CN219565603U - Conveying device - Google Patents

Abstract

The utility model discloses a conveying device, which comprises a first conveying mechanism, a second conveying mechanism and a discharging mechanism, wherein the first conveying mechanism is used for inputting a product to be packaged, the output end of the first conveying mechanism extends to the feeding end of the discharging mechanism, and the second conveying mechanism is used for inputting a deoxidizer, and the output end of the second conveying mechanism extends to the feeding end of the discharging mechanism; the second conveying mechanism comprises a first material stirring and transporting assembly and a second material stirring and transporting assembly, and the first material stirring and transporting assembly comprises a first transmission module, a first material stirring piece and a first conveying channel; the second material stirring and transporting assembly comprises a driving piece, a second transmission module, a second material stirring piece and a second material conveying channel; the first conveying channel and the second conveying channel are both straight strip-shaped material channels. The device can complete the stacking between the product and the deoxidizer in the transportation process, and is convenient for subsequent packaging; the whole space occupation is small, and the appearance is beautiful.

Description

Conveying device

Technical Field

The utility model relates to the field of transportation equipment, in particular to a conveying device.

Background

With the advent of the internet age, all kinds of production and processing have tended to be automated by purely manual operation. At present, food products like moon cakes, cakes and the like are automatically packaged.

The conveyor is one of important equipment for realizing automatic packaging, and the existing conveyor is generally a belt conveyor, and the belt is driven to rotate by a motor so as to realize product conveying.

However, when packaging food, either primary packaging or secondary packaging, it is necessary to put a deoxidizer, a desiccant, or the like into the package bag to extend the shelf life of the food. Currently, food packaging is performed using automated equipment. However, for the placement of food desiccants, manual operation is generally employed. The defect of manual operation is that the labor intensity is high, the drying agent is contacted by hands and placed with food, pollution is brought to the packaged food, and the manual operation is often not kept up with the automatic operation flow of equipment.

Disclosure of Invention

The object of the present utility model is to provide a conveying device which solves at least one of the above-mentioned problems.

According to one aspect of the present utility model, there is provided a conveying apparatus comprising a first conveying mechanism, a second conveying mechanism and a discharging mechanism, the second conveying mechanism is disposed at the front end of the discharging mechanism, the first conveying mechanism is disposed above the second conveying mechanism, the first conveying mechanism is used for inputting a product to be packaged and its output end extends to the feeding end of the discharging mechanism, the second conveying mechanism is used for inputting a deoxidizing agent and its output end extends to the feeding end of the discharging mechanism;

the second conveying mechanism comprises a first machine body, a first stirring and transporting assembly and a second stirring and transporting assembly, wherein the first stirring and transporting assembly and the second stirring and transporting assembly are arranged on the first machine body, the first stirring and transporting assembly is used for conveying deoxidizing agent to the second stirring and transporting assembly, and the second stirring and transporting assembly is used for conveying deoxidizing agent to the discharging mechanism;

the first material stirring and transporting assembly comprises a first transmission module, a first material stirring piece and a first material conveying channel;

the second material stirring and transporting assembly comprises a driving piece, a second transmission module, a second material stirring piece and a second material conveying channel;

the first conveying channel and the second conveying channel are arranged on the upper end face of the first machine body and are perpendicular to each other;

the driving piece is in power connection with the second transmission module, and the second stirring piece is arranged on the second transmission module and can slide along the second conveying channel so as to stir the deoxidizer in the second conveying channel;

the first material stirring piece is arranged on the first transmission module and can slide along the first conveying channel to stir the deoxidizer in the first conveying channel;

the first conveying channel and the second conveying channel are both straight strip-shaped material channels.

Therefore, the utility model provides the conveying device with a brand new structure, which conveys the deoxidizer incoming materials to the discharging mechanism through the second conveying mechanism, and simultaneously conveys the moon cake, cake and other products to the discharging mechanism through the first conveying mechanism, so that the moon cake, cake and other products and the deoxidizer can be synchronously conveyed and discharged under the action of the discharging mechanism, the stacking between the products and the deoxidizer can be completed in the transportation process, and the subsequent packaging is convenient; the first conveyor framework is arranged above the second conveyor mechanism, so that products such as moon cakes and cakes can fall on the deoxidizer, the deoxidizer can be positioned at the bottom of the products such as moon cakes and cakes during subsequent packaging, the packaging effect is prevented from being influenced, and the attractiveness is enhanced;

in addition, the second conveying mechanism is provided with the first stirring conveying assembly and the second stirring conveying assembly, so that the deoxidizer can be effectively conveyed to the discharging mechanism, the occupied space in the length direction can be effectively saved, the occupied space is small, and the appearance is attractive.

In some embodiments, the second transmission module includes a first driving wheel, a first driven wheel, a first transmission chain, a first rotating shaft, a first sprocket, a second sprocket and a second transmission chain, wherein the first driving wheel is in power connection with the driving piece, the first rotating shaft is rotatably installed on the first machine body, the first driven wheel is sleeved at one end of the first rotating shaft, which is close to the driving piece, and is in transmission connection with the first driving wheel through the first transmission chain, the first sprocket is fixedly sleeved at the first rotating shaft, the second sprocket is rotatably installed on the first machine body and is in transmission connection with the first sprocket through the second transmission chain, and the second stirring piece is installed on the second transmission chain. Therefore, the working principle of the second transmission module is as follows: the driving piece drives the first driving wheel to rotate, the first driven wheel is driven to rotate through the first transmission chain, the first driven wheel drives the first rotating shaft to rotate, the first sprocket is driven to rotate, the second transmission chain is enabled to rotate, the second stirring piece is driven to stir materials along the second conveying channel, and the deoxidizing agents are enabled to be conveyed to the discharging mechanism one by one.

In some embodiments, the first transmission module includes a first bevel gear, a second rotation shaft, a third sprocket, a fourth sprocket and a third transmission chain, the second rotation shaft is rotatably installed on the first body and is perpendicular to the first rotation shaft, the first bevel gear is fixedly sleeved on the first rotation shaft, the second bevel gear is fixedly sleeved on one end, close to the first rotation shaft, of the second rotation shaft, the second bevel gear is meshed with the first bevel gear, the third sprocket is fixedly sleeved on the second rotation shaft, the fourth sprocket is rotatably installed on the first body and is in transmission connection with the third sprocket through the third transmission chain, and the first stirring piece is installed on the third transmission chain. From this, the theory of operation of first transmission module does: the first rotating shaft rotates to drive the first bevel gear to rotate and drive the second bevel gear to rotate, the second bevel gear drives the second rotating shaft to rotate and drive the third sprocket to rotate, so that the third transmission chain rotates and drives the first stirring piece to stir along the first conveying channel, and the deoxidizer is conveyed to the second conveying channel. The first material stirring and transporting assembly and the second material stirring and transporting assembly share one set of driving system, so that the cost is saved.

In some embodiments, the first transmission module includes a first guide wheel rotatably mounted to the first body and engaged with the third transmission chain.

In some embodiments, the second transmission module includes a second guide wheel rotatably mounted to the first body and engaged with the second transmission chain.

In some embodiments, the second stirring transport assembly further comprises a third transmission module and an encoder, the third transmission module comprises a first synchronous wheel, a second synchronous wheel and a synchronous belt, the first synchronous wheel is sleeved at one end of the first rotating shaft, which is far away from the first driven wheel, the second synchronous wheel is rotatably installed on the first machine body, the synchronous belt is in transmission connection with the first synchronous wheel and the second synchronous wheel, and the encoder is installed on the first machine body and is coaxially connected with the second synchronous wheel. Therefore, the encoder can be matched with the driving piece to realize accurate control.

In some embodiments, the conveyor further comprises a feed mechanism mounted to an end of the first conveyor lane remote from the second conveyor lane for feeding deoxidizer to the first conveyor lane. Thereby, automatic feeding of the deoxidizer is facilitated.

In some embodiments, the first stirring and transporting assembly further comprises a first side blocking module, the upper end surface of the first machine body is provided with a first slot through which the first stirring piece can pass, the first side blocking module comprises first baffle plates which are arranged on two sides of the first slot and are in limit fit with the deoxidizer, and the first baffle plates and the upper end surface of the first machine body are enclosed together to form a first conveying channel. Therefore, the first side material blocking module can effectively limit and guide the product, ensure that the deoxidizer is kept in the first conveying channel when the material stirring work is carried out, and effectively prevent the deoxidizer from falling out from the side.

In some embodiments, the second material shifting and transporting assembly further comprises a second side material blocking module, the upper end face of the first machine body is provided with a second slot through which the second material shifting piece can pass, the extending direction of the second slot is perpendicular to that of the first slot, the second side material blocking module comprises second material blocking plates which are arranged on two sides of the second slot and are in limit fit with the deoxidizer, and the second material blocking plates and the upper end face of the first machine body are enclosed together to form a second material conveying channel. Therefore, the second side blocking module can effectively limit and guide the product, and ensure that the deoxidizer is kept in the second conveying channel when the material stirring work is carried out, so that the deoxidizer is effectively prevented from falling out from the side.

In some embodiments, the first conveyor mechanism comprises a first conveyor belt disposed obliquely downward from a feed end to a discharge end, the discharge mechanism comprises a second conveyor belt engaged with the second conveyor track, and the discharge end of the first conveyor belt is positioned above the second conveyor belt.

The utility model has the beneficial effects that:

the utility model provides a conveying device with a brand new structure, which conveys deoxidizer supplies to a discharging mechanism through a second conveying mechanism, and simultaneously conveys moon cakes, cakes and other products to the discharging mechanism through a first conveying mechanism, so that the moon cakes, cakes and other products and deoxidizer can be synchronously conveyed and discharged under the action of the discharging mechanism, the stacking between the products and the deoxidizer can be completed in the transportation process, and the subsequent packaging is convenient; the first conveyor framework is arranged above the second conveyor mechanism, so that products such as moon cakes and cakes can fall on the deoxidizer, the deoxidizer can be positioned at the bottom of the products such as moon cakes and cakes during subsequent packaging, the packaging effect is prevented from being influenced, and the attractiveness is enhanced;

the second conveying mechanism is provided with the first stirring conveying assembly and the second stirring conveying assembly, can effectively convey the deoxidizer to the discharging mechanism, can effectively save the space occupation in the length direction, and has small whole space occupation and attractive appearance.

Drawings

Fig. 1 is a schematic perspective view of a conveying device according to an embodiment of the present utility model;

fig. 2 is a schematic perspective view of the conveying device shown in fig. 1, with a part of the conveying device omitted;

fig. 3 is a schematic perspective view of the conveying device shown in fig. 2, with a part of the conveying device omitted;

fig. 4 is a schematic perspective view of the conveying device shown in fig. 3, with a part of the conveying device omitted;

FIG. 5 is a schematic perspective view of the conveying device shown in FIG. 4 with a part of the conveying device omitted;

FIG. 6 is a second perspective view of the conveying device shown in FIG. 4 with a part of the conveying device omitted;

fig. 7 is a schematic perspective view of one mounting manner of the second material shifting member of the conveying device shown in fig. 6.

Reference numerals in fig. 1 to 7: 1-a first conveying mechanism; 2-a second conveying mechanism; 3-a discharging mechanism; 4-a feeding mechanism; 11-a first conveyor belt; 21-a first body; 22-a first toggle transport assembly; 23-a second kick-out transport assembly; 31-a second conveyor belt; 32-a second body; 211-first grooving; 212-second slotting; 221-a first transmission module; 222-a first kick-out member; 223-a first feed lane; 224-a first side dam module; 231-a driver; 232-a second transmission module; 233-a second kick-out member; 234-a second feed lane; 235-a third transmission module; 236-an encoder; 237-a second side stop module; 221 a-a first bevel gear; 221 b-a second bevel gear; 221 c-a second rotation axis; 221 d-a third sprocket; 221 e-fourth sprocket; 221 f-a third drive chain; 221 g-first guide wheel; 224 a-a first striker plate; 232 a-a first capstan; 232 b-a first driven wheel; 232 c-a first drive chain; 232 d-a first rotation axis; 232 e-first sprocket; 232 f-a second sprocket; 232 g-a second drive chain; 232 h-a second guide wheel; 235 a-a first synchronizing wheel; 235 b-a second synchronizing wheel; 235 c-synchronous belt; 237 a-a second striker plate.

Detailed Description

The utility model is described in further detail below with reference to the accompanying drawings.

Fig. 1 to 7 schematically show a conveying device according to an embodiment of the present utility model.

As shown in fig. 1 to 7, the conveying device includes a first conveying mechanism 1, a second conveying mechanism 2, and a discharging mechanism 3. The second conveying mechanism 2 is arranged at the front end of the discharging mechanism 3, the first conveying mechanism 1 is arranged above the second conveying mechanism 2, the first conveying mechanism 1 is used for inputting cakes and moon cakes to wait for packaging products, the output end of the first conveying mechanism extends to the feeding end of the discharging mechanism 3, the second conveying mechanism 2 is used for inputting deoxidizing agents or preservatives, drying agents and the like, and the output end of the second conveying mechanism 2 extends to the feeding end of the discharging mechanism 3.

The second conveying mechanism 2 comprises a first machine body 21, a first stirring and conveying assembly 22 and a second stirring and conveying assembly 23, wherein the first stirring and conveying assembly 22 and the second stirring and conveying assembly 23 are installed on the first machine body 21, the first stirring and conveying assembly 22 is used for conveying deoxidizing agent to the second stirring and conveying assembly 23, and the second stirring and conveying assembly 23 is used for conveying deoxidizing agent to the discharging mechanism 3.

The first material shifting and transporting assembly 22 comprises a first transmission module 221, a first material shifting piece 222 and a first material conveying channel 223;

the second kick-out assembly 23 includes a driving member 231, a second transmission module 232, a second kick-out member 233 and a second feed channel 234.

The first conveying channel 223 and the second conveying channel 234 are respectively arranged on the upper end surface of the first machine body 21 and are mutually perpendicular;

the driving piece 231 is in power connection with the second transmission module 232, and the second stirring piece 233 is arranged on the second transmission module 232 and can slide along the second conveying channel 234 so as to stir the deoxidizer in the second conveying channel 234;

the first transmission module 221 is in transmission connection with the second transmission module 232, and the first stirring piece 222 is arranged on the first transmission module 221 and can slide along the first conveying channel 223 so as to stir the deoxidizer in the first conveying channel 223;

the first and second feed channels 223 and 234 are each straight strip-shaped channels.

The second transmission module 232 includes a first driving wheel 232a, a first driven wheel 232b, a first transmission chain 232c, a first rotation shaft 232d, a first sprocket 232e, a second sprocket 232f and a second transmission chain 232g, wherein the first driving wheel 232a is in power connection with the driving member 231, the first rotation shaft 232d is rotatably installed on the first machine body 21, the first driven wheel 232b is sleeved at one end of the first rotation shaft 232d near the driving member 231 and is in transmission connection with the first driving wheel 232a through the first transmission chain 232c, the first sprocket 232e is fixedly sleeved at the first rotation shaft 232d, the second sprocket 232f is rotatably installed on the first machine body 21 and is in transmission connection with the first sprocket 232e through the second transmission chain 232g, and the second stirring member 233 is installed on the second transmission chain 232g. Thus, the second transmission module 232 operates according to the following principle: the driving piece 231 drives the first driving wheel 232a to rotate, the first driven wheel 232b is driven to rotate by the first driving chain 232c, the first driven wheel 232b drives the first rotating shaft 232d to rotate, the first sprocket 232e is driven to rotate, the second driving chain 232g is driven to rotate, the second material stirring piece 233 is driven to stir materials along the second material conveying channel 234, and the deoxidizing agents are conveyed to the discharging mechanism 3 one by one.

The first transmission module 221 includes a first bevel gear 221a, a second bevel gear 221b, a second rotation shaft 221c, a third sprocket 221d, a fourth sprocket 221e and a third transmission chain 221f, the second rotation shaft 221c is rotatably installed on the first machine body 21 and is perpendicular to the first rotation shaft 232d, the first bevel gear 221a is fixedly sleeved on the first rotation shaft 232d, the second bevel gear 221b is fixedly sleeved on one end of the second rotation shaft 221c close to the first rotation shaft 232d, the second bevel gear 221b is meshed with the first bevel gear 221a, the third sprocket 221d is fixedly sleeved on the second rotation shaft 221c, the fourth sprocket 221e is rotatably installed on the first machine body 21 and is in transmission connection with the third sprocket 221d through the third transmission chain 221f, and the first stirring member 222 is installed on the third transmission chain 221f. Thus, the first transmission module 221 operates according to the following principle: the first rotation shaft 232d rotates to drive the first bevel gear 221a to rotate, drive the second bevel gear 221b to rotate, drive the second rotation shaft 221c to rotate, drive the third sprocket 221d to rotate, drive the third transmission chain 221f to rotate, drive the first material stirring piece 222 to stir material along the first material conveying channel 223, and enable the deoxidizer to be conveyed to the second material conveying channel 234.

The first material shifting and transporting assembly 22 and the second material shifting and transporting assembly 23 share one driving system, so that the cost is saved.

The first transmission module 221 includes a first guiding wheel 221g, where the first guiding wheel 221g is rotatably mounted on the first body 21 and cooperates with the third transmission chain 221f.

The second transmission module 232 includes a second guiding wheel 232h, and the second guiding wheel 232h is rotatably mounted on the first body 21 and is matched with the second transmission chain 232g.

The second stirring and transporting assembly 23 further comprises a third transmission module 235 and an encoder 236, the third transmission module 235 comprises a first synchronous wheel 235a, a second synchronous wheel 235b and a synchronous belt 235c, the first synchronous wheel 235a is sleeved at one end of the first rotating shaft 232d far away from the first driven wheel 232b, the second synchronous wheel 235b is rotatably arranged on the first machine body 21, the synchronous belt 235c is in transmission connection with the first synchronous wheel 235a and the second synchronous wheel 235b, and the encoder 236 is arranged on the first machine body 21 and is coaxially connected with the second synchronous wheel 235 b. Thus, the encoder 236 may be precisely controlled in cooperation with the driver 231.

The conveying device further comprises a feeding mechanism 4, wherein the feeding mechanism 4 is arranged at one end of the first conveying channel 223 far away from the second conveying channel 234 and is used for conveying deoxidizing agent into the first conveying channel 223. Thereby, automatic feeding of the deoxidizer is facilitated.

The first stirring and transporting assembly 22 further comprises a first side blocking module 224, the upper end surface of the first machine body 21 is provided with a first slot 211 through which the first stirring piece 222 can pass, the first side blocking module 224 comprises first blocking plates 224a which are arranged on two sides of the first slot 211 and are in limit fit with the deoxidizer, and the first blocking plates 224a and the upper end surface of the first machine body 21 are jointly enclosed to form a first conveying channel 223. Therefore, the first side blocking module 224 can effectively limit and guide the product, ensure that the deoxidizer is kept in the first conveying channel 223 when the material stirring work is performed, and effectively prevent the deoxidizer from falling out from the side.

The second stirring transport assembly 23 further includes a second side blocking module 237, the upper end surface of the first body 21 is provided with a second slot 212 through which the second stirring member 233 can pass, the extending direction of the second slot 212 is perpendicular to the extending direction of the first slot 211, the second side blocking module 237 includes second blocking plates 237a disposed on two sides of the second slot 212 and in spacing fit with the deoxidizer, and the second blocking plates 237a and the upper end surface of the first body 21 enclose together to form a second conveying channel 234. Therefore, the second side blocking module 237 can effectively limit and guide the product, ensure that the deoxidizer is kept in the second conveying channel 234 when the material stirring work is carried out, and effectively prevent the deoxidizer from falling out from the side.

The driving element 231 of the present embodiment is a motor.

The first striker plate 224a and the second striker plate 237a are slidably mounted on the upper end surface of the first machine body 21, and the distance between the two first striker plates 224a or the two second striker plates 237a can be adjusted through the cooperation of the fastener and the sliding groove, so that the transportation of deoxidizers with different specifications can be met, and the applicability is high.

The first conveying mechanism 1 and the discharging mechanism 3 of the present embodiment may be belt conveyors.

The first conveyor 1 comprises a first conveyor belt 11 arranged obliquely downwards from the feed end to the discharge end.

The discharging mechanism 3 comprises a second machine body 32, a second conveying belt 31 which is arranged on the second machine body 32 and is connected with the second conveying channel 234, and a discharging end of the first conveying belt 11 is positioned above the second conveying belt 31. The first machine body 21 of this embodiment may be an integral machine frame, or may be a split machine frame which is separately provided and is provided with the first material shifting and transporting assembly 22 and the second material shifting and transporting assembly 23, and similarly, the second machine body 32 and the first machine body 21 provided with the second material shifting and transporting assembly 23 may be the same machine frame, or may be independent 2 machine frames.

The utility model provides a conveying device with a brand new structure, which conveys deoxidizer supplies to a discharging mechanism 3 through a second conveying mechanism 2, and simultaneously conveys moon cakes, cakes and other products to the discharging mechanism 3 through a first conveying mechanism 1, so that the moon cakes, cakes and other products and deoxidizer can be synchronously conveyed and discharged under the action of the discharging mechanism 3, and the products and the deoxidizer can be stacked in the transportation process, thereby facilitating subsequent packaging; the first conveying mechanism 1 is erected above the second conveying mechanism 2, so that products such as moon cakes and cakes can fall on the deoxidizer, the deoxidizer can be positioned at the bottom of the products such as moon cakes and cakes during subsequent packaging, the packaging effect is prevented from being influenced, and the attractiveness is enhanced;

the second conveying mechanism 2 is provided with the first stirring and conveying assembly 22 and the second stirring and conveying assembly 23, so that deoxidizing agent can be effectively conveyed to the discharging mechanism 3, the occupied space in the length direction can be effectively saved, the occupied space is small, and the appearance is attractive.

What has been described above is merely some embodiments of the present utility model. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit of the utility model.

Claims (10)

1. The conveying device is characterized by comprising a first conveying mechanism (1), a second conveying mechanism (2) and a discharging mechanism (3), wherein the second conveying mechanism (2) is arranged at the front end of the discharging mechanism (3), the first conveying mechanism (1) is arranged above the second conveying mechanism (2), the first conveying mechanism (1) is used for inputting products to be packaged, the output end of the first conveying mechanism (1) extends to the feeding end of the discharging mechanism (3), and the second conveying mechanism (2) is used for inputting deoxidizing agent, and the output end of the second conveying mechanism extends to the feeding end of the discharging mechanism (3);

the second conveying mechanism (2) comprises a first machine body (21), a first stirring and conveying assembly (22) and a second stirring and conveying assembly (23) which are arranged on the first machine body (21), wherein the first stirring and conveying assembly (22) is used for conveying deoxidizing agent to the second stirring and conveying assembly (23), and the second stirring and conveying assembly (23) is used for conveying deoxidizing agent to the discharging mechanism (3);

the first material stirring and transporting assembly (22) comprises a first transmission module (221), a first material stirring piece (222) and a first material conveying channel (223);

the second material stirring and transporting assembly (23) comprises a driving piece (231), a second transmission module (232), a second material stirring piece (233) and a second material conveying channel (234);

the first conveying channel (223) and the second conveying channel (234) are arranged on the upper end face of the first machine body (21) and are mutually perpendicular;

the driving piece (231) is in power connection with the second transmission module (232), and the second stirring piece (233) is arranged on the second transmission module (232) and can slide along the second conveying channel (234) so as to stir the deoxidizer in the second conveying channel (234);

the first transmission module (221) is in transmission connection with the second transmission module (232), and the first stirring piece (222) is arranged on the first transmission module (221) and can slide along the first conveying channel (223) so as to stir the deoxidizer in the first conveying channel (223);

the first conveying channel (223) and the second conveying channel (234) are both straight strip-shaped material channels.

2. The conveying device according to claim 1, wherein the second transmission module (232) comprises a first driving wheel (232 a), a first driven wheel (232 b), a first transmission chain (232 c), a first rotation shaft (232 d), a first sprocket (232 e), a second sprocket (232 f) and a second transmission chain (232 g), the first driving wheel (232 a) is in power connection with the driving member (231), the first rotation shaft (232 d) is rotatably mounted on the first machine body (21), the first driven wheel (232 b) is sleeved on one end of the first rotation shaft (232 d) close to the driving member (231) and is in transmission connection with the first driving wheel (232 a) through the first transmission chain (232 c), the first sprocket (232 e) is fixedly sleeved on the first rotation shaft (232 d), the second sprocket (232 f) is rotatably mounted on the first machine body (21) and is in transmission connection with the first sprocket (233 e) through the second transmission chain (232 g), and the first sprocket (232 g) is mounted on the second transmission member.

3. The conveying device according to claim 2, wherein the first transmission module (221) comprises a first bevel gear (221 a), a second bevel gear (221 b), a second rotation shaft (221 c), a third sprocket (221 d), a fourth sprocket (221 e) and a third transmission chain (221 f), the second rotation shaft (221 c) is rotatably mounted on the first machine body (21) and is perpendicular to the first rotation shaft (232 d), the first bevel gear (221 a) is fixedly sleeved on the first rotation shaft (232 d), the second bevel gear (221 b) is fixedly sleeved on one end, close to the first rotation shaft (232 d), of the second rotation shaft (221 c), the second bevel gear (221 b) is meshed with the first bevel gear (221 a), the third sprocket (221 d) is fixedly sleeved on the second rotation shaft (221 c), the fourth sprocket (221 e) is rotatably mounted on the first rotation shaft (21) and is connected with the third transmission chain (221 f) through the third sprocket (221 d).

4. A conveyor according to claim 3, wherein the first transmission module (221) comprises a first guiding wheel (221 g), said first guiding wheel (221 g) being rotatably mounted to the first body (21) and cooperating with the third transmission chain (221 f).

5. A conveyor according to claim 3, wherein the second transmission module (232) comprises a second guide wheel (232 h), the second guide wheel (232 h) being rotatably mounted to the first body (21) and cooperating with the second transmission chain (232 g).

6. The conveying device according to any one of claims 2-5, wherein the second stirring transport assembly (23) further comprises a third transmission module (235) and an encoder (236), the third transmission module (235) comprises a first synchronizing wheel (235 a), a second synchronizing wheel (235 b) and a synchronous belt (235 c), the first synchronizing wheel (235 a) is sleeved at one end of the first rotating shaft (232 d) far away from the first driven wheel (232 b), the second synchronizing wheel (235 b) is rotatably mounted on the first machine body (21), the synchronous belt (235 c) is in transmission connection with the first synchronizing wheel (235 a) and the second synchronizing wheel (235 b), and the encoder (236) is mounted on the first machine body (21) and is coaxially connected with the second synchronizing wheel (235 b).

7. A conveyor device according to any one of claims 1-5, further comprising a feeding mechanism (4), said feeding mechanism (4) being mounted at an end of said first conveyor lane (223) remote from said second conveyor lane (234) for feeding deoxidizing agent into said first conveyor lane (223).

8. The conveying device according to any one of claims 1-5, wherein the first stirring and transporting assembly (22) further comprises a first side blocking module (224), a first slot (211) through which the first stirring piece (222) can pass is formed in the upper end face of the first machine body (21), the first side blocking module (224) comprises first blocking plates (224 a) which are arranged on two sides of the first slot (211) and are in limit fit with the deoxidizer, and the first blocking plates (224 a) and the upper end face of the first machine body (21) are jointly surrounded to form the first conveying channel (223).

9. The conveying device according to claim 8, wherein the second stirring and transporting assembly (23) further comprises a second side blocking module (237), a second slot (212) through which the second stirring piece (233) can pass is formed in the upper end face of the first machine body (21), the extending direction of the second slot (212) is perpendicular to the extending direction of the first slot (211), the second side blocking module (237) comprises second blocking plates (237 a) which are arranged on two sides of the second slot (212) and are in limiting fit with deoxidizing agents, and the second blocking plates (237 a) and the upper end face of the first machine body (21) are enclosed together to form the second conveying channel (234).

10. Conveyor device according to any of claims 1-5, characterized in that the first conveyor means (1) comprises a first conveyor belt (11) arranged obliquely downwards from the feed end to the discharge end, the discharge means (3) comprises a second conveyor belt (31) engaging the second conveyor channel (234), the discharge end of the first conveyor belt (11) being located above the second conveyor belt (31).