CN216804127U - Vulcanizing machine - Google Patents

Abstract

The utility model provides a vulcanizing machine, comprising: the tire vulcanizing device comprises a first mold body and a second mold body, wherein the first mold body and the second mold body are movably arranged relatively so as to vulcanize a tire when the first mold body and the second mold body are closed; a bladder disposed within the second mold body such that the bladder supports an inner side of the tire upon inflation of the bladder; and the air cylinder assembly is in driving connection with the second die body so as to push the second die body to move towards the first die body after the capsule is inflated, so that the second die body and the first die body are closed. The vulcanizing machine solves the problem that the vulcanizing machine in the prior art is not energy-saving and environment-friendly.

Description

Vulcanizing machine

Technical Field

The utility model relates to the field of vulcanizing machines, in particular to a vulcanizing machine.

Background

The tire vulcanizer is a special device for the last vulcanizing process in the tire production process, a mechanical dual-mold vulcanizer is mainly adopted in the early stage, the tire vulcanizer is heavy and has low precision, and the requirement of intelligent control cannot be met, so that the hydraulic vulcanizer appears until all tire enterprises adopt the hydraulic dual-mold vulcanizer to realize the improvement of the production efficiency and the quality of tire products.

The hydraulic double-mold vulcanizing machine mainly solves the problem of stable control of all actions, the actions of mold opening and closing, manipulator lifting, segmented mold driving, upper/lower ring lifting of a central mechanism and the like are driven by a hydraulic oil cylinder, the speed and the position of the movement process are controlled with high precision, the position and the speed of all the actions of the whole machine are controlled by hydraulic pressure in the existing hydraulic vulcanizing machine, and the mold closing force required by tire vulcanization is provided at the same time. The internal pressure and temperature required for vulcanization are provided by a steam and nitrogen double medium. The air vent is arranged on the mold to discharge air in the mold cavity after mold closing, so that the tire molded body after vulcanization is ensured.

However, steam and hydraulic pressure can cause certain corruption to pipeline or vulcanizer after long-time use, and the running, the leakage problem that leak exists in steam, the hydraulic pressure has caused the adverse effect to enterprise's production environment.

With the aggravation of the competitive environment of the tire product market, the strong requirements of enterprises on energy conservation, consumption reduction and production and manufacturing cost reduction are promoted, and the energy consumption of the vulcanization process accounts for about 60% of the production cost of the whole tire, so that the energy conservation, consumption reduction, innovation and upgrading requirements of the tire manufacturing enterprises on the vulcanization process are strong.

In addition, tire vulcanization production processes need a large amount of heat, belong to high pressure, high temperature operating mode, and the hydraulic system under this operating mode easily appears the pipeline joint ageing, and hydraulic oil causes hydraulic oil to reveal in the sealed harm scheduling problem that leads to of high temperature (> 60 ℃) operation under the high temperature, when having increaseed production maintenance cost, also pollutes secret quality of water, destroys ecological environment's problem.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a vulcanizing machine, which aims to solve the problem that the vulcanizing machine in the prior art is not energy-saving and environment-friendly.

In order to achieve the above object, according to one aspect of the present invention, there is provided a vulcanizer comprising: the tire vulcanizing device comprises a first mold body and a second mold body, wherein the first mold body and the second mold body are relatively movably arranged so as to vulcanize a tire when the first mold body and the second mold body are closed; a bladder disposed within the second mold body such that the bladder supports an inner side of the tire upon inflation of the bladder; and the air cylinder assembly is in driving connection with the second die body so as to push the second die body to move towards the first die body after the capsule is inflated, so that the second die body and the first die body are closed.

Further, the cylinder assembly adopts an annular cylinder, and the annular cylinder is arranged at the bottom of the second die body to drive the second die body to move up and down.

Further, the vulcanizer still includes: a frame; the manipulator assembly is movably arranged on the rack and is used for loading and unloading the tire into and from the vulcanizing machine; driving motor, driving motor set up in the frame, and driving motor is connected with the drive of manipulator subassembly to drive manipulator subassembly lift and move.

Further, the manipulator subassembly includes dress child manipulator and unloads child manipulator, and the vulcanizer still includes: the driving screw component is connected with the driving motor, and the tire mounting manipulator and the tire dismounting manipulator are movably arranged on the driving screw component respectively.

Further, the vulcanizer still includes: the first protective cover is connected with the first die, and the second protective cover is connected with the second die; and the third shield is telescopically connected with the first shield and/or the second shield so that the first shield is connected with the second shield through the third shield to form a vulcanization space when the first mold and the second mold are connected.

Further, the vulcanizer still includes: a first shield and a second shield, the first shield and the second shield being relatively movably arranged to form a sealed chamber for curing the tire carcass when the first shield and the second shield are coupled; wherein the first shield has an inner wall and an outer wall with a vacuum cavity disposed therebetween to reduce heat transfer between the inner wall and the outer wall.

Further, be equipped with the vacuum interface on the outer wall, the vulcanizer still includes: and the vacuum valve is arranged on the first shield or the second shield and is communicated with the vacuum cavity so as to vacuumize the vacuum cavity.

Further, a fill assembly is provided within the vacuum chamber to reduce heat transfer between the inner wall and the outer wall.

Further, the vulcanizer still includes the second heating assembly, and the second heating assembly sets up in the vulcanization room to heat for the vulcanization chamber of vulcanization room, wherein, the second heating assembly includes: the heating plate device is arranged in the vulcanizing chamber; and the electric heating pipe device is arranged on the heating plate device so as to provide heat for the vulcanizing chamber through the heating plate device.

Further, be equipped with the capsule in the vulcanizer, the vulcanizer still includes: a gas delivery passage in communication with the capsule for inflating the capsule by delivering gas into the capsule; the first heating component is arranged on the gas transmission channel to heat the gas transmitted to the capsule.

According to the vulcanizing machine, the tire in the mold body is vulcanized after the first mold body and the second mold body are closed, at the moment, the bladder is positioned on the inner side of the tire, and the inner wall of the tire is supported by filling gas with preset pressure into the bladder, however, when the pressure in the bladder is higher, the first mold body above the bladder is also jacked, so that the first mold body and the second mold body are not closed tightly or separated.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the utility model and, together with the description, serve to explain the utility model and not to limit the utility model. In the drawings:

figure 1 shows a schematic view from a first perspective of an embodiment of a vulcanizer according to the present invention;

FIG. 2 shows a schematic view from a second perspective of an embodiment of the vulcanizer of the present invention;

FIG. 3 shows a schematic view of an embodiment of a curing chamber shield of the curing press of the present invention;

FIG. 4 shows a schematic view of a portion of an embodiment of the vulcanization chamber of the vulcanizer of the present invention;

figure 5 shows a schematic view of an embodiment of a heating plate of the vulcanizer of the present invention.

Wherein the figures include the following reference numerals:

10. a cylinder assembly; 20. heating plates; 21. a manipulator assembly; 22. a drive motor; 23. a drive screw assembly; 41. a first shield; 411. a first seal ring; 42. a second shield; 43. a third shield; 51. a first heating assembly; 52. an upper support rod; 521. an air outlet; 53. a protective sleeve; 60. and a frame.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

Referring to fig. 1 to 5, a vulcanizer includes: the tire vulcanizing machine comprises a cylinder assembly 10, a bladder, a first mold body and a second mold body, wherein the first mold body and the second mold body are relatively movably arranged so as to vulcanize a tire when the first mold body and the second mold body are closed; the bladder is arranged in the second mold body so that the bladder supports the inner side of the tire after being inflated; the cylinder assembly 10 is drivingly connected to the second mold body to urge the second mold body toward the first mold body to close the second mold body and the first mold body after the bladder is inflated.

The utility model provides an energy-saving and environment-friendly vulcanizing machine, after a first die body and a second die body of the vulcanizing machine are closed, the tyre is vulcanized inside the mold, the bladder is inside the tyre and is inflated with gas of certain pressure to support the inner wall of the tyre, and the first mold will be pushed up when the pressure inside the bladder is relatively high, thereby leading the first die body and the second die body to be not tightly closed or separated, the utility model designs that the cylinder component 10 is connected with the lower second die body in a driving way, after the capsule is inflated, a force moving towards the first die body is applied to the second die body so as to counteract the force applied to the first die body after the capsule is supported, and the problem of poor sealing of the first die body and the second die body is solved, and meanwhile, the driving cylinder is arranged at the bottom of the vulcanizing chamber, oil supply is not needed, the structure is simple, the maintenance is convenient, and the energy-saving and environment-friendly effects are realized.

The cylinder assembly 10 adopts an annular cylinder, and the annular cylinder is arranged at the bottom of the second die body to drive the second die body to move up and down.

In order to uniformly apply upward force to the second die body, the second die body is enabled to synchronously and integrally move, and meanwhile, in order to facilitate installation, the annular cylinder is adopted to drive the second die body to move.

The vulcanizing machine further comprises a rack 60, a manipulator assembly 21 and a driving motor 22, wherein the manipulator assembly 21 is movably arranged on the rack 60 so as to load and unload the tire into and from the vulcanizing machine; the driving motor 22 is arranged on the frame 60, and the driving motor 22 is in driving connection with the manipulator assembly 21 to drive the manipulator assembly 21 to move up and down. The manipulator assembly 21 comprises a tire mounting manipulator and a tire dismounting manipulator, the vulcanizing machine further comprises a transmission lead screw assembly 23, the transmission lead screw assembly 23 is connected with a driving motor 22, and the tire mounting manipulator and the tire dismounting manipulator are movably arranged on the transmission lead screw assembly 23 respectively.

As shown in fig. 1, the manipulator assembly 21 in this embodiment is driven by the driving motor 22, two driving motors 22 are respectively disposed on two sides of the upper portion of the frame 60, the driving screw assembly 23 includes two driving screws, the manipulator assembly 21 includes a tire loading manipulator for placing a tire into the vulcanizing chamber and a tire unloading manipulator for taking out the tire from the vulcanizing chamber, the tire loading manipulator and the tire unloading manipulator are respectively disposed on the two driving screws, one driving motor 22 drives one driving screw to rotate, so as to drive the tire loading manipulator and the tire unloading manipulator to move up and down, and in addition, the tire loading manipulator and the tire unloading manipulator can respectively rotate horizontally relative to the driving screws, so as to complete the tire loading and unloading functions.

The vulcanizer further comprises a third shield 43, a first shield 41 and a second shield 42, the first shield 41 being connected to the first mould and the second shield 42 being connected to the second mould; the third shield 43 is telescopically coupled to the first shield 41 and/or the second shield 42 such that when the first mold and the second mold are coupled, the first shield 41 is coupled to the second shield 42 through the third shield 43 to form a curing space.

The utility model provides a vulcanizing chamber shield for sealing a mold, which is divided into three parts in the vertical direction, namely a first shield 41, a third shield 43 and a second shield 42 in sequence, wherein when the third shield 43 is connected with the first shield 41, the third shield 43 can relatively slide and stretch relative to the first shield 41, and when the third shield 43 is connected with the second shield 42, the third shield 43 can relatively slide and move relative to the second shield 42, and when the first mold and the second mold are closed, the first shield 41 is hermetically connected with the second shield 42 through the third shield 43 so as to seal the first mold and the second mold in the shields.

After the first shield 41, the third shield 43 and the second shield 42 are hermetically connected, a vacuum valve is further provided on the first shield 41 or the second shield 42, and the vacuum valve is opened to evacuate the space inside the shield of the vulcanization chamber.

As shown in fig. 2, in order to ensure the sealing performance of the vulcanizing chamber shield, sealing rings are arranged among the first shield 41, the third shield 43 and the second shield 42, wherein a circle of sealing groove is arranged on the inner wall of the third shield 43 for installing the first sealing ring 411, because the first shield 41 and the third shield 43 need to move relatively, the first sealing ring 411 is a Y-shaped sealing ring, the opening is oriented, the second sealing ring is arranged at the bottom of the third shield 43 or at the top of the second shield 42, and in addition, the second sealing ring can be arranged at the bottom of the third shield 43 and at the top of the second shield 42.

The first shield 41, the second shield 42 and the third shield 43 are all provided with heat insulation layers therein.

The first shield 41, the second shield 42 and the third shield 43 are all designed to be of a double-layer structure, and are respectively provided with an inner wall and an outer wall, the space between the inner wall and the outer wall is vacuumized and filled with heat insulation materials, and the vacuum layer is effectively insulated with the heat insulation materials.

The vulcanizer still includes: a first shield 41 and a second shield 42, the first shield 41 and the second shield 42 being relatively movably arranged to form a sealed chamber for curing the tyre carcass when the first shield 41 is coupled with the second shield 42; wherein the first shield 41 has an inner wall and an outer wall with a vacuum chamber therebetween to reduce heat transfer between the inner wall and the outer wall. Be equipped with the vacuum interface on the outer wall, the vulcanizer still includes: and a vacuum valve installed on the first shield 41 or the second shield 42 and communicating with the vacuum chamber to evacuate the vacuum chamber. A fill assembly is disposed within the vacuum chamber to reduce heat transfer between the inner wall and the outer wall.

The vulcanizing chamber of the vulcanizing machine adopts a vacuum technology to isolate heat inside and outside the vulcanizing chamber, and particularly, a vulcanizing chamber shield adopts a double-layer design, and after an electric heating mode is adopted, the problem that an opening needs to be formed in the vulcanizing chamber shield for the whole body and hot oil to arrange an interface is effectively solved, so that the whole vulcanizing chamber shield has better sealing performance.

The vulcanizing machine further comprises a second heating assembly, the second heating assembly is arranged in the vulcanizing chamber to heat a vulcanizing cavity of the vulcanizing chamber, the second heating assembly comprises a heating plate device and an electric heating pipe device, and the heating plate device is arranged in the vulcanizing chamber; the electric heating pipe device is arranged on the heating plate device so as to provide heat for the vulcanizing chamber through the heating plate device.

Be equipped with the capsule in the vulcanizer, state the vulcanizer still includes: a gas delivery channel communicating with the capsule to inflate the capsule by delivering gas into the capsule and a first heating assembly 51; a first heating element 51 is arranged on the gas delivery channel to heat the gas delivered to the capsule.

The vulcanizing machine adopts an electric heating mode to provide heat for a vulcanizing chamber so as to vulcanize a tire, and specifically, the heating plate device is provided with an upper heating plate 20 and a lower heating plate 20, the two heating plates 20 are respectively provided with an electric heating pipe so as to provide heat for the heating plates 20 and further heat the tire in a mold through the heating plates 20, in addition, in order to ensure that the temperature of the inner side of the tire is consistent with that of the outer side, a first heating assembly 51 is also arranged, the first heating assembly 51 adopts an electric heating wire and is wound at the position of an air inlet of a bladder so as to heat the air when the bladder is inflated, so that the bladder also generates heat to heat the inner side of the tire, and the inner side and the outer side of the tire are uniformly heated.

The vulcanizing chamber further comprises a central mechanism, an upper ring oil cylinder and an upper support rod 52 are arranged on the central mechanism, the upper support rod 52 is connected with the capsule, and the upper ring oil cylinder is in driving connection with the upper support rod 52 so as to drive an upper support of the capsule to move through the upper support rod 52; wherein the gas transmission channel is arranged in the upper support bar 52.

The bottom of the vulcanizing chamber is also provided with a central mechanism which can drive the capsule to move, and in order to facilitate the gas delivery into the capsule, the upper support rod 52 which drives the capsule to move is designed into a hollow rod, so that the upper support rod 52 can drive the capsule to move and can also deliver the gas into the capsule through an internal channel.

The upper support rod 52 is provided with an air outlet 521 at the top, and the first heating assembly 51 is disposed at the air outlet 521. The air outlet 521 is plural, and the plural air outlets 521 are arranged at intervals around the top of the upper support bar 52. The first heating assembly 51 is heated using an electric heating wire wound around the upper support rod 52.

The top end of the upper support rod 52 is provided with a circle of air outlet 521, so that the electric heating wire is wound at the position of the air outlet 521 in order to fix the electric heating wire, so that the heating temperature of nitrogen passing through the air outlet 521 is increased, and the capsule is heated.

The vulcanization chamber further comprises a protective sleeve 53, and the protective sleeve 53 covers the outer side of the electric heating wire. This protective sheath 53 adopts high temperature resistant material, and protective sheath 53 has thermal-insulated effect, prevents electric heating wire and capsule direct contact, and further, is equipped with a plurality of holes on protective sheath 53 in order to be used for giving vent to anger.

From the above description, it can be seen that the above-described embodiments of the present invention achieve the following technical effects:

the utility model provides an energy-saving and environment-friendly vulcanizing machine, after a first die body and a second die body of the vulcanizing machine are closed, the tyre inside the mold is vulcanized, the bladder is inside the tyre and is inflated with gas of certain pressure to support the inner wall of the tyre, and the first mold will be pushed up when the pressure inside the bladder is relatively high, thereby leading the first die body and the second die body to be not tightly closed or separated, the utility model designs that the cylinder component 10 is connected with the lower second die body in a driving way, after the capsule is inflated, a force moving towards the first die body is applied to the second die body so as to counteract the force applied to the first die body after the capsule is supported, and the problem of poor sealing of the first die body and the second die body is solved, and meanwhile, the driving cylinder is arranged at the bottom of the vulcanizing chamber, so that oil supply is not needed, the structure is simple, the maintenance is convenient, and the energy conservation and the environmental protection are realized.

The vulcanizing machine of the utility model upgrades the energy medium on the basis of the existing steam vulcanization: the steam heat energy is upgraded into the electric heat energy, an electric heating device (inside/outside) is additionally arranged on the basis of meeting the tire vulcanization pressure and temperature, and the deviation of the inside temperature and the outside temperature within the set temperature range is +/-1.5 ℃ through an advanced temperature control module. Through the upgrading optimization of the energy medium, the whole structure is further simplified: the hot plate does not need groove milling and welding, the internal and external temperature pipelines are simplified, and the production and use cost is reduced by 40%; through upgrading and optimizing of energy media, the traditional steam energy is cancelled, the investment and factory building cost of terminal tire users is greatly reduced, the pipelines and valves of a factory are greatly reduced, the maintenance labor and spare parts are greatly reduced, and the daily investment cost is greatly reduced; through the optimization of energy medium, the phenomenon of leakage of original steam channel disappears, the working environment of factory workshop is greatly optimized, and the workplace of operating personnel is further beautified.

Further, the hydraulic system is simplified, a mold clamping force pressurizing oil cylinder of a high-pressure part is omitted, a gas pressurizing mode is used, and meanwhile, the gas pressurizing mode is matched with the internal pressure nitrogen in the original thermal system, and mold clamping force pressurization can be achieved without adding a new pressure source;

further cancel manipulator lift cylinder, adopt servo motor + ball structure drive, when satisfying the position precision, can realize the servo regulation of drive power according to the change of load, the energy saving moves more steadily.

In addition, a brand new vacuum vulcanizing chamber structure is adopted, a vacuum pump and a vacuum vulcanizing chamber meeting the sealing requirement are arranged, after the mold is closed, the vacuum pumping is carried out in the vulcanizing chamber, the redundant air is completely exhausted, the tight fit between the green tire and the mold is ensured, the cavitation erosion cannot occur, the quality of tire products is improved, meanwhile, the shaving process is omitted for tire enterprises, and the production and management cost is further reduced.

The second heating assembly is divided into an upper heating plate and a lower heating plate, spiral grooves are respectively arranged on the upper heating plate and the lower heating plate and used for mounting an electric heating tube, the bendable electric heating tube is adopted, the assembly is convenient, the power and the temperature can be controlled by adopting voltage control, the control of the temperatures of different areas is ensured by an advanced temperature control system, and the temperature difference of the heating plates is ensured to be +/-1.5 ℃.

The vulcanizing machine of the utility model heats the original nitrogen of the internal pressure source to the process temperature by arranging the electric heating device which extends into the bladder in the central mechanism, thereby meeting the requirement of the internal temperature of the tire vulcanization.

The vulcanizing chamber is characterized in that a sealing device is arranged on an upper main plate (an upper hot plate mounting plate) and a lower base plate (a lower hot plate mounting plate) of the vulcanizing chamber, a sealing protective cover is arranged on the periphery of the vulcanizing chamber, the sealing device is additionally arranged at the three-level position of the Chinese and western, and the vacuumizing operation in the vulcanizing chamber is realized under the action of a vacuum pump.

By vacuumizing the vulcanizing chamber, after the vulcanizing machine is assembled, redundant air in the vulcanizing chamber is pumped out, so that the cavitation phenomenon of tire vulcanization is prevented, and the appearance of the vulcanized tire is ensured. Meanwhile, the exhaust holes on the periphery of the mold can be eliminated, so that the vulcanized tire has no tire hair, and the existing manual or mechanical hair shaving procedure is reduced.

The lifting movement position of the tire unloading manipulator is installed and upgraded to a transmission structure of a servo motor driving ball screw, an original tire unloading oil cylinder is omitted, hydraulic leakage points are reduced, and meanwhile, different power control of tire existence/no tire of manipulator action is achieved, namely, the servo motor can reduce transmission power and save energy according to load feedback in a tire-free state.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

The relative arrangement of the components and steps, the numerical expressions and numerical values set forth in these embodiments do not limit the scope of the present invention unless it is specifically stated otherwise. Meanwhile, it should be understood that the sizes of the respective portions shown in the drawings are not drawn in an actual proportional relationship for the convenience of description. Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail, but are intended to be part of the specification where appropriate. In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values. It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be discussed further in subsequent figures.

In the description of the present invention, it is to be understood that the directions or positional relationships indicated by the directional terms such as "front, rear, upper, lower, left, right", "lateral, vertical, horizontal" and "top, bottom", etc., are generally based on the directions or positional relationships shown in the drawings, and are for convenience of description and simplicity of description only, and in the case of not making a reverse description, these directional terms do not indicate and imply that the device or element referred to must have a particular orientation or be constructed and operated in a particular orientation, and therefore, should not be considered as limiting the scope of the present invention; the terms "inner and outer" refer to the inner and outer relative to the profile of the respective component itself.

Spatially relative terms, such as "above … …", "above … …", "above … …", "above", and the like, may be used herein for ease of description to describe one device or feature's spatial relationship to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary term "above … …" can include both an orientation of "above … …" and "below … …". The device may be otherwise variously oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

It should be noted that the terms "first", "second", and the like are used to define the components, and are only used for convenience of distinguishing the corresponding components, and the terms have no special meanings unless otherwise stated, and therefore, the scope of the present invention should not be construed as being limited.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. A vulcanizer characterized by comprising:

the tire vulcanizing device comprises a first mold body and a second mold body, wherein the first mold body and the second mold body are relatively movably arranged so as to vulcanize a tire when the first mold body and the second mold body are closed;

a bladder disposed within the second mold to support an inside of the tire upon inflation of the bladder;

the cylinder assembly (10) is in driving connection with the second die body so as to push the second die body to move towards the first die body after the capsule is inflated to enable the second die body and the first die body to be closed;

the second heating assembly is arranged in the vulcanizing chamber to heat a vulcanizing cavity of the vulcanizing chamber, and comprises a heating plate device and an electric heating pipe device, wherein the heating plate device is arranged in the vulcanizing chamber; the electric heating pipe device is arranged on the heating plate device so as to provide heat for the vulcanizing chamber through the heating plate device.

2. The vulcanizing machine as claimed in claim 1, wherein the cylinder assembly employs an annular cylinder disposed at a bottom of the second mold body for driving the second mold body to move up and down.

3. The vulcanizer of claim 1, further comprising:

a frame;

a robot assembly (21), said robot assembly (21) being movably disposed on said frame for loading and unloading tires into and out of said vulcanizer;

the driving motor (22), driving motor (22) set up in on the frame, driving motor (22) with manipulator subassembly (21) drive connection to the drive manipulator subassembly (21) lift and move.

4. Vulcanizer according to claim 3, wherein said robot assembly (21) comprises a tire loading robot and a tire unloading robot, said vulcanizer further comprising:

the driving screw assembly (23), the driving screw assembly (23) with driving motor (22) are connected, and the tire loading manipulator and the tire unloading manipulator are movably arranged on the driving screw assembly (23) respectively.

5. The vulcanizer of claim 1, further comprising:

a first shield (41) and a second shield (42), the first shield (41) being connected to a first mold, the second shield (42) being connected to a second mold;

a third shroud (43), said third shroud (43) being telescopically connected with said first shroud (41) and/or said second shroud (42) to connect said first shroud (41) with said second shroud (42) through said third shroud (43) to form a vulcanization space when said first mold and said second mold are connected.

6. The vulcanizer of claim 1, further comprising:

a first shield (41) and a second shield (42), said first shield (41) and said second shield (42) being relatively movably arranged to form a sealed chamber for curing a tyre carcass when said first shield (41) is connected to said second shield (42);

wherein the first shield (41) has an inner wall and an outer wall with a vacuum cavity therebetween to reduce heat transfer between the inner wall and the outer wall.

7. The vulcanizer of claim 6, wherein said outer wall has a vacuum port thereon, said vulcanizer further comprising:

a vacuum valve mounted on the first shield (41) or the second shield (42) and communicating with the vacuum chamber to evacuate the vacuum chamber.

8. The vulcanizer of claim 7, wherein said vacuum chamber is provided with a filler assembly to reduce heat transfer between said inner wall and said outer wall.

9. The vulcanizer of claim 1, wherein said vulcanizer has a bladder disposed therein, said vulcanizer further comprising:

a gas delivery channel in communication with the capsule for inflating the capsule by delivering a gas into the capsule;

a first heating assembly (51), said first heating assembly (51) being arranged on said gas delivery channel to heat the gas delivered to said capsule.

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