CN220198341U - Sole shaping device - Google Patents

Abstract

The utility model discloses a sole shaping device, and relates to the technical field of shoemaking equipment. The utility model provides a sole setting device, include and form by a plurality of oven module interconnect, the drying tunnel has been seted up to the inside of oven module, the drying tunnel of a plurality of oven module communicates each other, be provided with conveyer belt and heating mechanism in the drying tunnel, the side discharge gate that the lateral wall of oven module was seted up, side discharge gate communicates each other with the drying tunnel, because setting device entry end is different to the distance of different side discharge gates, so the heating setting time of the sole finished product that takes out from different side discharge gates also is different, thereby the production personnel can confirm the heating time of sole primary sample according to the shrink degree of sole different sizes, and take out the sole finished product of corresponding size from different side discharge gates, be favorable to improving production efficiency.

Description

Sole shaping device

Technical Field

The utility model relates to the technical field of shoemaking equipment, in particular to a sole shaping device.

Background

Along with the technological development of society, more and more novel materials are applied to soles, for example, some foaming soles made of foaming materials such as PU or EVA, and soles made of foaming materials are high in wear resistance, light in weight and popular with vast users.

When producing the foaming sole, the producer firstly injects the foaming material into the mould through the injection moulding process, the foaming material is excessively foamed and expanded in the mould, and forms a sole primary sample with the sole shape, then the producer takes out the sole primary sample from the mould and places the sole primary sample in the long drying channel, the sole primary sample is heated and baked by the long drying channel, the sole primary sample which is excessively foamed and expanded is subjected to heat shrinkage, the producer adjusts the conveying speed of the long drying channel according to the size of the sole to be produced, thereby adjusting the heating and baking time of the sole primary sample, controlling the shrinkage degree of the sole primary sample, and finally obtaining the sole finished product with the corresponding size after the sole primary sample is taken out from the long drying channel.

At present, a common long drying tunnel is of an integral structure, and a conveyor belt and a heating mechanism are arranged in the long drying tunnel, the conveyor belt conveys a sole primary sample from one end of the long drying tunnel to the other end, and the sole primary sample is continuously baked and heated by the heating mechanism in the long drying tunnel and is contracted.

However, the conveying speed of the conveying belt of each long drying tunnel is single and fixed, so that the heating and shaping time of the sole primary sample is fixed, the sole primary sample coming out of the tail end of the long drying tunnel can only be contracted into sole finished products with single size, and sole finished products with different sizes can not be prepared simultaneously. If the sole products with different sizes are to be contracted, the heating time of the sole primary sample is determined again according to the contraction degrees with different sizes, and then the conveying speed of the conveying belt in the long drying tunnel or the temperature of the heating mechanism in the long drying tunnel is adjusted according to the heating time, so that the adjusting process is very troublesome, and the production efficiency is affected.

Disclosure of Invention

In order to enable a long drying tunnel to manufacture sole finished products with different sizes without adjusting the conveying speed of a conveying belt or the temperature of an oven, the production efficiency is improved, and the sole shaping device is provided.

The application provides a sole setting device adopts following technical scheme:

the utility model provides a sole setting device, includes a plurality of groups oven module, a plurality of groups the drying tunnel has been seted up to the inside of oven module, a plurality of groups oven module interconnect, and a plurality of groups oven module the drying tunnel communicates each other, be provided with conveyer belt and heating mechanism in the drying tunnel, the side discharge gate that has been seted up to the lateral wall of oven module, the side discharge gate with the drying tunnel communicates each other.

Through adopting above-mentioned technical scheme, setting device has a plurality of groups oven module interconnect to form, and every oven module's lateral wall all is provided with the side discharge gate, and the side discharge gate is along setting device's length direction evenly distributed. Because the distances from the inlet end of the shaping device to different side discharge holes are different, the heating shaping time of the sole finished products taken out from different side discharge holes is also different, so that production staff can determine the heating time of the sole primary sample according to the shrinkage degree of the sole with different sizes, and take out the sole finished products with corresponding sizes from different side discharge holes. At this time, production staff does not need to adjust the temperature of the oven with the latter speed of conveying the conveyor belt, and sole finished products with different sizes can be manufactured according to different heating and shaping time, thereby being beneficial to improving the production efficiency.

Optionally, be equipped with feed divider in the drying tunnel, feed divider includes guide baffle and drive assembly, guide baffle is located the conveyer belt is close to one side of side discharge gate, guide baffle's one end fixedly connected with axostylus axostyle, the axostylus axostyle with drive assembly connects, drive assembly can drive the axostylus axostyle rotates, the axostylus axostyle drives guide baffle rotates to the top of conveyer belt.

Through adopting above-mentioned technical scheme, utilize drive assembly to rotate the top of deflector to the conveyer belt, then through the sole primary sample on the deflector interception conveyer belt, the sole primary sample can be along the deflector motion to the side discharge gate under the drive of conveyer belt, and the production personnel need not to take out the sole finished product from the side discharge gate with the help of other instruments this moment, has realized automatic ejection of compact, is favorable to improving production efficiency.

Optionally, the guide baffle rotates and is connected with a plurality of groups of leading wheels, the axis of rotation of leading wheel with the axostylus axostyle is parallel, a plurality of groups the leading wheel is followed the length direction evenly distributed of guide baffle.

Through adopting above-mentioned technical scheme, the leading wheel is through the motion of the first appearance of rolling guide sole toward the side discharge gate to turning into the rolling friction of leading wheel with the sliding friction between the first appearance of sole and the deflector, being favorable to reducing the frictional force between the first appearance of sole and the deflector, thereby making the first appearance of sole can be more quickly more smoothly guided to the side discharge gate discharge, be favorable to preventing that the first appearance of sole from taking place to block up at the deflector in-process of guiding.

Optionally, the side discharge gate that all offered of oven module's both sides lateral wall, feed divider is equipped with two sets of altogether guide baffle and two sets of the axostylus axostyle, two sets of guide baffle and two sets of the axostylus axostyle is located respectively the both sides of conveyer belt, drive assembly can drive two sets of axostylus axostyle rotation simultaneously.

Through adopting above-mentioned technical scheme, all be equipped with the side discharge gate in oven module's both sides, both sides all are equipped with the guide plate that corresponds the guide moreover to play the effect of reposition of redundant personnel, when the sole that places simultaneously on the conveyer belt just like too much, the guide plate of both sides can separate the sole just like and guide the side discharge gate discharge to both sides respectively, need not all to the side discharge gate discharge of same one side, thereby is favorable to preventing that the sole just like too much and take place to pile up the side discharge gate of jam.

Optionally, the drive assembly includes the bull stick, the bull stick is located directly over the conveyer belt, the bull stick with oven module's both sides rotate and are connected, the one end of bull stick is connected with the driver, the both ends cover of bull stick is equipped with drive bevel gear, the axostylus axostyle cover is equipped with driven bevel gear, drive bevel gear and homonymy driven bevel gear intermeshing, drive bevel gear is located homonymy the axostylus axostyle deviates from one side of conveyer belt.

Through adopting above-mentioned technical scheme, the bull stick both ends all are provided with drive bevel gear, and the driven bevel gear intermeshing on drive bevel gear and the axostylus axostyle, and when the driver drive bull stick rotated, through drive bevel gear and driven bevel gear's transmission, the bull stick can drive two axostylus axostyle and rotate simultaneously. And because the driving bevel gear is located the axostylus axostyle of homonymy and deviates from the one side of conveyer belt, two axostylus axostyles are located between two driving bevel gears promptly, and when the bull stick rotated, drive two axostylus axostyles and rotate, and the rotation direction of two axostylus axostyle is opposite this moment to can drive two guide baffle and rotate to the top of conveyer belt simultaneously or to the both sides lateral wall of oven module simultaneously.

Optionally, the side discharge gate is connected with the second and bears the tray, the one end that the second born the tray is provided with the fixture block, the fixture block with the lower frame of side discharge gate is the lock joint each other, the second bears the tray be equipped with the second baffle all around.

Through adopting above-mentioned technical scheme, when the sole finished product comes out from the side discharge gate along the guide baffle, the conveyer belt can steadily convey the sole finished product to the second and bear on the tray, and the second baffle can prevent the sole finished product roll-off second and bear the tray moreover to the sole finished product that comes out from the side discharge gate can be easily collected to the producer. And the second bears the tray and is connected with the lower frame of side discharge gate through fixture block looks lock joint, and the second bears and can dismantle between tray and the oven module. When the sole finished product comes out from the other side discharge hole, the second bearing tray can be detached and installed on the lower frame of the other side discharge hole, so that the second bearing tray can be reused, and the use efficiency of the second bearing tray is improved. If the finished sole product does not come out through the side discharge hole, the second bearing tray can be disassembled, and the appearance of the shaping device is kept neat and beautiful.

Optionally, the drying tunnel includes upper drying tunnel and lower drying tunnel, upper drying tunnel with lower drying tunnel all is equipped with the conveyer belt and heating mechanism, the side discharge gate includes upside discharge gate and downside discharge gate, upside discharge gate and upper drying tunnel intercommunication, downside discharge gate and lower drying tunnel intercommunication.

Through adopting above-mentioned technical scheme, the drying tunnel divide into mutually independent upper drying tunnel and lower drying tunnel, and be equipped with independent conveyer belt and heating mechanism respectively, producer can set up conveyer belt speed or the heating temperature of upper drying tunnel and lower drying tunnel respectively, then place the sole primary sample in upper drying tunnel or the lower drying tunnel of corresponding temperature and speed according to required size, take out the sole finished product from the discharge gate of different side discharge gates or drying tunnels according to the time length of heat design again, producer need not to adjust conveyer belt's conveying speed or oven temperature again at this moment, the shaping device just can heat the sole finished product of different sizes simultaneously, not only be favorable to improving the variety of shaping device, make shaping device heat the finished product of shaping simultaneously out different sizes, and also improved heat shaping efficiency greatly.

Optionally, a lifting belt is connected to the starting end of the conveyor belt of the upper drying tunnel, and the other end of the lifting belt extends obliquely downwards.

Through adopting above-mentioned technical scheme, production personnel can place the sole primary sample on the lifting area, utilizes the conveying of lifting area, and the sole primary sample can be conveyed to higher on the conveyer belt of drying tunnel, and the sole primary sample is placed to the conveyer belt of the higher drying tunnel of the production personnel of being convenient for.

In summary, the embodiment of the present application has at least any one of the following beneficial effects:

1. through set up a plurality of groups of side discharge gates along setting device's length direction, the heating setting time of the sole finished product that different side discharge gates were taken out is different, so the production personnel can directly take out the sole finished product of different sizes from corresponding side discharge gate according to the shrink degree of sole different sizes, is favorable to improving production efficiency.

2. By utilizing the cooperation of the guide baffle and the conveyor belt, the sole finished product is guided to move towards the side discharge port, and a producer can take out the sole finished product from the side discharge port without using other additional tools, so that automatic discharging is realized, and the production efficiency is improved.

Drawings

Fig. 1 is a schematic structural view of a sole shaping device in this embodiment.

Fig. 2 is a schematic view of the structure of an inlet of the sole shaping device in this embodiment.

Fig. 3 is a cross-sectional view of A-A in fig. 2.

Fig. 4 is a cross-sectional view of B-B of fig. 2.

Fig. 5 is a partial enlarged view of a in fig. 4.

Fig. 6 is a schematic structural view of a second carrying tray of the sole shaping device in this embodiment.

Reference numerals illustrate:

1. an oven module; 11. a drying tunnel; 111. an upper drying tunnel; 112. a lower drying tunnel; 12. a conveyor belt; 121. lifting the belt; 13. a heating mechanism; 14. a circulating fan; 15. a carrier assembly; 151. a carrying platform; 152. a first load tray; 1521. a first baffle; 153. a second carrying tray; 1531. a clamping block; 1532. a second baffle; 16. a side discharge port; 161. an upper discharge port; 162. a lower discharge port; 163. a clamping groove; 17. a fixing seat; 2. a material distributing mechanism; 21. a guide baffle; 211. a guide wheel; 22. a drive assembly; 221. a rotating rod; 222. a driving member; 223. a drive bevel gear; 224. a driven bevel gear; 23. and a shaft lever.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-6.

The embodiment of the application discloses a sole shaping device. Referring to fig. 1 and 2, a sole shaping device includes a plurality of groups of oven modules 1, and is formed by interconnecting the plurality of groups of oven modules 1. Specifically, the oven module 1 is provided with a drying tunnel 11 for heating and shaping the initial sample of the sole, a conveyor belt 12 and a heating mechanism 13 are arranged in the drying tunnel 11, wherein the conveyor belt 12 is used for conveying the initial sample of the sole, the heating mechanism 13 consists of common heating pipes and is used for heating air, a circulating fan 14 is further arranged above the heating mechanism 13, and the circulating fan 14 is used for circulating hot air in the oven, so that the temperature in the drying tunnel 11 is sufficiently and uniformly increased.

Referring to fig. 1 and 3, in this embodiment, five groups of oven modules 1 are provided, the drying tunnels 11 of the five groups of oven modules 1 are mutually communicated and form a long drying tunnel, and the conveyor belts 12 in the five groups of oven modules 1 are mutually connected to form a long conveyor belt, so that the long conveyor belt can convey the primary sample of the sole from the inlet of the first oven module 1 to the outlet of the last oven module 1, and the primary sample of the sole is fully heated, contracted and shaped in the long drying tunnel.

Referring to fig. 1 and 3, in the present embodiment, the drying tunnel 11 is divided into an upper drying tunnel 111 and a lower drying tunnel 112, and the upper drying tunnel 111 and the lower drying tunnel 112 are provided with an independent conveyor 12 and a heating mechanism 13, respectively. When the five groups of oven modules 1 are connected with each other, the upper drying tunnels 111 of the five groups of oven modules 1 are connected with each other to form an upper long drying tunnel, and similarly, the lower drying tunnels 112 of the five groups of oven modules 1 are connected with each other to form a lower long drying tunnel. And the upper long drying tunnel and the lower long drying tunnel are respectively provided with independent heating mechanisms 13, and production personnel can respectively adjust the temperatures of the upper long drying tunnel and the lower long drying tunnel, so that the production personnel can place the primary sample of the sole in the upper long drying tunnel or the lower long drying tunnel with corresponding temperatures according to the required sizes, and the shaping device can heat and shape sole finished products with different sizes at the same time.

Referring to fig. 3, a lifting belt 121 is connected to a start end of the conveyor belt 12 of the upper drying tunnel 111 of the first oven module 1, the other end of the lifting belt 121 extends obliquely downward, a producer can place a sole primary sample on the lifting belt 121, and the sole primary sample can be transferred to the conveyor belt 12 of the upper drying tunnel 111 higher by transfer of the lifting belt 121, thereby facilitating the producer to place the sole primary sample to the conveyor belt 12 of the upper drying tunnel 111 higher.

Referring to fig. 1 and 3, a carrying assembly 15 is provided at the outlet of the drying tunnel 11 of the last oven module 1, and the carrying assembly 15 facilitates the collection of finished soles coming out of the drying tunnel 11 by the production personnel. The carrying assembly 15 includes a carrying platform 151 and a first carrying tray 152, and specifically, the carrying platform 151 is disposed at an outlet of the lower drying tunnel 112 and is level with the conveyor belt 12 of the lower drying tunnel 112, and when the finished sole product comes out of the lower drying tunnel 112, the conveyor belt 12 can stably convey the finished sole product onto the carrying platform 151. The first carrying tray 152 is disposed at the outlet of the upper drying tunnel 111, one end of the first carrying tray is fixedly disposed at the outlet of the upper drying tunnel 111, and is located below the conveyor belt 12, and the other end of the first carrying tray extends obliquely downward. The first baffle 1521 is disposed on the peripheral side of the first loading tray 152 to prevent the finished sole product from sliding out of the loading tray. When the finished soles come out of the upper drying tunnel 111, the conveyor belt 12 can smoothly convey the finished soles onto the bearing tray and slide down to the baffle plate along the bearing tray, so that the production personnel can easily collect the finished soles positioned in the upper drying tunnel 111.

Referring to fig. 1, side discharge ports 16 are formed on both side walls of the oven module 1 corresponding to each drying tunnel 11, and since the drying tunnels 11 are divided into an upper drying tunnel 111 and a lower drying tunnel 112 in this embodiment, the side discharge ports 16 include an upper side discharge port 161 and a lower side discharge port 162. Wherein, the upper discharge hole 161 is correspondingly arranged at two sides of the upper drying tunnel 111 of the oven module 1, and the upper discharge hole 161 is communicated with the upper drying tunnel 111; the lower discharging hole 162 is correspondingly arranged at two sides of the lower drying tunnel 112 of the oven module 1, and the lower discharging hole 162 is communicated with the lower drying tunnel 112.

Referring to fig. 3, two sets of material distributing mechanisms 2 are arranged in the oven module 1, the two sets of material distributing mechanisms 2 are respectively arranged in the upper drying tunnel 111 and the lower drying tunnel 112, and the material distributing mechanisms 2 are used for guiding the initial sample of the sole on the conveyor belt 12 to the side discharge holes 16 on two sides of the oven module 1.

Referring to fig. 3 and 4, taking the material distributing mechanism 2 disposed in the upper drying tunnel 111 as an example, the material distributing mechanism 2 includes two guide baffles 21 and a driving assembly 22, wherein the two guide baffles 21 are disposed on two sides of the conveyor 12 respectively. One end of each of the two guide baffles 21 is connected with a shaft rod 23, a fixed seat 17 extends out of one side of the side wall of the oven module 1 towards the drying tunnel 11, and the shaft rods 23 are rotationally connected with the fixed seat 17 and extend perpendicular to the conveyor belt 12. The two shaft rods 23 are connected with the driving assembly 22, the driving assembly 22 can drive the two shaft rods 23 to rotate simultaneously, the guide baffle plate 21 is driven to rotate around the shaft rods 23 as a rotating shaft, one end, far away from the shaft rods 23, of the guide baffle plate 21 is enabled to rotate to the upper portion of the conveyor belt 12, at the moment, one ends, far away from the shaft rods 23, of the guide baffle plates 21 located on two sides of the conveyor belt 12 are mutually abutted, and the guide baffle plate 21 can intercept and guide a sole primary sample on the conveyor belt 12 to the upper discharge port 161.

Referring to fig. 1 and 4, when the guide baffle 21 rotates reversely to one side of the conveyor belt 12, the guide baffle 21 is closely attached to the side wall of the oven module 1, so that the guide baffle 21 can largely block the side discharge hole 16, which is beneficial to reducing the heat dissipation of the drying tunnel 11.

Referring to fig. 3 and 5, the guide baffle 21 is uniformly provided with a plurality of sets of guide wheels 211 at a side close to the conveyor belt 12. The guide wheels 211 are rotatably connected with the guide baffle 21, the central axes of the guide wheels 211 are parallel to the shaft lever 23, the guide wheels 211 are uniformly distributed along the length direction of the guide baffle 21, and adjacent guide wheels 211 are close to but not in contact with each other.

Referring to fig. 4 and 5, the driving assembly 22 includes a rotary shaft 221, a driving member 222 for driving the rotary shaft 221 to rotate, two drive bevel gears 223 for transmission, and two driven bevel gears 224. The rotating rods 221 horizontally penetrate through two sides of the oven module 1 and are rotationally connected with the oven module 1, and the rotating rods 221 are arranged right above the conveyor belt 12 and do not interfere with the primary sample of the sole in the transmission on the conveyor belt 12.

Referring to fig. 1 and 4, the driving member 222 may be a driving device capable of driving the rotation rod 221 to rotate, for example, a manually rotated rotation handle or a power source driven driving motor, and in this embodiment, the driving member 222 is a driving motor. Specifically, the driving motor is disposed at the outer side of the oven module 1, and the driving end of the driving motor is fixedly connected with the rotating rod 221.

Referring to fig. 4 and 5, two driven bevel gears 224 are respectively mounted on the shaft rods 23 at both sides of the conveyor belt 12, two drive bevel gears 223 are respectively mounted at both ends of the rotating rod 221, and the drive bevel gears 223 are respectively engaged with the driven bevel gears 224 on the shaft rods 23 at the same side. The drive bevel gears 223 are located on the same side of the shaft 23 facing away from the conveyor belt 12, and the drive bevel gears 223 on the other end are identical, so that both shafts 23 are located between the two drive bevel gears 223. When the driving motor drives the rotating rod 221 to rotate, the rotating rod 221 can simultaneously drive the shaft rods 23 on two sides of the conveyor belt 12 to rotate through the transmission of the driving bevel gear 223 and the driven bevel gear 224, and the directions of the shaft rods 23 are opposite.

Referring to fig. 1 and 6, in order to facilitate the collection of finished soles from the side outlets 16 by the production personnel, the carrying assembly 15 further comprises a second carrying tray 153, and the second carrying tray 153 is respectively arranged at the side outlets 16 at two sides of the drying tunnel 11. Specifically, the lower frame of the side discharge port 16 is provided with a clamping groove 163, one end of the second bearing tray 153 is provided with a clamping block 1531, and the clamping block 1531 and the clamping groove 163 are fastened to each other, so that the second bearing tray 153 is detachably connected with the oven module 1. The other end of the second carrying tray 153 extends obliquely downwards, and a second baffle 1532 is arranged on the periphery of the second carrying tray 153 to prevent the sole product from sliding out of the second carrying tray 153.

The implementation principle of the sole shaping device provided by the embodiment of the application is as follows:

because the distances from the inlet end of the shaping device to the different side discharge holes 16 are different, the heating shaping time of the sole finished products taken out from the different side discharge holes 16 is also different, so that production staff can determine the heating time of the sole initial sample according to the shrinkage degree of the sole with different sizes, and take out the sole finished products with different sizes from the different side discharge holes 16. At this time, the producer does not need to adjust the temperature of the oven at the latter speed of conveyance of the conveyor belt 12, which is advantageous for improving the productivity.

When the producer needs to take out the sole finished product from the side discharge hole 16, the producer turns on the power supply of the driving motor corresponding to the side discharge hole 16, the driving motor drives the rotary rod 221 to start to rotate, and then the shaft rods 23 on two sides of the conveyor belt 12 and the guide baffle 21 are driven to rotate through the transmission of the driving bevel gear 223 and the driven bevel gear 224. When the guide baffle plates 21 rotate to the upper part of the conveyor belt 12, the guide baffle plates 21 on two sides are mutually abutted, so that finished soles on the conveyor belt 12 are intercepted, then the finished soles can move to the side discharge holes 16 along the guide baffle plates 21 under the drive of the conveyor belt 12, and production staff can take out the finished soles from the side discharge holes 16 without other tools.

Through set up a plurality of leading wheel 211 that are used for guiding the sole finished product on the deflector 21, change the sliding friction between sole finished product and the deflector 21 into the rolling friction of sole finished product and leading wheel 211, be favorable to reducing the frictional force that the sole finished product receives when being guided to make the sole finished product can be guided to the side discharge gate 16 more fast more smoothly and discharge, be favorable to preventing the sole finished product and take place to block up at the deflector 21 in-process of guiding.

The present embodiment is merely illustrative of the present application and is not limiting of the present application, and those skilled in the art, after having read the present specification, may make modifications to the present embodiment without creative contribution as necessary, but are protected by patent laws within the scope of the claims of the present application.

Claims (8)

1. A sole shaping device, its characterized in that: including a plurality of oven module (1), a plurality of groups oven module (1) have been seted up in the inside of oven module (1), a plurality of groups oven module (1) interconnect, and a plurality of groups oven module (1) oven module (11) communicate each other, be provided with conveyer belt (12) and heating mechanism (13) in oven module (11), lateral discharge hole (16) have been seted up to the lateral wall of oven module (1), lateral discharge hole (16) with oven module (11) communicate each other.

2. The sole shaping device according to claim 1, wherein: be equipped with feed divider (2) in drying tunnel (11), feed divider (2) are including guide baffle (21) and drive assembly (22), guide baffle (21) are located one side that conveyer belt (12) are close to side discharge gate (16), one end fixedly connected with axostylus axostyle (23) of guide baffle (21), axostylus axostyle (23) with drive assembly (22) are connected, drive assembly (22) can drive axostylus axostyle (23) rotate, axostylus axostyle (23) drive guide baffle (21) rotate to the top of conveyer belt (12).

3. A sole shaping device according to claim 2, wherein: the guide baffle (21) is rotationally connected with a plurality of groups of guide wheels (211), the rotating shafts of the guide wheels (211) are parallel to the shaft rods (23), and the guide wheels (211) of the plurality of groups are uniformly distributed along the length direction of the guide baffle (21).

4. A sole shaping device according to claim 2, wherein: side discharge gate (16) that all offered of both sides lateral wall of oven module (1), feed divider (2) are equipped with two sets of deflector (21) and two sets of axostylus axostyle (23) altogether, two sets of deflector (21) and two sets of axostylus axostyle (23) are located respectively the both sides of conveyer belt (12), drive assembly (22) can drive two sets of axostylus axostyle (23) simultaneously.

5. The sole shaping apparatus of claim 4, wherein: the drive assembly (22) comprises a rotating rod (221), the rotating rod (221) is arranged right above the conveyor belt (12), the rotating rod (221) is rotationally connected with two sides of the oven module (1), one end of the rotating rod (221) is connected with a driving piece (222), two ends of the rotating rod (221) are sleeved with a driving bevel gear (223), a shaft rod (23) is sleeved with a driven bevel gear (224), the driving bevel gear (223) is meshed with the driven bevel gear (224) on the same side, and the driving bevel gear (223) is located on the same side, and the shaft rod (23) is away from one side of the conveyor belt (12).

6. A sole shaping apparatus according to any one of claims 1-5, wherein: the side discharge port (16) is connected with a second bearing tray (153), a clamping block (1531) is arranged at one end of the second bearing tray (153), the clamping block (1531) is fastened with the lower frame of the side discharge port (16), and a second baffle (1532) is arranged around the second bearing tray (153).

7. The sole shaping device according to claim 1, wherein: the drying tunnel (11) comprises an upper drying tunnel (111) and a lower drying tunnel (112), the upper drying tunnel (111) and the lower drying tunnel (112) are both provided with the conveyor belt (12) and the heating mechanism (13), the side discharge port (16) comprises an upper side discharge port (161) and a lower side discharge port (162), the upper side discharge port (161) is communicated with the upper drying tunnel (111), and the lower side discharge port (162) is communicated with the lower drying tunnel (112).

8. The sole shaping apparatus of claim 7, wherein: the starting end of the conveyor belt (12) of the upper drying tunnel (111) is connected with a lifting belt (121), and the other end of the lifting belt (121) extends obliquely downwards.