1. A carbon fiber cold and hot integrated forming control method is characterized by comprising the following steps:

s1, starting the carbon fiber cold and hot integrated forming furnace platform;

s2, starting a machine table of the carbon fiber cold and hot integrated forming furnace platform, and lifting the machine table of the carbon fiber cold and hot integrated forming furnace platform;

s3, blowing air to a machine table of the carbon fiber cold and hot integrated forming furnace table through an air nozzle on the carbon fiber cold and hot integrated forming furnace table to remove dust on the machine table, and then placing multiple layers of raw materials for producing products on the machine table;

s4, introducing steam into a machine table of the carbon fiber cold and hot integrated forming furnace table by a steam generator on the carbon fiber cold and hot integrated forming furnace table for heating, so that the machine table of the carbon fiber cold and hot integrated forming furnace table is heated;

s5, when the temperature of the machine table reaches 85 ℃, maintaining the temperature of the machine table at 85 ℃ for a period of time;

s6, continuously introducing steam into a machine table of the carbon fiber cold and hot integrated forming furnace table by a steam generator on the carbon fiber cold and hot integrated forming furnace table to heat until the temperature of the machine table rises to 150 ℃, and maintaining for a period of time;

s7, introducing normal-temperature gas into an air bag of the multilayer raw materials on a machine table of the carbon fiber cold and hot integrated forming furnace table through an air pump in the carbon fiber cold and hot integrated forming furnace table, wherein the gas inlet rate is linearly increased, so that the air pressure in the multilayer raw materials is gradually increased, and the layers of the multilayer raw materials are pressed more and more tightly;

s8, maintaining the temperature in a machine table of the carbon fiber cold and hot integrated forming furnace table at 150 ℃, and maintaining the oil pressure and the air pressure in the carbon fiber cold and hot integrated forming furnace table and the air pressure in an air bag of a multilayer raw material for a period of time;

s9, stopping introducing steam into the machine of the carbon fiber cold and hot integrated forming furnace platform, and simultaneously introducing normal-temperature water into the machine of the carbon fiber cold and hot integrated forming furnace platform until the temperature of the machine of the carbon fiber cold and hot integrated forming furnace platform is reduced to 100 ℃;

s10, stopping introducing normal-temperature water into the machine of the carbon fiber cold and hot integrated forming furnace platform, and simultaneously introducing ice water into the machine of the carbon fiber cold and hot integrated forming furnace platform until the temperature of the machine of the carbon fiber cold and hot integrated forming furnace platform is reduced to 50 ℃;

s11, discharging air to a machine table of the carbon fiber cold and hot integrated forming furnace platform;

s12, lowering a machine table of the carbon fiber cold and hot integrated forming furnace platform, and taking out the formed carbon fiber product.

2. The carbon fiber cold-hot integrated molding control method according to claim 1, characterized in that: in step S2, the oil pump in the carbon fiber cold and hot integrated molding furnace is started, and the oil pressure raising valve is opened to raise the machine base in the carbon fiber cold and hot integrated molding furnace.

3. The carbon fiber cold-hot integrated molding control method according to claim 1, characterized in that: in step S3, the air blowing solenoid valve in the carbon fiber cold and hot integrated molding furnace platform is opened, so that the air nozzle in the carbon fiber cold and hot integrated molding furnace platform blows air to the machine platform in the carbon fiber cold and hot integrated molding furnace platform.

4. The carbon fiber cold-hot integrated molding control method according to claim 1, characterized in that: in step S4, the steam solenoid valve in the carbon fiber cold and hot integrated molding hearth is opened.

5. The carbon fiber cold-hot integrated molding control method according to claim 1, characterized in that: in step S5, the oil pressure of the machine in the carbon fiber cold-hot integrated molding furnace is maintained below the first stage pressure of 50 KG.

6. The carbon fiber cold-hot integrated molding control method according to claim 1, characterized in that: in step S6, the oil pressure of the machine in the carbon fiber cold-hot integrated molding furnace is increased to 100 KG.

7. The carbon fiber cold-hot integrated molding control method according to claim 1, characterized in that: in step S9, the steam solenoid valve in the carbon fiber cold and hot integrated molding furnace platform is closed, and then the normal temperature water solenoid valve in the carbon fiber cold and hot integrated molding furnace platform is opened; in step S10, the normal-temperature water solenoid valve in the carbon fiber cold-hot integrated molding hearth is closed, and immediately after that, the ice-water solenoid valve in the carbon fiber cold-hot integrated molding hearth is opened.

8. The carbon fiber cold-hot integrated molding control method according to claim 1, characterized in that: in step S11, the forming air intake valve in the carbon fiber cold-hot integrated forming hearth is closed, and the air release valve in the carbon fiber cold-hot integrated forming hearth is opened.

9. The carbon fiber cold-hot integrated molding control method according to claim 1, characterized in that: in step S12, the oil pressure drop valve in the carbon fiber cold and hot integrated molding hearth is opened, and the operation completion indicator lamp in the carbon fiber cold and hot integrated molding hearth blinks.

Background

At present, most of forming furnaces on the market are single hot forming or cold forming working modes, and the single working modes can not meet higher requirements of customers, and the carbon fiber forming furnaces on the market have the following defects that 1, when a carbon fiber product is heated, the temperature is high, and when the carbon fiber product is manually conveyed to be cooled, potential safety hazards are easily caused; 2. because the uncontrollable heating in appointed within range of temperature for the quality is relatively poor after the carbon fiber product is stereotyped when heating the carbon fiber product, 3, current carbon fiber shaping stove top only has cold stove cooling function or hot stove heating function, and the cold and hot integrated into one piece stove top area of carbon fiber is big, and is with high costs.

In conclusion, the related art has defects and needs to be improved.

Disclosure of Invention

The invention aims to: aiming at the defects of the prior art, the carbon fiber cold and hot integrated forming control method is provided, manual carrying is not needed, potential safety hazards are reduced, product quality is improved, cold and hot integrated forming processing is realized, and production efficiency is greatly improved.

In order to achieve the purpose, the invention adopts the following technical scheme:

a carbon fiber cold and hot integrated forming control method comprises the following steps:

s1, starting the carbon fiber cold and hot integrated forming furnace platform;

s2, starting a machine table of the carbon fiber cold and hot integrated forming furnace platform, and lifting the machine table of the carbon fiber cold and hot integrated forming furnace platform;

s3, blowing air to a machine table of the carbon fiber cold and hot integrated forming furnace table through an air nozzle on the carbon fiber cold and hot integrated forming furnace table to remove dust, and then placing multiple layers of raw materials for producing products on the machine table;

s4, introducing steam into a machine table of the carbon fiber cold and hot integrated forming furnace table by a steam generator on the carbon fiber cold and hot integrated forming furnace table for heating, so that the machine table of the carbon fiber cold and hot integrated forming furnace table is heated;

s5, when the temperature of the machine table reaches 85 ℃, maintaining the temperature of the machine table at 85 ℃ for a period of time;

s6, continuously introducing steam into a machine table of the carbon fiber cold and hot integrated forming furnace table by a steam generator on the carbon fiber cold and hot integrated forming furnace table to heat until the temperature of the machine table rises to 150 ℃, and maintaining for a period of time;

s7, introducing normal-temperature gas into the air bag of the multilayer raw material on the machine table of the carbon fiber cold and hot integrated forming furnace table through the air pump in the carbon fiber cold and hot integrated forming furnace table, wherein the gas inlet rate is linearly increased, so that the air pressure in the multilayer raw material is gradually increased, and the layers are pressed more tightly; wherein an SMC air inlet control valve on the carbon fiber cold and hot integrated forming furnace platform is opened; the linear increase of the air inlet speed can effectively prevent air bags of multilayer raw materials from being broken by high-pressure air flow, thereby improving the quality of products;

s8, maintaining the temperature in a machine table of the carbon fiber cold and hot integrated forming furnace table at 150 ℃, and maintaining the oil pressure and the air pressure in the carbon fiber cold and hot integrated forming furnace table and the air pressure in an air bag of a multilayer raw material for a period of time;

s9, stopping introducing steam into the machine of the carbon fiber cold and hot integrated forming furnace platform, and simultaneously introducing normal-temperature water into the machine of the carbon fiber cold and hot integrated forming furnace platform until the temperature of the machine of the carbon fiber cold and hot integrated forming furnace platform is reduced to 100 ℃;

s10, stopping introducing normal-temperature water into the machine of the carbon fiber cold and hot integrated forming furnace platform, and simultaneously introducing ice water into the machine of the carbon fiber cold and hot integrated forming furnace platform until the temperature of the machine of the carbon fiber cold and hot integrated forming furnace platform is reduced to 50 ℃;

s11, discharging air to a machine table of the carbon fiber cold and hot integrated forming furnace platform;

s12, descending a machine table of the carbon fiber cold and hot integrated forming furnace platform.

As an improvement of the carbon fiber cold and hot integrated molding control method according to the present invention, in step S2, an oil pump in the carbon fiber cold and hot integrated molding furnace is started, and an oil pressure raising valve is opened, so that a machine table in the carbon fiber cold and hot integrated molding furnace is raised.

As an improvement of the carbon fiber cold and hot integrated molding control method of the present invention, in step S3, a blowing electromagnetic valve in the carbon fiber cold and hot integrated molding furnace is opened, so that an air nozzle in the carbon fiber cold and hot integrated molding furnace blows air to a machine in the carbon fiber cold and hot integrated molding furnace. In the work, the air tap in the carbon fiber cold and hot integrated into one piece stove top blows to the board in the carbon fiber cold and hot integrated into one piece stove top, blows the dust on the board and gets rid of, is favorable to improving the quality of carbon fiber production.

As an improvement of the carbon fiber cold and hot integrated molding control method according to the present invention, in step S4, a steam solenoid valve in the carbon fiber cold and hot integrated molding furnace is opened. The procedure is favorable for introducing steam into the machine table of the carbon fiber cold and hot integrated forming furnace table to heat up, so that the machine table of the carbon fiber cold and hot integrated forming furnace table is heated up.

As an improvement of the carbon fiber cold and hot integrated molding control method of the present invention, in step S5, the oil pressure of the machine in the carbon fiber cold and hot integrated molding furnace is maintained below the first stage pressure of 50 KG. The process can effectively improve the quality of the product and the production stability, otherwise, the product is easy to have abnormal phenomena such as air leakage, size deformation and the like, so that a plurality of molding defective products or scrapped products are caused, and the production cost is increased.

As an improvement of the carbon fiber cold and hot integrated molding control method of the present invention, in step S6, the oil pressure of the machine in the carbon fiber cold and hot integrated molding furnace is increased to 100 KG. The process can effectively improve the quality of the product and the production stability, otherwise, the product is easy to have abnormal phenomena such as air leakage, size deformation and the like, so that a plurality of molding defective products or scrapped products are caused, and the production cost is increased.

As an improvement of the carbon fiber cold and hot integrated molding control method of the present invention, in step S9, the steam electromagnetic valve in the carbon fiber cold and hot integrated molding furnace is closed, and then the normal temperature water electromagnetic valve in the carbon fiber cold and hot integrated molding furnace is opened; in step S10, the normal-temperature water solenoid valve in the carbon fiber cold-hot integrated molding hearth is closed, and immediately after that, the ice-water solenoid valve in the carbon fiber cold-hot integrated molding hearth is opened. The process can effectively improve the quality of the product and the production stability, otherwise, the product is easy to have abnormal phenomena such as air leakage, size deformation and the like, so that a plurality of molding defective products or scrapped products are caused, and the production cost is increased.

As an improvement of the carbon fiber cold and hot integrated molding control method according to the present invention, in step S11, a molding air inlet valve in the carbon fiber cold and hot integrated molding hearth is closed, and an air release valve in the carbon fiber cold and hot integrated molding hearth is opened. The procedure is beneficial to taking out the formed carbon fiber from the carbon fiber cold and hot integrated forming furnace platform.

As an improvement of the carbon fiber cold and hot integrated molding control method according to the present invention, in step S12, the oil pressure drop valve in the carbon fiber cold and hot integrated molding furnace is opened, and the operation completion indicator lamp in the carbon fiber cold and hot integrated molding furnace blinks. The procedure is favorable for reminding workers to take out the formed carbon fiber from the carbon fiber cold and hot integrated forming furnace platform.

The invention has the beneficial effects that: the method has the advantages of no need of manual carrying, potential safety hazard reduction, product quality improvement, realization of cold and hot integrated molding and processing, and great improvement of production efficiency.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a flow chart in an embodiment of the present invention.

Detailed Description

As used in the specification and in the claims, certain terms are used to refer to particular components. As one skilled in the art will appreciate, manufacturers may refer to a component by different names. This specification and claims do not intend to distinguish between components that differ in name but not function. In the following description and in the claims, the terms "include" and "comprise" are used in an open-ended fashion, and thus should be interpreted to mean "include, but not limited to. "substantially" means within an acceptable error range, within which a person skilled in the art can solve the technical problem to substantially achieve the technical result.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "horizontal", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The present invention will be described in further detail below with reference to the accompanying drawings, but the present invention is not limited thereto.

Examples

As shown in fig. 1, a carbon fiber cold and hot integrated molding control method includes the following steps:

s1, starting the carbon fiber cold and hot integrated forming furnace platform;

s2, starting a machine table of the carbon fiber cold and hot integrated forming furnace platform, and lifting the machine table of the carbon fiber cold and hot integrated forming furnace platform;

s3, blowing air to a machine table of the carbon fiber cold and hot integrated forming furnace table through an air nozzle on the carbon fiber cold and hot integrated forming furnace table to remove dust on the machine table, and then placing multiple layers of raw materials for producing products on the machine table; the adverse effect of dust on the quality of the product is effectively avoided;

s4, introducing steam into a machine table of the carbon fiber cold and hot integrated forming furnace table by a steam generator on the carbon fiber cold and hot integrated forming furnace table for heating, so that the machine table of the carbon fiber cold and hot integrated forming furnace table is heated;

s5, when the temperature of the machine table reaches 85 ℃, maintaining the temperature of the machine table at 85 ℃ for a period of time; the working procedure can effectively improve the quality of the product and the production stability, otherwise, the product is easy to have abnormal phenomena such as air leakage, size deformation and the like, so that a plurality of molding defective products or scrapped products are caused, and the production cost is increased;

s6, continuously introducing steam into a machine table of the carbon fiber cold and hot integrated forming furnace table by a steam generator on the carbon fiber cold and hot integrated forming furnace table to heat until the temperature of the machine table rises to 150 ℃, and maintaining for a period of time; the working procedure can effectively improve the quality of the product and the production stability, otherwise, the product is easy to have abnormal phenomena such as air leakage, size deformation and the like, so that a plurality of molding defective products or scrapped products are caused, and the production cost is increased;

s7, introducing normal-temperature gas into an air bag of the multilayer raw materials on a machine table of the carbon fiber cold and hot integrated forming furnace table through an air pump in the carbon fiber cold and hot integrated forming furnace table, wherein the gas inlet rate is linearly increased, so that the air pressure in the multilayer raw materials is gradually increased, and the layers of the multilayer raw materials are pressed more and more tightly; wherein an SMC air inlet control valve on the carbon fiber cold and hot integrated forming furnace platform is opened; the linear increase of the air inlet speed can effectively prevent air bags of multilayer raw materials from being broken by high-pressure air flow, thereby improving the quality of products; the working procedure can effectively improve the quality of the product and the production stability, otherwise, the product is easy to have abnormal phenomena such as air leakage, size deformation and the like, so that a plurality of molding defective products or scrapped products are caused, and the production cost is increased;

s8, maintaining the temperature in a machine table of the carbon fiber cold and hot integrated forming furnace table at 150 ℃, and maintaining the oil pressure and the air pressure in the carbon fiber cold and hot integrated forming furnace table and the air pressure in an air bag of a multilayer raw material for a period of time; the working procedure can effectively improve the quality of the product and the production stability, otherwise, the product is easy to have abnormal phenomena such as air leakage, size deformation and the like, so that a plurality of molding defective products or scrapped products are caused, and the production cost is increased;

s9, stopping introducing steam into the machine of the carbon fiber cold and hot integrated forming furnace platform, and simultaneously introducing normal-temperature water into the machine of the carbon fiber cold and hot integrated forming furnace platform until the temperature of the machine of the carbon fiber cold and hot integrated forming furnace platform is reduced to 100 ℃; the working procedure can effectively improve the quality of the product and the production stability, otherwise, the product is easy to have abnormal phenomena such as air leakage, size deformation and the like, so that a plurality of molding defective products or scrapped products are caused, and the production cost is increased;

s10, stopping introducing normal-temperature water into the machine of the carbon fiber cold and hot integrated forming furnace platform, and simultaneously introducing ice water into the machine of the carbon fiber cold and hot integrated forming furnace platform until the temperature of the machine of the carbon fiber cold and hot integrated forming furnace platform is reduced to 50 ℃; the working procedure can effectively improve the quality of the product and the production stability, otherwise, the product is easy to have abnormal phenomena such as air leakage, size deformation and the like, so that a plurality of molding defective products or scrapped products are caused, and the production cost is increased;

s11, discharging air to a machine table of the carbon fiber cold and hot integrated forming furnace platform;

s12, lowering a machine table of the carbon fiber cold and hot integrated forming furnace platform, and taking out the formed carbon fiber product.

Preferably, in step S2, the oil pump in the carbon fiber cold and hot integrated molding furnace is started, and the oil pressure raising valve is opened to raise the machine base in the carbon fiber cold and hot integrated molding furnace.

Preferably, in step S3, the air blowing solenoid valve in the carbon fiber hot and cold integrated molding hearth is opened, so that the air nozzle in the carbon fiber hot and cold integrated molding hearth blows air to the machine in the carbon fiber hot and cold integrated molding hearth. In the work, the air tap in the carbon fiber cold and hot integrated into one piece stove top blows to the board in the carbon fiber cold and hot integrated into one piece stove top, blows the dust on the board and gets rid of, is favorable to improving the quality of carbon fiber production.

Preferably, in step S4, the steam solenoid valve in the carbon fiber cold and hot integrated molding hearth is opened. The procedure is favorable for introducing steam into the machine table of the carbon fiber cold and hot integrated forming furnace table to heat up, so that the machine table of the carbon fiber cold and hot integrated forming furnace table is heated up.

Preferably, in step S5, the oil pressure of the machine in the carbon fiber cold-hot integral forming furnace is maintained below the first stage pressure of 50 KG. The process can effectively improve the quality of the product and the production stability, otherwise, the product is easy to have abnormal phenomena such as air leakage, size deformation and the like, so that a plurality of molding defective products or scrapped products are caused, and the production cost is increased.

Preferably, in step S6, the oil pressure of the machine in the carbon fiber cold-hot integral forming furnace is increased to 100 KG. The process can effectively improve the quality of the product and the production stability, otherwise, the product is easy to have abnormal phenomena such as air leakage, size deformation and the like, so that a plurality of molding defective products or scrapped products are caused, and the production cost is increased.

Preferably, in step S8, the temperature, oil pressure, and intake air pressure of the bed in the carbon fiber cold and hot integrated molding hearth are all kept constant. The process can effectively improve the quality of the product and the production stability, otherwise, the product is easy to have abnormal phenomena such as air leakage, size deformation and the like, so that a plurality of molding defective products or scrapped products are caused, and the production cost is increased.

Preferably, in step S9, the steam solenoid valve in the carbon fiber cold and hot integrated molding furnace platform is closed, and then the normal temperature water solenoid valve in the carbon fiber cold and hot integrated molding furnace platform is opened; in step S10, the normal-temperature water solenoid valve in the carbon fiber cold-hot integrated molding hearth is closed, and immediately after that, the ice-water solenoid valve in the carbon fiber cold-hot integrated molding hearth is opened. The process can effectively improve the quality of the product and the production stability, otherwise, the product is easy to have abnormal phenomena such as air leakage, size deformation and the like, so that a plurality of molding defective products or scrapped products are caused, and the production cost is increased.

Preferably, in step S11, the forming air inlet valve in the carbon fiber cold and hot integrated forming furnace platform is closed, and the air release valve in the carbon fiber cold and hot integrated forming furnace platform is opened. The procedure is beneficial to taking out the formed carbon fiber from the carbon fiber cold and hot integrated forming furnace platform.

Preferably, in step S12, the oil pressure drop valve in the carbon fiber cold and hot integrated molding furnace is opened, and the operation completion indicator lamp in the carbon fiber cold and hot integrated molding furnace blinks. The procedure is favorable for reminding workers to take out the formed carbon fiber from the carbon fiber cold and hot integrated forming furnace platform.

The working principle of the invention is as follows: firstly, starting a carbon fiber cold and hot integrated forming furnace platform; starting a machine table of the carbon fiber cold and hot integrated forming furnace platform, and lifting the machine table of the carbon fiber cold and hot integrated forming furnace platform, wherein an oil pump in the carbon fiber cold and hot integrated forming furnace platform is started, and an oil pressure lifting valve is opened, so that the machine table in the carbon fiber cold and hot integrated forming furnace platform is lifted; then, blowing air to a machine table of the carbon fiber cold and hot integrated forming furnace platform to remove dust, wherein in the work process, an air nozzle in the carbon fiber cold and hot integrated forming furnace platform blows air to the machine table in the carbon fiber cold and hot integrated forming furnace platform to remove the dust on the machine table, so that the production quality of carbon fibers is improved, and then a plurality of layers of raw materials for producing products are placed on the machine table; then introducing steam into a machine table of the carbon fiber cold and hot integrated forming furnace platform by a steam generator on the carbon fiber cold and hot integrated forming furnace platform for heating, so that the machine table of the carbon fiber cold and hot integrated forming furnace platform is heated, wherein the opening of a steam electromagnetic valve in the carbon fiber cold and hot integrated forming furnace platform is favorable for introducing steam into the machine table of the carbon fiber cold and hot integrated forming furnace platform for heating, so that the machine table of the carbon fiber cold and hot integrated forming furnace platform is heated; then maintaining the temperature of a machine table of the carbon fiber cold and hot integrated forming furnace platform at 85 ℃ for a period of time; then continuously introducing steam into a machine table of the carbon fiber cold and hot integrated forming furnace table by a steam generator on the carbon fiber cold and hot integrated forming furnace table to raise the temperature until the temperature of the machine table rises to 150 ℃, and maintaining for a period of time; then introducing normal temperature gas into an air bag of the multilayer raw materials on the machine table of the carbon fiber cold and hot integrated forming furnace table through an air pump in the carbon fiber cold and hot integrated forming furnace table, wherein the gas inlet rate is linearly increased, so that the air pressure in the multilayer raw materials is gradually increased, and the layers are pressed more and more tightly; then, the temperature in a machine table of the carbon fiber cold and hot integrated forming furnace table is maintained at 150 ℃, and the oil pressure and the air pressure in the carbon fiber cold and hot integrated forming furnace table and the air pressure in an air bag of a multilayer raw material are maintained for a period of time; then stopping introducing steam into the machine table of the carbon fiber cold and hot integrated forming furnace platform, and simultaneously introducing normal-temperature water into the machine table of the carbon fiber cold and hot integrated forming furnace platform until the temperature of the machine table of the carbon fiber cold and hot integrated forming furnace platform is reduced to 100 ℃; then stopping introducing normal-temperature water into the machine table of the carbon fiber cold and hot integrated forming furnace platform, and simultaneously introducing ice water into the machine table of the carbon fiber cold and hot integrated forming furnace platform until the temperature of the machine table of the carbon fiber cold and hot integrated forming furnace platform is reduced to 50 ℃; the working procedure can effectively improve the quality of the product and the production stability, otherwise, the product is easy to have abnormal phenomena such as air leakage, size deformation and the like, so that a plurality of molding defective products or scrapped products are caused, and the production cost is increased; finally, the machine table of the carbon fiber cold and hot integrated forming furnace platform is deflated, so that the formed carbon fiber can be taken out of the carbon fiber cold and hot integrated forming furnace platform; meanwhile, the machine table of the carbon fiber cold and hot integrated forming furnace platform descends, wherein an oil pressure descending valve in the carbon fiber cold and hot integrated forming furnace platform is opened, and an indicator lamp flickers when the carbon fiber cold and hot integrated forming furnace platform works, so that a worker can be reminded of taking out the formed carbon fiber from the carbon fiber cold and hot integrated forming furnace platform. The method does not need manual carrying, reduces potential safety hazards, improves product quality, realizes cold and hot integrated forming and processing, and greatly improves production efficiency.

The foregoing description shows and describes several preferred embodiments of the invention, but as aforementioned, it is to be understood that the invention is not limited to the forms disclosed herein, but is not to be construed as excluding other embodiments and is capable of use in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as expressed herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.