CN106029530A - Baking part transmission mechanism - Google Patents

Abstract

A baking part transmission mechanism comprises a plurality of baking transmission units which are in laminated and spaced distribution, and the transmission paths of the adjacent two baking transmission units are connected. Each baking transmission unit comprises a guide frame (5), a positive transmission assembly (1) and a reverse transmission assembly (2), the transmission direction of the reverse transmission assembly (2) is reverse with the transmission direction of the positive transmission assembly (1), and the reverse transmission assembly (2) and the positive transmission assembly (1) are in cross distribution. According to the baking part transmission mechanism provided by the embodiment of the present invention, and by the laminated and spaced distribution of the plurality of baking transmission units, and the connection of the transmission paths of the adjacent two baking transmission units, the long enough baking transmission paths are realized under a certain occupation area, the space utilization rate is improved, also the baking quality is guaranteed, at the same time, the production cost is reduced.

Description

Baking portion connecting gear

Technical field

The present invention relates to toast the technical field of oil equipment, particularly relate to a kind of baking portion connecting gear.

Background technology

At present, as many agricultural product such as Semen arachidis hypogaeae, Semen coryli heterophyllae, Semen Armeniacae Amarum, coffee, cacao bean, before deep processing If baking process can be carried out, its taste, color and texture all will have bigger improvement.It addition, Semen arachidis hypogaeae is to plant Thing oil and one of main source of protein, must be by expressing oil from peanuts and producing before peanut butter and confection etc. Semen arachidis hypogaeae is cooked baking and processes, and the quality of baked goods is produced a very large impact by the process conditions such as baking time and temperature.

Existing roasting plant is based on pipeline system, and this type of roasting plant is single with single driving shaft Driven shaft connect conveyer belt formed monolayer delivery unit, in order to ensure cured effect, it is often through prolongation Baking path implement, but so cause whole occupation area of equipment excessive, of a relatively high to site requirements, carry High production cost；Therefore, how to propose a kind of floor space little, and baking transmits the sufficiently long baking in path Roasting delivery unit is technical problem the most urgently to be resolved hurrily.

Summary of the invention

It is an object of the invention to overcome above-mentioned the deficiencies in the prior art, it is provided that a kind of baking portion connecting gear, Floor space is little, baking transmission path path length, both ensure that baking quality, and had reduced again production cost.

Embodiments provide a kind of baking portion connecting gear, for toasting the baking portion of oil expression all-in-one In to transmit raw material to be baked, described baking portion connecting gear includes multiple baking delivery unit, the plurality of Toast between delivery unit spaced apart in stacking, and described in adjacent two, toast the transmission path phase of delivery unit Connect；Described baking delivery unit includes guide housing, forward transfer assembly and reverse transfer assembly, described instead Contrary with the direction of transfer of described forward transfer assembly to the direction of transfer of transfer assembly, and described forward transmission Assembly and described reverse transfer assembly are interspersed.

Further, described forward transfer assembly includes the first driving shaft, is arranged at described first driving shaft same Side and multiple first driven shafts separately, between each described first driven shaft and described first driving shaft all It is connected with the first conveyer belt；Described reverse transfer assembly includes the second driving shaft, is arranged at described second Driving shaft the same side and multiple second driven shafts separately, each described second driven shaft is with described second actively The second conveyer belt all it is connected with between axle.

Further, described guide housing is arranged at described first conveyer belt and the upside of described second conveyer belt, Described guide housing is formed complete for the adjacent forward of described baking raw material transmits and reversely transmits concatenation Transmit path.

Further, described guide housing includes being arranged at described first conveyer belt and the side of described second conveyer belt Frame at limit, is obliquely installed the discharge end in described first conveyer belt and transmits with described second be adjacent Band feed end on the first guide plate, and be obliquely installed in described second conveyer belt discharge end and and its The second guide plate on the feed end of adjacent described first conveyer belt, described first guide plate and described second Guide plate is connected with described frame, and described first guide plate is used for connecting described first with described second guide plate Transmission path between conveyer belt and described second conveyer belt being adjacent.

Further, multiple described first conveyer belt and multiple described second in each described baking delivery unit Conveyer belt is interspersed along the direction being perpendicular to described direction of transfer.

Further, the feed end of described first conveyer belt is adjacent with the discharge end of described second conveyer belt, and The feed end height of described first conveyer belt is less than the discharge end of described second conveyer belt；Described first conveyer belt Discharge end adjacent with the feed end of described second conveyer belt, and the discharge end height of described first conveyer belt is high Feed end in described second conveyer belt.

Further, described first driving shaft is longer than described first driven shaft；Described second driving shaft is longer than institute State the second driven shaft.

Further, multiple described first conveyer belt in each described baking delivery unit is positioned at same level On, and multiple described second conveyer belt also is located in same level.

Further, the periphery wall of described first driving shaft offers multiple extend distribution along its length The first anti-slip tank；Offer on the periphery wall of described second driving shaft and multiple extend distribution along its length The second anti-slip tank.

Further, multiple described first anti-slip tanks are around the periphery uniform intervals distribution of described first driving shaft； Multiple described second anti-slip tanks are around the periphery uniform intervals distribution of described second driving shaft.

Further, the coaming plate that described first driven shaft connects assembly and described baking portion by the first buffering delays Punching connects；Described second driven shaft connects assembly by the second buffering and is connected with the coaming plate buffering in described baking portion.

Further, the two ends of described first driving shaft are by clutch shaft bearing assembly and both sides, described baking portion Side plate is rotationally connected；The two ends of described second driving shaft are by the second bearing assembly and both sides, described baking portion Side plate is rotationally connected.

Further, described first conveyer belt offers the first via-hole array for air circulation；Described The second via-hole array for air circulation is offered on second conveyer belt.

Based on technique scheme, the baking portion connecting gear that the embodiment of the present invention proposes, by by multiple bakings Roasting delivery unit stacking is spaced apart, and makes the transmission path of adjacent two baking delivery units be connected；So, In the case of floor space is certain, it is achieved that sufficiently long baking transmits path, has both improve space utilization Rate, in turn ensure that baking quality, also reduces production cost simultaneously.

Accompanying drawing explanation

Fig. 1 is the sectional perspective schematic diagram in the baking portion of baking oil expression all-in-one in the embodiment of the present invention；

Fig. 2 is one of sectional perspective schematic diagram of baking portion connecting gear in the embodiment of the present invention；

Fig. 3 is in the embodiment of the present invention the two of the sectional perspective schematic diagram of baking portion connecting gear；

Fig. 4 is in the embodiment of the present invention the three of the sectional perspective schematic diagram of baking portion connecting gear；

Fig. 5 is the enlarged diagram of part A in Fig. 2；

Fig. 6 is the enlarged diagram of part B in Fig. 2.

Detailed description of the invention

In order to make the purpose of the present invention, technical scheme and advantage clearer, below in conjunction with accompanying drawing and reality Execute example, the present invention is further elaborated.Only should be appreciated that specific embodiment described herein Only in order to explain the present invention, it is not intended to limit the present invention.

It should be noted that when element is referred to as " being fixed on " or " being arranged at " another element, and it can With directly on another element or may be simultaneously present centering elements.It is known as when an element and " connects In " another element, it can be directly to another element or may be simultaneously present centering elements.

It addition, also, it should be noted the orientation term such as left and right, upper and lower in the embodiment of the present invention, It is only relative concept or with the normal operating condition of product as reference each other, and should not be regarded as having Restrictive.Below in conjunction with specific embodiment, the realization of the present invention is described in detail.

As shown in Figures 1 to 6, the embodiment of the present invention proposes a kind of baking portion connecting gear, and it is installed on In the baking portion of baking oil expression all-in-one, and coordinate with the drive mechanism in baking portion to transmit raw material to be baked. This baking portion connecting gear can include multiple baking delivery unit, between multiple baking delivery units in stacking between Every distribution, and the transmission path of adjacent two baking delivery units is connected.Specifically, this baking delivery unit Forward transfer assembly 1, reverse transfer assembly 2 and guide housing 5, here, reverse transfer assembly 2 can be included Direction of transfer contrary with the direction of transfer of forward transfer assembly 1, and both interlaced arrangement.

In the present embodiment, above-mentioned forward transfer assembly 1 include first driving shaft 11, multiple first from Moving axis 12 and multiple first conveyer belt 13, the first driven shaft 12 is identical with the first conveyer belt 13 quantity, this Place, multiple first driven shafts 12 are disposed in an evenly spaced relation in the same side of the first driving shaft 11, and multiple first Driven shaft 12 is coaxial, and certainly, multiple first driven shafts 12 also can not be coaxially, meanwhile, and the first conveyer belt 13 It is in transmission connection between the first driving shaft 11 and the first driven shaft 12, and first driven shaft 12 correspondence one Individual first conveyer belt 13, so, multiple first conveyer belts 13 are distributed in uniform intervals.

In the present embodiment, above-mentioned reverse transfer assembly 2 include second driving shaft 21, multiple second from Moving axis 22 and multiple second conveyer belt 23, the second driven shaft 22 is identical with the second conveyer belt 23 quantity, this Place, multiple second driven shafts 22 are disposed in an evenly spaced relation in the same side of the second driving shaft 21, and multiple second Driven shaft 22 is coaxial, and certainly, multiple second driven shafts 22 also can not be coaxially, meanwhile, and the second conveyer belt 23 It is in transmission connection between the second driving shaft 21 and the second driven shaft 22, and second driven shaft 22 correspondence one Individual second conveyer belt 23, so, multiple second conveyer belts 23 are distributed in uniform intervals.

In the present embodiment, above-mentioned second driving shaft 21 is arranged on the inner side of the first driving shaft 11 and puts down with it OK, the second driven shaft 22 is arranged on the inner side of the first driven shaft 12 in parallel, and multiple first transmits It is distributed along the direction interleaved one by one being perpendicular to direction of transfer with multiple second conveyer belts 23 with 13, so, For the first conveyer belt 13 and the second conveyer belt 23, owing to both direction of transfers are contrary and are interspersed, make Multiple first conveyer belts 13 and multiple second conveyer belts 23 are formed with tortuous reciprocal baking path, so, Baking raw material (such as Semen arachidis hypogaeae) can be baked in these complications back and forth baking path while transmitting.

In the present embodiment, above-mentioned guide housing 5 is carried out for transmitting for the forward of baking raw material and reversely transmitting Guide, and for baking raw material is carried out at the switching that adjacent forward transmits path and reversely transmits path Guide concatenation and form complete transmission path；Herein, this guide housing 5 is arranged on the first conveyer belt 13 and second The upside of conveyer belt 23.

Based on technique scheme, the baking portion connecting gear that the embodiment of the present invention proposes, its baking transmits single Unit transmits multiple first conveyer belts 13 of connection by the first driving shaft 11 and multiple first driven shaft 12 and is just formed To transfer assembly 1 with forward transmit raw material to be baked, meanwhile, by the second driving shaft 21 and multiple second from It is to be baked former reversely to transmit that moving axis 22 transmission multiple second conveyer belts 23 of connection form reverse transfer assembly 2 Material, and being interspersed with the second conveyer belt 23 by the first conveyer belt 13 so that raw material to be baked can be Multiple first conveyer belts 13 and the second conveyer belt 23 are staggered to form tortuous back and forth on tortuous reciprocal baking path biography Send.Further, by spaced apart in stacking between multiple baking delivery units, and adjacent two bakings transmit single The transmission path of unit is connected, so, in the case of floor space is certain, it is achieved that sufficiently long baking Transmit path, improve space availability ratio, reduce production cost, simultaneously as baking path long enough, Ensure that the baking quality of raw material to be baked.

In embodiments of the present invention, for above-mentioned baking delivery unit, its guide housing 5 can include frame 51, First guide plate 52 and the second guide plate 53, wherein, frame 51 is arranged on the first conveyer belt 13 and The side edge of two conveyer belts 23, so, multiple first conveyer belts 13 and the second conveyer belt 23 are by frame 51 Separate, and outermost first conveyer belt 13 of delivery unit or the second conveyer belt 23 are surrounded by frame 51, as This, single first conveyer belt 13 or single second conveyer belt 23 are i.e. formed as transmitting path son field；It addition, First guide plate 52 horizontal tilt is arranged on the discharge end 132 of the first conveyer belt 13 and second be adjacent On the feed end 231 of conveyer belt 23, meanwhile, the second guide plate 53 horizontal tilt is arranged on the second conveyer belt On the discharge end 232 of 23 and the feed end 131 of the first conveyer belt 13 that is adjacent, and, first leads All it is connected with frame 51 to plate 52 and the second guide plate 53, so, leads at the first guide plate 52 and second Switching under the guide effect of plate 53, between the first conveyer belt 13 and the second conveyer belt 23 being adjacent Place's concatenation connection forms complete transmission path, that is to say and single transmission path son field concatenation has been formed Whole transmission path.It addition, all capping has breathable lid on the upside of the guide housing 5 of each baking delivery unit Plate 6, the heat pipe 7 in baking portion is arranged on the upside of this cover plate 6.Neighbouring two baking delivery units it Between, the transmission path termination 54 of the baking delivery unit on upper strata and the starting point 55 toasting delivery unit of lower floor The most right, so, raw material to be baked is after the baking delivery unit transmission on upper strata terminates, from its terminal 54 On fall into lower floor baking delivery unit starting point 55 on continue transmit.Certainly, according to practical situation and demand, In other embodiments of the present invention, also by other modes, each single transmission path son field is led To concatenation, the most uniquely limit.

Further, in the present embodiment, between two adjacent conveyer belts, the charging of the first conveyer belt 13 End 131 is adjacent with the discharge end 232 of the second conveyer belt 23, and the feed end 131 of the first conveyer belt 13 is high Discharge end 232 height of degree slightly below the second conveyer belt 23；Meanwhile, the discharge end 132 of the first conveyer belt 13 Adjacent with the feed end 231 of the second conveyer belt 23, and the discharge end 132 of the first conveyer belt 13 is the most slightly higher Feed end 231 height in the second conveyer belt 23.So, the discharge end 132 and of the first conveyer belt 13 The feed end 231 of two conveyer belts 23 forms certain difference in height, on the discharge end 132 of the first conveyer belt 13 Raw material to be baked be sent under the guide effect of guide housing 5 on the feed end 231 of the second conveyer belt 23, At both switchings, due between the two difference in height exist so that raw material to be baked can easily by Switching sends away, thus avoids baking raw material and be detained on this position；In like manner, the going out of the second conveyer belt 23 The feed end 131 of material end 232 and the first conveyer belt 13 forms certain difference in height, the second conveyer belt 23 Raw material to be baked on discharge end 232 is sent to entering of the first conveyer belt 13 under the guide effect of guide housing 5 On material end 131, at both switchings, owing to difference in height between the two exists so that raw material to be baked The most relayed can send away, thus avoid baking raw material and be detained on this position.

As it has been described above, by being highly set to slightly below be adjacent by the feed end 131 of the first conveyer belt 13 Discharge end 232 height of the second conveyer belt 23, and the discharge end 132 of the first conveyer belt 13 is highly set It is set to feed end 231 height of the second conveyer belt 23 being slightly above adjacent, so so that first transmits Carry 13 place planes and the second conveyer belt 23 place level-crossing, so, transmitting on path, adjacent two Difference in height is formed so that the raw material to be baked in transmission can successfully pass at this switching at the switching of conveyer belt Send, thus avoid appearance and be detained, improve transmission effect.

In the present embodiment, above-mentioned multiple first conveyer belts 13 are respectively positioned on same horizontal plane, and above-mentioned multiple Two conveyer belts 23 are also respectively positioned on same horizontal plane, and the horizontal plane at multiple second conveyer belt 23 place with The horizontal plane at multiple first conveyer belt 13 places intersects, and so, is the formation of certain altitude poor, so, makes Obtain transmission of can transferring smoothly at the raw material to be baked (such as Semen arachidis hypogaeae) switching between adjacent conveyor belts.

Further, in an embodiment of the present invention, the length of above-mentioned first driving shaft 11 is longer than above-mentioned first The length of driven shaft 12, here, corresponding multiple first driven shafts 12 of the first driving shaft 11, by choosing Select the first driven shaft 12 that length is relatively short, it is simple to corresponding one first transmission of the first driven shaft 12 Band 13, so, first driving shaft 11 just can be spaced multiple first conveyer belts 13 of connection, thus Sufficiently long forward can be realized and transmit path；Similarly, the length of above-mentioned second driving shaft 21 is longer than above-mentioned The length of two driven shafts 22, here, corresponding multiple second driven shafts 22 of the second driving shaft 21, pass through Select the second driven shaft 22 that length is relatively short, it is simple to corresponding one second biography of the second driven shaft 22 Send band 23, so, second driving shaft 21 just can be spaced multiple second conveyer belts 23 of connection, from And sufficiently long reverse transmission path can be realized；It addition, by by the length of the first driven shaft 12 and second from The length of moving axis 22 is set to relatively short, and it another object is that so that multiple first driven shaft 12 He Multiple second driven shafts 22 stagger and avoid end touching to affect the stationarity of transmission.

Further, in an embodiment of the present invention, the periphery wall of above-mentioned first driving shaft 11 offers many Individual first anti-slip tank 110, this first anti-slip tank 110 extends distribution along the length direction of this first driving shaft 11； It addition, offer multiple second anti-slip tank 210 on the periphery wall of above-mentioned second driving shaft 21, this is second anti-skidding Groove 210 extends distribution along the length direction of this second driving shaft 21.Anti-skidding by arranging on two driving shafts Groove, adds the connected frictional force of conveyer belt, it is ensured that the stability of transmission.Certainly, according to reality Situation and demand, in other embodiments of the invention, above-mentioned first driving shaft 11 and the second driving shaft 21 Also by other modes to increase the frictional force between its with corresponding conveyer belt, the most uniquely limit.

Further, in an embodiment of the present invention, above-mentioned multiple first anti-slip tank 110 is main around above-mentioned first The periphery uniform intervals distribution of moving axis 11；It addition, above-mentioned multiple second anti-slip tank 210 is around above-mentioned second actively The periphery uniform intervals distribution of axle 21.So, by anti-slip tank is uniformly distributed on corresponding driving shaft, Ensure that the uniformity of friction between driving shaft with corresponding conveyer belt, thus ensure that the stability of transmission.When So, according to practical situation and real needs, in other embodiments of the invention, multiple first anti-slip tanks 110 On the periphery of the first driving shaft 11 also can non-uniform Distribution, it addition, multiple second anti-slip tank 210 is second On the periphery of driving shaft 21 also can non-uniform Distribution, the most uniquely limit.

Further, in an embodiment of the present invention, above-mentioned forward transfer assembly 1 also includes that the first buffering is even Connected components 14, it is slow with the coaming plate 3 in baking portion that above-mentioned first driven shaft 12 connects assembly 14 by the first buffering Punching connects；It addition, above-mentioned reverse transfer assembly 2 also include second buffering connect assembly 24, above-mentioned second from Moving axis 22 connects assembly 24 by the second buffering and is connected with coaming plate 3 buffering in baking portion.Connected by buffering, Ensure that the degree of tightness appropriateness of corresponding conveyer belt, it is ensured that the stationarity of transmission, thus improve baking quality. Meanwhile, taking being equipped with of major and minor axis, the i.e. first driving shaft 11 is longer than the first driven shaft 12, Second driving shaft 21 is longer than the second driven shaft 22, and multiple first driven shaft 12 is separately, multiple second from Moving axis 22 separately, so, it is simple to the buffering of forward transfer assembly 1 and reverse transfer assembly 2 connects.When So, according to practical situation and demand, in other embodiments of the present invention, above-mentioned first driven shaft 12 and Two driven shafts 22 are connected with the coaming plate 3 in baking portion also by other modes, the most uniquely limit.

Further, in an embodiment of the present invention, above-mentioned forward transfer assembly 1 also includes clutch shaft bearing group Part 15, the two ends of above-mentioned first driving shaft 11 are by the side of clutch shaft bearing assembly 15 with both sides, above-mentioned baking portion Plate 4 is rotationally connected；It addition, above-mentioned reverse transfer assembly 2 also includes the second bearing assembly 25, above-mentioned second The two ends of driving shaft 21 are rotationally connected by the side plate 4 of the second bearing assembly 25 with both sides, baking portion.So, Under the supporting role of the side plate 4 of both sides, baking portion, make the first driving shaft 11 and second by bearing assembly Driving shaft 21 is effectively supported.Certainly, according to practical situation and demand, in other embodiments of the present invention, First driving shaft 11 and the second driving shaft 21 also can use other supporting way, the most uniquely limit.

Further, in an embodiment of the present invention, above-mentioned first conveyer belt 13 offers follow for air First via-hole array 130 of ring；The second through hole for air circulation is offered on above-mentioned second conveyer belt 23 Array 230.By offering via-hole array on a moving belt so that the heat in baking portion can effectively circulate And circulation, so, improve baking efficiency, also ensure the uniformity of baking, improve baking quality.

Embodiment described above, the only specific embodiment of the invention, but protection scope of the present invention not office Being limited to this, any those familiar with the art, can be easily in the technical scope that the invention discloses Expect the amendment of various equivalence, replace and improvement etc., these amendments, replace and improve and all should contain at this Within the protection domain of invention.Therefore, protection scope of the present invention should be as the criterion with scope of the claims.

Claims (13)

1. baking portion connecting gear, to transmit raw material to be baked in the baking portion toasting oil expression all-in-one, It is characterized in that, described baking portion connecting gear includes multiple baking delivery unit, the plurality of baking transmission Between unit spaced apart in stacking, and the transmission path toasting delivery unit described in adjacent two is connected；Institute State baking delivery unit and include guide housing, forward transfer assembly and reverse transfer assembly, described reverse transmission group The direction of transfer of part is contrary with the direction of transfer of described forward transfer assembly, and described forward transfer assembly and institute State reverse transfer assembly to be interspersed.

2. baking portion as claimed in claim 1 connecting gear, it is characterised in that described forward transfer assembly Including the first driving shaft, it is arranged at described first driving shaft the same side and multiple first driven shafts separately, The first conveyer belt all it is connected with between each described first driven shaft and described first driving shaft；Described reversely Transfer assembly includes the second driving shaft, be arranged at described second driving shaft the same side and separately multiple second Driven shaft, is all connected with the second conveyer belt between each described second driven shaft and described second driving shaft.

3. baking portion as claimed in claim 2 connecting gear, it is characterised in that described guide housing is arranged at Described first conveyer belt and the upside of described second conveyer belt, described guide housing is for by described baking raw material Adjacent forward transmits and reversely transmits concatenation and forms complete transmission path.

4. baking portion as claimed in claim 3 connecting gear, it is characterised in that described guide housing includes setting It is placed in the frame of the side edge of described first conveyer belt and described second conveyer belt, is obliquely installed in described first The discharge end of conveyer belt and the first guide plate on the feed end of described second conveyer belt being adjacent, and It is obliquely installed on the discharge end of described second conveyer belt and the feed end of described first conveyer belt that is adjacent The second guide plate, described first guide plate and described second guide plate be connected with described frame, described first Guide plate is used for described second transmission connecting described first conveyer belt and being adjacent with described second guide plate Transmission path between band.

5. the baking portion connecting gear as described in any one of claim 2 to 4, it is characterised in that each described Multiple described first conveyer belt in baking delivery unit and multiple described second conveyer belts are along being perpendicular to described biography The direction sending direction is interspersed.

6. baking portion as claimed in claim 5 connecting gear, it is characterised in that described first conveyer belt Feed end is adjacent with the discharge end of described second conveyer belt, and the feed end height of described first conveyer belt is less than The discharge end of described second conveyer belt；The discharge end of described first conveyer belt and the charging of described second conveyer belt Hold adjacent, and the discharge end height of described first conveyer belt is higher than the feed end of described second conveyer belt.

7. the baking portion connecting gear as described in any one of claim 2 to 4, it is characterised in that described One driving shaft is longer than described first driven shaft；Described second driving shaft is longer than described second driven shaft.

8. the baking delivery unit as described in any one of claim 2 to 4, it is characterised in that each described baking Multiple described first conveyer belt in roasting delivery unit is positioned in same level, and multiple described second transmits Band also is located in same level.

9. the baking portion connecting gear as described in any one of claim 2 to 4, it is characterised in that described Multiple the first anti-slip tank extending distribution along its length is offered on the periphery wall of one driving shaft；Described Multiple the second anti-slip tank extending distribution along its length is offered on the periphery wall of two driving shafts.

10. baking portion as claimed in claim 9 connecting gear, it is characterised in that multiple described first prevents Chute is around the periphery uniform intervals distribution of described first driving shaft；Multiple described second anti-slip tanks are around described second The periphery uniform intervals distribution of driving shaft.

The 11. baking portion connecting gears as described in any one of claim 2 to 4, it is characterised in that described First driven shaft connects assembly by the first buffering and is connected with the coaming plate buffering in described baking portion；Described second from Moving axis connects assembly by the second buffering and is connected with the coaming plate buffering in described baking portion.

The 12. baking portion connecting gears as described in any one of claim 2 to 4, it is characterised in that described The two ends of the first driving shaft are rotationally connected by the side plate of clutch shaft bearing assembly with both sides, described baking portion；Described The two ends of the second driving shaft are rotationally connected by the side plate of the second bearing assembly with both sides, described baking portion.

The 13. baking portion connecting gears as described in any one of claim 2 to 4, it is characterised in that described The first via-hole array for air circulation is offered on first conveyer belt；Offer on described second conveyer belt The second via-hole array for air circulation.