CN219109218U - Multifunctional electric carbon combined carbon oven - Google Patents

Abstract

The utility model provides a multi-functional electric carbon combines formula carbon oven relates to the carbon oven field, it includes the stove frame and locates the overware on the stove frame, slide on the stove frame and be connected with put the carbon box, put the carbon box and slide and stretch out or stretch into the stove frame, be equipped with the heating wire on the stove frame, it is connected with fan subassembly to rotate on the stove frame, be equipped with the connecting block on the lateral wall of fan subassembly, swing joint has the connecting rod on the connecting block, when the connecting rod rotates, the connecting rod passes through the connecting block and drives fan subassembly and rotate, the spacing groove has been seted up on the stove frame, slide on the stove frame and be connected with the footboard, one side that the footboard is close to the spacing groove tank bottom is equipped with the inclined plane, when the arm ache, replace manual realization fan through the foot to reduce the influence of arm ache to fan efficiency. And in actual barbecue, coal can be placed in the carbon placing groove for heating, and the carbon placing groove can be taken out for heating directly through the electric heating wire.

Description

Multifunctional electric carbon combined carbon oven

Technical Field

The present application relates to the field of charcoal ovens, and in particular, to a multifunctional electric charcoal-combined charcoal oven.

Background

In order to meet different demands of people on baked foods, various barbecue equipment is available on the market, wherein the carbon oven is most widely used, but when the carbon oven is used for baking foods, people are required to manually fan smoke generated during baking aside, arms are easy to be ache due to long-time manual fan, the fan efficiency is influenced, and the improvement is needed.

Disclosure of Invention

In order to reduce the impact of arm soreness on fan efficiency, the present application provides a multi-functional electric carbon-bonded charcoal oven.

The application provides a multi-functional electric carbon combines formula carbon oven adopts following technical scheme:

an electric carbon combined type carbon oven, wherein a carbon placing box is connected to a furnace frame in a sliding manner, the carbon placing box stretches out of or stretches into the furnace frame in a sliding manner, an electric heating wire is arranged on the furnace frame, and the electric heating wire is positioned on one side, far away from the baking tray, of the carbon placing box;

the baking oven is characterized in that a fan assembly is rotationally connected to the oven frame, the fan assembly is located on one side, close to the baking tray, of the oven frame, a connecting block is arranged on the outer side wall of the fan assembly, a connecting rod is movably connected to the connecting block, the connecting rod is rotationally connected to the oven frame, and when the connecting rod rotates, the connecting rod drives the fan assembly to rotate through the connecting block;

the utility model discloses a fan-shaped carbon box, including the fan-shaped carbon box, the fan-shaped carbon box is put to the fan-shaped carbon box, the spacing groove has been seted up on the stove frame, the connecting rod is kept away from the one end of fan-shaped carbon box stretches into in the spacing groove, it is connected with the footboard to slide on the stove frame, the footboard is located the connecting rod is kept away from one side of putting the carbon box, the footboard is close to one side of spacing groove tank bottom is equipped with the inclined plane, the inclined plane with the distance of spacing groove tank bottom inner wall is followed be close to the direction of connecting rod reduces gradually, the footboard slides to be close to or keep away from the tank bottom of spacing groove, the footboard with connecting rod butt, just the inner wall of spacing groove with inclined plane butt, the footboard is removed to be close to the spacing groove tank bottom drives the connecting rod rotates.

Through adopting above-mentioned technical scheme, when the arm felt the ache, the accessible foot was stepped on the footboard, and the footboard drives the connecting rod and rotates, and the connecting rod passes through the connecting block and drives fan subassembly rotation, loosens the footboard, and the connecting rod returns to vertical state because of self gravity effect, and the operation of repeatedly above-mentioned stepping on the footboard and loosening the footboard makes the reciprocating rotation of fan subassembly. When the arm is ache, the fan is realized manually by foot stepping replacement, so that the influence of the arm ache on the fan efficiency is reduced. And in actual barbecue, coal can be placed in the carbon placing groove for heating, and the carbon placing groove can be taken out for heating directly through the electric heating wire.

Preferably, the connecting block is provided with a yielding hole, one side of the connecting rod, which is close to the fan assembly, is provided with an extension rod, the extension rod penetrates through the yielding hole, the extension rod is provided with a positioning block, the positioning block is located at one side, away from the connecting rod, of the yielding hole, and the positioning block is used for being abutted against the connecting block.

Through adopting above-mentioned technical scheme, the connecting rod is when rotating, drives the extension rod and moves in the downthehole hole of stepping down, and through locating piece butt joint piece, drive the connecting block and remove to drive fan subassembly rotation.

Preferably, the fan assembly comprises a rotating column and a swinging fan, wherein the rotating column is rotationally connected to the furnace frame, the swinging fan is arranged on the rotating column, an elastic block is arranged on the rotating column, a cross groove is formed in the elastic block, the cross groove is closed when not stressed, and the swinging fan is clamped in by the cross groove.

Through above-mentioned technical scheme, along with the growth of live time, the wearing and tearing appear in the shake fan easily, influence the fan effect, through setting up the elastic block, when the shake fan appears wearing and tearing, can directly take off the shake fan of wearing and tearing, in the cross groove is gone into to the shake fan card that will change again, the elastic block takes place to deform, fixes a position the shake fan through the frictional force between shake fan and the elastic block, realizes the installation of shake fan for it is more convenient to change shake fan.

Preferably, the furnace frame is provided with a limiting rod, the pedal is provided with a positioning groove, and the limiting rod is clamped into the positioning groove and slides in the positioning groove along the inclined direction of the inclined surface.

Through above-mentioned technical scheme, the inner wall through gag lever post butt spacing groove is spacing to the footboard, has reduced the condition that the inclined plane breaks away from the inner wall of spacing groove.

Preferably, an elastic piece is arranged on the furnace frame and is positioned in the limiting groove, and the elastic piece abuts against the connecting rod, so that the connecting rod has a trend of being far away from the furnace frame.

Through adopting above-mentioned technical scheme, through setting up the elastic component for the connecting rod is when the slope, can be faster reset, thereby improves the speed of shaking fan fanning.

Preferably, the connecting rod is including locating pole portion on the connecting block and locating pivot on the pole portion, a plurality of through-holes have been seted up on the pole portion, a plurality of the through-hole is followed the length direction of pole portion distributes, a plurality of the through-hole is all supplied the pivot wears to establish, be equipped with locating component on the stove frame, locating component is used for the location the pivot.

Through the technical scheme, when in actual use, the rotating shaft is penetrated with different through holes, the distance between the rotating shaft and one end of the connecting rod, which is close to the swinging fan, is changed, and when the connecting rod rotates, the rotating angle of the connecting block, which drives the fan assembly, is changed, so that the wind power is changed.

Preferably, the positioning assembly comprises a sliding block, a first fixing rod and a second fixing rod, wherein the sliding block is connected to the furnace frame in a sliding mode, the first fixing rod and the second fixing rod are arranged on the sliding block, the positioning piece is arranged on the furnace frame, the first fixing rod and the second fixing rod are respectively arranged on two opposite sides of the rod portion, a first clamping groove for clamping the rotating shaft is formed in the first fixing rod, a through hole for penetrating the rotating shaft is formed in the second fixing rod, a clamping block is hinged to the second fixing rod, a second clamping groove is formed in the rotating shaft, and the second clamping groove is used for clamping the clamping block in a turnover mode when the rotating shaft is clamped in the first clamping groove.

Through the technical scheme, when the position of the rotating shaft needs to be replaced, the clamping block is rotated to enable the clamping block to be separated from the clamping groove II, and the rotating shaft can be pulled out. The sliding block is slid again to enable the clamping groove I, the through hole and the through hole to be penetrated to be positioned on the same straight line, the rotating shaft is penetrated to penetrate the through hole and clamped into the clamping groove I, the clamping block is rotated, the clamping block is clamped into the clamping groove II to position the rotating shaft, and therefore the position of the rotating shaft at the connecting rod is changed more conveniently.

Preferably, the furnace frame is provided with a sliding groove, the side wall of the sliding groove is provided with a clamping groove III, the sliding block is provided with a sliding block, the sliding block slides in the sliding groove, the sliding block slides in the clamping groove III, the inner wall of the groove bottom of the sliding groove is provided with a plurality of fixing grooves, the fixing grooves are distributed along the sliding direction of the sliding block, the locating piece is in threaded connection with the fixing grooves, and the locating piece extends out of the fixing grooves and is close to the end face butt of one side of the limiting groove.

Through above-mentioned technical scheme, the locating part butt is close to the terminal surface of spacing groove one side through the locating part slider, fixes a position the slider, makes the location slider more convenient.

Preferably, a baffle is arranged on the pedal, the baffle and the pedal are spliced to form a containing groove, and the containing groove is used for placing the foot.

Through above-mentioned technical scheme, when in actual use, put into the holding tank with the foot, carry out spacingly in the foot through baffle butt to make the foot be difficult for breaking away from the footboard at the in-process of stepping on the footboard.

In summary, the present application includes at least one of the following beneficial technical effects;

1. when the arm is ache, the fan is realized manually by foot stepping replacement, so that the influence of the arm ache on the fan efficiency is reduced. In actual barbecue, coal can be placed in the carbon placing groove for heating, and the carbon placing groove can be taken out for heating directly through the electric heating wire;

2. by arranging the elastic piece, the connecting rod can be reset more quickly when inclining, so that the fanning speed of the swinging fan is improved;

3. when in actual use, the rotating shaft is penetrated with different through holes, the distance between the rotating shaft and one end of the connecting rod, which is close to the swinging fan, is changed, and when the connecting rod rotates, the rotating angle of the connecting block, which drives the fan assembly, is changed, so that the wind power is changed.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present embodiment.

Fig. 2 is a schematic view of the embodiment partially cut away at the carbon box, mainly showing the structure of the heating wire.

Fig. 3 is a schematic view of the embodiment partially cut at the rotation post, mainly showing the structure at the groove.

Fig. 4 is a schematic view of a part of the structure of the present embodiment, mainly showing the state of the elastic block when the swing fan is not installed.

Fig. 5 is a schematic view of a part of the structure of the present embodiment, mainly showing the structure of the connecting rod.

Fig. 6 is a schematic view of a part of the structure of the present embodiment, mainly showing the structure at the bump.

Fig. 7 is a partial schematic view of the present embodiment, mainly showing the structure at the inclined surface.

Fig. 8 is a schematic view of a part of the structure of the present embodiment, mainly showing the structure of the positioning component.

Fig. 9 is a schematic structural view of the embodiment partially taken from the bottom up at the furnace body, mainly showing the structure in the sliding groove.

Reference numerals illustrate: 1. a furnace frame; 11. a furnace body; 111. a carbon box is arranged; 112. heating wires; 113. a slip groove; 1131. a clamping groove III; 1132. a fixing groove; 12. a bump; 121. a limit groove; 122. a pedal; 1221. an inclined surface; 1222. a positioning groove; 1223. a limiting block; 1224. a baffle; 1225. a receiving groove; 123. an elastic member; 13. a limit rod; 131. a first limiting part; 132. a second limiting part; 14. a positioning assembly; 141. a sliding block; 1411. a slide block; 142. a first fixed rod; 1421. a clamping groove I; 143. a second fixing rod; 1431. perforating; 1432. a clamping block; 144. a positioning piece; 2. a baking tray; 3. a fan assembly; 31. rotating the column; 32. swinging a fan; 321. a sector; 322. a fan handle; 33. a groove; 34. an elastic block; 341. a cross groove; 35. a connecting block; 351. a relief hole; 4. a connecting rod; 41. a stem portion; 411. an extension rod; 412. a positioning block; 413. a through hole; 42. a rotating shaft; 421. and a clamping groove II.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-9.

The embodiment of the application discloses a multifunctional electric carbon combined carbon oven. Referring to fig. 1, a multifunctional electric carbon combined type carbon oven comprises a oven frame 1 and a baking tray 2, wherein the oven frame 1 comprises an oven body 11 and a protruding block 12, the baking tray 2 is positioned at the upper end of the oven body 11, the baking tray 2 is fixedly connected with the oven body 11, the protruding block 12 is positioned on the side wall of the oven body 11 and is positioned at one end of the oven body 11 far away from the baking tray 2, the protruding block 12 is fixedly connected with the oven body 11, a carbon placing box 111 is connected onto the oven body 11 in a sliding mode, the carbon placing box 111 horizontally slides out of or stretches into the oven body 11, an electric heating wire 112 is fixed on the oven body 11, and when the carbon placing box 111 stretches into the oven body 11, the electric heating wire 112 is positioned at one side of the carbon placing box 111 far away from the baking tray 2.

Referring to fig. 2 and 3, a fan assembly 3 is rotatably connected to the furnace body 11, the fan assembly 3 comprises a rotating column 31 and a shaking fan 32, the rotating column 31 is positioned on the end face of the furnace body 11, which is close to the baking tray 2, and is positioned on one side of the furnace body 11, which is close to the protruding block 12, the rotating column 31 is rotatably connected to the furnace body 11, the rotating axis of the rotating column 31 is vertically arranged, a groove 33 is arranged on the peripheral wall of the rotating column 31, the groove 33 is positioned on one side of the rotating column 31, which is far away from the protruding block 12, an elastic block 34 is fixed on the rotating column 31, the elastic block 34 is positioned in the groove 33, a cross groove 341 is arranged on the elastic block 34, the notch of the cross groove 341 and the notch of the groove 33 are positioned on the same side, the cross groove 341 is in a closed arrangement when not stressed,

referring to fig. 3 and 4, the swing fan 32 includes a fan 321 and a fan handle 322, the cross groove 341 is used for the fan handle 322 to be clamped in, when the fan handle 322 is clamped in the cross groove 341, the fan 321 is located at one side of the fan handle 322 far away from the rotating post 31 and fixedly connected with the fan handle 322, the fan 321 is vertically arranged, and the fan 321 is positioned by friction between the fan handle 322 and the elastic block 34. In this embodiment, the elastic block 34 is made of rubber.

Referring to fig. 1 and 4, a connecting block 35 is fixed on the outer side wall of the rotating column 31, a connecting rod 4 is movably connected to the connecting block 35, the connecting rod 4 comprises a rod 41 and a rotating shaft 42, the rod 41 is rotatably connected to the furnace body 11, the rotating axis of the rod 41 is horizontally arranged, the rod 41 is located at one side of the connecting block 35 adjacent to the rotating column 31, an extension rod 411 is fixed at one side of the rod 41, which is close to the connecting block 35, a yielding hole 351 is formed in the connecting block 35, the extension rod 411 penetrates through the yielding hole 351, a positioning block 412 is fixed on the extension rod 411, the positioning block 412 is spherical, the positioning block 412 is located at one side, which is far away from the rod 41, of the yielding hole 351, and the positioning block 412 is used for being in butt connection with the connecting block 35.

Referring to fig. 4 and 5, the bump 12 is provided with a limiting groove 121, the limiting groove 121 is located at one side of the bump 12 close to the extension rod 411, and one end of the rod 41 away from the rotation column 31 extends into the limiting groove 121.

Referring to fig. 5 and 6, the pedal 122 is slidably connected to the bump 12, the pedal 122 is located on one side of the rod 41 away from the furnace body 11, the pedal 122 slides to approach or separate from the bottom of the limit groove 121, an inclined surface 1221 is formed on one side of the pedal 122 approaching the bottom of the limit groove 121, the distance between the inclined surface 1221 and the inner wall of the bottom of the limit groove 121 is gradually reduced along the direction approaching the rod 41, the sliding direction of the pedal 122 is parallel to the inclined direction of the inclined surface 1221, the inner wall of the limit groove 121 abuts against the inclined surface 1221, and when the pedal 122 moves to approach the bottom of the limit groove 121, the pedal 122 abuts against the rod 41 to drive the rod 41 to rotate towards the direction approaching the furnace body 11.

Referring to fig. 5 and 6, the elastic member 123 is fixed on the bump 12, the elastic member 123 is located in the limiting groove 121, the elastic member 123 is located at one side of the rod 41 away from the pedal 122, and the elastic member 123 abuts against the rod 41, so that the rod 41 has a tendency to rotate away from the furnace body 11. The elastic member 123 in this embodiment is a spring.

Referring to fig. 7, a positioning groove 1222 is formed in the pedal 122, a notch of the positioning groove 1222 is located on the inclined surface 1221, a length direction of the positioning groove 1222 is parallel to an inclination direction of the inclined surface 1221, limiting blocks 1223 are fixed on two opposite inner side walls of the positioning groove 1222 parallel to the length direction, a limiting rod 13 is fixed on the lug 12, the limiting rod 13 comprises a first limiting part 131 and a second limiting part 132, the second limiting part 132 is fixed on the lug 12, the second limiting part 132 is located on one side of the lug 12 close to the rod 41, the first limiting part 131 is located on one side of the second limiting part 132 away from the lug 12, the first limiting part 131 is clamped into the positioning groove 1222 and slides in the positioning groove 1222 along the inclination direction of the inclined surface 1221, the second limiting part 132 penetrates out from a gap between the two limiting blocks 1223, and the first limiting block 1223 abuts against the first limiting part 131 to limit the first limiting part 131.

Referring to fig. 7, a baffle 1224 is fixed on an end surface of the pedal 122 far from the bottom of the limiting groove 121, the baffle 1224 is located on one side of the pedal 122 far from the furnace body 11, the baffle 1224 and the pedal 122 are spliced to form a containing groove 1225, the containing groove 1225 is used for placing feet, and when the feet are placed in the containing groove 1225.

Referring to fig. 8, a plurality of through holes 413 are formed in the rod 41, the through holes 413 are uniformly distributed along the length direction of the rod 41, the through holes 413 are all used for penetrating the rotating shaft 42, a positioning component 14 is arranged on the furnace body 11, and the positioning component 14 is used for positioning the rotating shaft 42.

Referring to fig. 5 and 8, the positioning assembly 14 includes a sliding block 141, a first fixing rod 142, a second fixing rod 143 and a positioning member 144, the sliding block 141 is slidably connected to the furnace body 11, the sliding block 141 is slidably close to or far away from the rotating column 31, the first fixing rod 142 and the second fixing rod 143 are located at one side of the sliding block 141 far away from the furnace body 11, the first fixing rod 142 and the second fixing rod 143 are respectively located at two opposite sides of the rod 41, a clamping groove 1421 is formed in the first fixing rod 142, the clamping groove 1421 is used for clamping the rotating shaft 42, a through hole 1431 is formed in the second fixing rod 143 for the rotating shaft 42 to penetrate through, a clamping block 1432 is hinged to the second fixing rod 143, a hinge axis of the clamping block 1432 is parallel to a rotating axis of the rod 41, the clamping block 1432 is located at one side of the second fixing rod 143 far away from the rod 41, and the clamping groove 421 is formed in the rotating shaft 42, and when the rotating shaft 42 penetrates through the through hole 1431 and the through hole 413 to be clamped into the clamping groove 1421, the clamping groove 421 is used for overturning and clamping the clamping block 2.

Referring to fig. 5 and 9, a sliding groove 113 is formed in the side wall of the furnace body 11, which is close to the protruding block 12, a sliding block 141 slides in the sliding groove 113, a sliding block 1411 is fixed on the sliding block 141, and the sliding block 1411 is positioned on one side of the sliding block 141, which is close to the first fixed rod 142; the side wall of the sliding groove 113, which is close to the first fixing rod 142, is provided with a third clamping groove 1131, the third clamping groove 1131 is used for clamping the sliding block 1411, and the sliding block 1411 slides in the third clamping groove 1131. A plurality of fixing grooves 1132 are formed in the inner wall of the groove bottom of the sliding groove 113, the fixing grooves 1132 are uniformly distributed along the sliding direction of the sliding block 141, the positions and the number of the fixing grooves 1132 are in one-to-one correspondence with those of the through holes 413, the positioning pieces 144 are in threaded connection with the fixing grooves 1132, and the part, extending out of the fixing grooves 1132, of the positioning pieces 144 is abutted with the end face, close to one side of the limiting groove 121, of the sliding block 141. The positioning member 144 in this embodiment is a bolt.

In actual use, moving the sliding block 141 aligns the through hole 1431 with the through hole 413 to be penetrated, then connecting the positioning piece 144 with the corresponding fixing groove 1132 in a threaded manner, abutting the part of the positioning piece 144 extending out of the fixing groove 1132 on the lower end surface of the sliding block 141, positioning the sliding block 141, sequentially penetrating the rotating shaft 42 through the through hole 1431 and the through hole 413 and clamping into the clamping groove one 1421, and rotating the clamping block 1432 to enable the rotating block 1432 to be overturned and clamped into the clamping groove two 421 to position the rotating shaft 42, so that the rod 41 rotates around the rotating shaft 42.

The implementation principle of the multifunctional point carbon combined carbon oven is as follows: when in actual use, the pedal 122 is stepped on to enable the pedal 122 to slide along the sliding direction of the inclined surface 1221 to be close to the bottom of the limiting groove 121, the pedal 122 is abutted to the rod 41 to drive the rod 41 to rotate to be close to the furnace body 11, one side of the rod 41, which is far away from the lug 12, is inclined to be far away from the rotating column 31, so that the rotating column 31 is driven to rotate through the cooperation between the extension rod 411 and the connecting block 35, the elastic piece 123 abuts against the rod 41 to enable the rod 41 to be inclined to be far away from the furnace body 11, and the rod 41 drives the pedal 122 to slide to be far away from the bottom of the limiting groove 121, so that resetting is completed.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (9)

1. The utility model provides a multi-functional electricity carbon combines formula carbon oven, includes stove frame (1) and locates overware (2) on stove frame (1), its characterized in that: the oven rack (1) is connected with a carbon placing box (111) in a sliding manner, the carbon placing box (111) stretches out of or stretches into the oven rack (1) in a sliding manner, an electric heating wire (112) is arranged on the oven rack (1), and the electric heating wire (112) is positioned at one side, away from the baking tray (2), of the carbon placing box (111);

the baking oven is characterized in that a fan assembly (3) is rotationally connected to the oven frame (1), the fan assembly (3) is located on one side, close to the baking tray (2), of the oven frame (1), a connecting block (35) is arranged on the outer side wall of the fan assembly (3), a connecting rod (4) is movably connected to the connecting block (35), the connecting rod (4) is rotationally connected to the oven frame (1), and when the connecting rod (4) rotates, the connecting rod (4) drives the fan assembly (3) to rotate through the connecting block (35);

offer spacing groove (121) on stove frame (1), connecting rod (4) are kept away from the one end of fan subassembly (3) stretches into in spacing groove (121), it is connected with footboard (122) to slide on stove frame (1), footboard (122) are located connecting rod (4) are kept away from one side of putting carbon box (111), footboard (122) are close to one side of spacing groove (121) tank bottom is equipped with inclined plane (1221), inclined plane (1221) with the distance of spacing groove (121) tank bottom inner wall is followed and is close to the direction of connecting rod (4) reduces gradually, footboard (122) slide be close to or keep away from the tank bottom of spacing groove (121), footboard (122) with connecting rod (4) butt, just the inner wall of spacing groove (121) with inclined plane (1221) butt, footboard (122) are moved to be close to spacing groove (121) tank bottom, drive connecting rod (4) rotate.

2. The multi-functional electric carbon-bonded carbon oven of claim 1, wherein: offer hole (351) of stepping down on connecting block (35), connecting rod (4) are close to one side of fan subassembly (3) is equipped with extension rod (411), extension rod (411) wear to establish hole (351) of stepping down, be equipped with locating piece (412) on extension rod (411), locating piece (412) are located hole (351) of stepping down are kept away from one side of connecting rod (4), locating piece (412) are used for the butt connecting block (35).

3. The multi-functional electric carbon-bonded carbon oven of claim 1, wherein: the fan assembly (3) comprises a rotating column (31) which is rotationally connected to the furnace frame (1) and a swinging fan (32) which is arranged on the rotating column (31), an elastic block (34) is arranged on the rotating column (31), a cross groove (341) is formed in the elastic block (34), the cross groove (341) is closed when not stressed, and the cross groove (341) is used for clamping the swinging fan (32).

4. The multi-functional electric carbon-bonded carbon oven of claim 1, wherein: the furnace frame (1) is provided with a limiting rod (13), the pedal (122) is provided with a positioning groove (1222), and the limiting rod (13) is clamped into the positioning groove (1222) and slides in the positioning groove (1222) along the inclined direction of the inclined surface (1221).

5. The multi-functional electric carbon-bonded carbon oven of claim 4, wherein: be equipped with elastic component (123) on stove frame (1), elastic component (123) are located in spacing groove (121), elastic component (123) support tightly connecting rod (4), make connecting rod (4) have keep away from stove frame (1) trend.

6. The multi-functional electric carbon-bonded carbon oven of claim 1, wherein: the connecting rod (4) is including locating pole portion (41) on connecting block (35) with locate pivot (42) on pole portion (41), a plurality of through-holes (413) have been seted up on pole portion (41), a plurality of through-holes (413) are followed the length direction of pole portion (41) distributes, a plurality of through-holes (413) all supply pivot (42) wear to establish, be equipped with locating component (14) on stove frame (1), locating component (14) are used for the location pivot (42).

7. The multi-functional electric carbon-bonded carbon oven of claim 6, wherein: the positioning assembly (14) comprises a sliding block (141) which is connected to the furnace frame (1) in a sliding manner, a first fixing rod (142) and a second fixing rod (143) which are arranged on the sliding block (141), and a positioning piece (144) which is arranged on the furnace frame (1), wherein the sliding block (141) slides to be close to or far away from the fan assembly (3), the first fixing rod (142) and the second fixing rod (143) are respectively arranged on two opposite sides of the rod portion (41), a first clamping groove (1421) for the rotating shaft (42) to be clamped in is formed in the first fixing rod (142), a through hole (1431) for the rotating shaft (42) to penetrate in is formed in the second fixing rod (143), a clamping block (1432) is hinged to the second fixing rod (143), a second clamping groove (421) is formed in the rotating shaft (42), and when the rotating shaft (42) is clamped in the first clamping groove (1), and the second clamping groove (421) is used for enabling the clamping block (1432) to be overturned.

8. The multi-functional electric carbon-bonded carbon oven of claim 7, wherein: the furnace frame is characterized in that a sliding groove (113) is formed in the furnace frame (1), a clamping groove III (1131) is formed in the side wall of the sliding groove (113), a sliding block (1411) is arranged on the sliding block (141), the sliding block (141) slides in the sliding groove (113), the sliding block (1411) slides in the clamping groove III (1131), a plurality of fixing grooves (1132) are formed in the inner wall of the groove bottom of the sliding groove (113), the fixing grooves (1132) are distributed along the sliding direction of the sliding block (141), a locating piece (144) is in threaded connection with the fixing grooves (1132), and the part, which extends out of the fixing grooves (1132), of the locating piece (144) is close to one end face of the limiting groove (121), is in butt joint.

9. The multi-functional electric carbon-bonded carbon oven of claim 1, wherein: be equipped with baffle (1224) on footboard (122), baffle (1224) with footboard (122) concatenation is formed with holding tank (1225), holding tank (1225) supplies the foot to put into.

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