 2 is polished through revolution and rotation of the first polishing wheel 55.

As shown in fig. 10 and 11, the second moving mechanism 7 includes a second fixed plate 71 fixed to the side end of the side plate 40, a second servo motor 72 is fixed to the upper end of the second fixed plate 71, a second lead screw 721 is fixed to the output end of the second servo motor 72, a second lead screw nut 722 is connected to the second lead screw 721, a second receiving plate 73 is fixed to the second lead screw nut 722, the inner end of the second receiving plate 73 is slidably disposed on the side end of the second fixed plate 71 through a second rail slider pair 74, a second placing plate 75 is fixed to the outer end of the second receiving plate 73, a second motor 76 is fixed to the bottom end of the second placing plate 75, and a second polygonal prism is fixed to the output end of the second motor 76.

The top that the board 75 was placed to the second is provided with the furnace shaft 1 of tangent setting with second buffing wheel 572, the inside of furnace shaft 1 is provided with fixture 8, fixture 8 includes locating plate 81, the both ends of locating plate 81 are all rotated and are connected with centre gripping arm 82, waist type hole 821 has all been opened to the side of centre gripping arm 82, it is provided with lifter plate 83 to slide in waist type hole 821, lifter plate 83's upper end is rotated and is connected with fastening screw 84 that runs through locating plate 81, there is connecting arm 85 all stipulated at lifter plate 83's both ends, the bottom mounting of connecting arm 85 has the spacing extension board 86 of second that sets up in furnace shaft 1, the bottom of the spacing extension board 86 of second is opened have with the prismatic spacing complex second polygon hole of second polygon.

In use, the furnace shell 1 is first fixed by the holding mechanism 8, the fastening screw 84 is rotated, the holding arms 82 are opened outward until the holding arms 82 abut against the inner wall of the furnace shell 1, and the holding mechanism 8 and the furnace shell 1 are first fixed. Then, the second polygonal hole at the bottom end of the second limiting support plate 86 is in limiting fit with the second polygonal prism, the second motor 76 and the second servo motor 72 are driven, the furnace body 1 moves upwards and rotates, and the second polishing wheel 572 rotates to polish the furnace body 1.

In the using process, the first motor 51 with a single driving source realizes the rotation of the first polishing wheel 55 and the second polishing wheel 572, so that the inclined shaft and the furnace body 1 can be polished simultaneously, and the working efficiency is improved. Through the driving of the first moving mechanism 6 and the second moving mechanism 7, upward and downward gradual polishing can be realized, and the polishing quality is ensured without dead angles in work.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed.

Claims

1. The energy-saving carbon-gas mixed stainless steel oven is characterized by comprising an oven body (1), inclined bodies are mounted at two ends of the oven body (1), an upper inclined body (2) and a lower inclined body (3) are mounted at the upper end and the bottom end of the oven body (1) respectively, each inclined body comprises the upper inclined body (2) and the lower inclined body (3), the upper inclined body (2) and the lower inclined body (3) are both in a hollow circular truncated cone shape, and the upper inclined body (2) and the lower inclined body (3) are identical in structure;

the furnace body (1) is integrally cylindrical, furnace body folded edges (11) are arranged at the upper end and the lower end of the furnace body (1), an observation window (12) is formed in the side wall of the furnace body (1), an upper inclined body folded edge (21) is arranged at the bottom end of the upper inclined body (2), an annular hanging ring (22) is arranged in the upper inclined body (2) at a position close to the top end, and the annular hanging ring (22) is fixed on the inner wall of the upper inclined body (2) through a connecting rod (221);

the upper end of the lower inclined body (3) is provided with a lower inclined body folding edge (31), the bottom end of the lower inclined body (3) is provided with a supporting leg (32), the bottom of the lower inclined body (3) is provided with a bottom plate (33), the central position of the bottom plate (33) is provided with a threaded hole (331), the threaded hole (331) is connected with a threaded ring (332) in a threaded manner, the upper end of the threaded hole (331) is provided with a mounting block (34) fixed at the central position of the bottom plate (33), the inside of the mounting block (34) is provided with a containing cavity (341), the top end of the containing cavity (341) is provided with a reinforcing rib (342), a vent pipe (343) is arranged between the reinforcing ribs (342), a carbon block (35) is arranged in the containing cavity (341), and a cylindrical groove formed in the center of the carbon block (35) is matched with the vent pipe (343).

2. The carbon gas mixing stainless steel energy-saving oven of claim 1, wherein the furnace shell flange (11), the upper inclined shell flange (21) and the lower inclined shell flange (31) are hermetically mounted.

3. The energy-saving oven of claim 1, wherein a cover plate (23) is disposed at the upper end of the upper inclined body (2), and the cover plate (23) is provided with a vent hole (231) which can be opened and closed freely.

4. The carbon gas mixing stainless steel energy-saving oven as recited in claim 1, wherein the surface processing device of the oven comprises a supporting mechanism (4), a driving mechanism (5) is installed at a side end of the supporting mechanism (4), the driving mechanism (5) comprises a first polishing wheel (55) capable of revolving and rotating, the first polishing wheel (55) is arranged obliquely and has the same inclination angle as the inclined body, the driving mechanism (5) further comprises a second polishing wheel (572) capable of rotating, and the driving sources of the second polishing wheel (572) and the first polishing wheel (55) are both a first motor (51);

and a first moving mechanism (6) for driving the inclined body to move up and down and a second moving mechanism (7) for driving the furnace body (1) to move up and down are respectively arranged at two side ends of the driving mechanism (5), and a first polishing wheel (55) and a second polishing wheel (572) respectively polish the inclined body and the furnace body (1) in the upward movement process.

5. The carbon gas mixing stainless steel energy-saving oven as recited in claim 4, wherein the support mechanism (4) comprises an L-shaped side plate (40), a top plate (41), a first support plate (42) and a second support plate (44) are respectively arranged at the side end of the side plate (40) from top to bottom, a first limiting hole (421) and a second limiting hole (441) are respectively formed in the first support plate (42) and the second support plate (44), and a first connecting plate (43) and a second connecting plate (45) are respectively arranged at the side end of the first support plate (42) and the second support plate (44).

6. The carbon gas mixing stainless steel energy-saving oven as recited in claim 4, wherein the driving mechanism (5) comprises a first motor (51) fixed on the upper end of the top plate (41), the output end of the first motor (51) is fixed with a driving shaft (52), the side end of the driving shaft (52) is fixed with an eccentric shaft (53), the eccentric shaft (53) is rotatably connected with a first rotating shaft (54) rotatably limited by the first limiting hole (421), the side wall of the first rotating shaft (54) is fixed with a first gear (541) and a limiting block (542), the limiting block (542) and a second limiting hole (441) are rotatably limited, and the first polishing wheel (55) is mounted on the bottom end of the first rotating shaft (54);

a second rotating shaft (56) which is rotatably arranged between the first connecting plate (43) and the second connecting plate (45) is arranged on the side of the driving shaft (52), the driving shaft (52) is connected with the second rotating shaft (56) through a belt (561), and a second gear (562) which is in meshing transmission with the first gear (541) is fixed on the side wall of the second rotating shaft (56);

a third rotating shaft (57) which is rotatably arranged between the first connecting plate (43) and the second connecting plate (45) is arranged on the side of the second rotating shaft (56), a third gear (571) which is in meshing transmission with the second gear (562) is fixed at the side end of the third rotating shaft (57), and a second polishing wheel (572) is fixed on the second rotating shaft (56).

7. The carbon-gas mixed stainless steel energy-saving oven as claimed in claim 4, wherein the first moving mechanism (6) comprises a first fixing plate (61) fixed at the side end of the side plate (40), a first servo motor (62) is fixed at the upper end of the first fixing plate (61), a first lead screw (621) is fixed at the output end of the first servo motor (62), a first lead screw nut (622) is connected to the first lead screw (621), a first bearing plate (63) is fixed to the first lead screw nut (622), the inner side end of the first bearing plate (63) is slidably arranged at the side end of the first fixing plate (61) through a first guide rail slider pair (64), a first placing plate (65) is fixed at the outer side end of the first bearing plate (63), and a first polygonal prism (651) is arranged at the upper end of the first placing plate (65).

8. The carbon gas mixing stainless steel energy-saving oven as claimed in claim 7, wherein an upper inclined body (2) is arranged above the first placing plate (65) and is tangent to the first polishing wheel (55), a first limiting support plate (66) is arranged inside the upper inclined body (2), a first polygonal hole (661) which is in limiting fit with the first polygonal prism (651) is arranged at the bottom end of the first limiting support plate (66), a plurality of threaded through holes (662) are formed in the side wall of the first limiting support plate (66), threaded limiting columns (663) are connected in the threaded through holes (662) in a threaded manner, the inner end portions of the threaded limiting columns (663) are arranged to be cambered surfaces, and the cambered surfaces are abutted against the inner wall of the upper inclined body (2).

9. The carbon gas mixing stainless steel energy-saving oven of claim 4, the second moving mechanism (7) comprises a second fixing plate (71) fixed at the side end of the side plate (40), a second servo motor (72) is fixed at the upper end of the second fixing plate (71), a second lead screw (721) is fixed at the output end of the second servo motor (72), a second lead screw nut (722) is connected onto the second lead screw (721), a second bearing plate (73) is fixed onto the second lead screw nut (722), the inner side end of the second bearing plate (73) is arranged at the side end of the second fixing plate (71) in a sliding mode through a second guide rail slider pair (74), a second placing plate (75) is fixed onto the outer side end of the second bearing plate (73), a second motor (76) is fixed at the bottom end of the second placing plate (75), and a second polygonal prism is fixed at the output end of the second motor (76).

10. The carbon gas mixing stainless steel energy-saving oven of claim 9, a furnace body (1) tangent to a second polishing wheel (572) is arranged above the second placing plate (75), a clamping mechanism (8) is arranged inside the furnace body (1), the clamping mechanism (8) comprises a positioning plate (81), two ends of the positioning plate (81) are rotatably connected with clamping arms (82), waist-shaped holes (821) are formed in side ends of the clamping arms (82), a lifting plate (83) is slidably arranged in the waist-shaped holes (821), the upper end of the lifting plate (83) is rotatably connected with a fastening screw (84) penetrating through the positioning plate (81), connecting arms (85) are respectively specified at two ends of the lifting plate (83), a second limiting support plate (86) arranged in the furnace body (1) is fixed at the bottom end of each connecting arm (85), and a second polygonal hole in limiting fit with a second polygonal prism is formed in the bottom end of each second limiting support plate (86).