CN217024855U - Unwinding device for automatic carbon fiber impregnation system - Google Patents

Abstract

The utility model provides a rolling-out device for an automatic carbon fiber impregnation system, which comprises: a tension mechanism comprising: a tension bracket, a magnetic powder brake and a tension sensor; the tension bracket is movably arranged on the unreeling side of the mounting bracket group, the magnetic powder brake is arranged on the tension bracket, the fiber yarn cylinder is sleeved on the magnetic powder brake, the magnetic powder brake is used for applying resistance to unreeled carbon fiber harnesses when unreeling the carbon fiber harnesses, and the tension sensor is used for detecting the tension value of the carbon fiber harnesses in real time; and the tension control device is used for controlling the resistance applied to the unwound carbon fiber wire harness by the magnetic powder brake according to the tension value. This roll-out device exerts the tension of resistance in order to control the carbon fiber pencil to the carbon fiber pencil that unreels through the magnetic powder brake who sets up, has solved among the prior art because of the artifical carbon fiber pencil that adopts the carbon fiber pencil to make the in-process appearance of experimental spline unreels the test spline gum content inhomogeneous, the inconsistent scheduling problem of overall dimension that back tension uncontrollable leads to of carbon fiber pencil unreeling.

Description

Reeling-out device for automatic carbon fiber impregnation system

Technical Field

The utility model relates to the technical field of carbon fiber manufacturing, in particular to a reeling-out device for an automatic carbon fiber impregnation system.

Background

In the process of testing tensile property of carbon fiber multifilament, the prior art mainly uses a test sample strip made of carbon fiber wire harnesses through manual unreeling, gumming, degumming and reeling processes to carry out a test, in the whole manufacturing process of the sample band, the tension and the gum dipping speed of the carbon fiber wire harness in the gum dipping process after unreeling and the gum content and the external dimension of the formed sample band can not be accurately controlled by manual production, thus causing the defects of uneven gel content, inconsistent external dimension, rough surface and the like of the sample strips produced in the same batch, therefore, in the process of carrying out the tensile property detection test of the carbon fiber multifilament, the formed sample strips need to be repeatedly picked, so that the rejection rate of the sample strips is extremely high, meanwhile, the actual performance of the carbon fiber can not be truly reflected when the sample strip detection test is carried out, therefore, it is desirable to provide a device that can solve at least one of the above problems in manufacturing test splines.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model aims to provide a winding-out device for an automatic carbon fiber impregnation system, which is used for solving the problems of nonuniform gel content, inconsistent overall dimensions and the like of test sample strips caused by uncontrollable tension and unwinding speed after unwinding of carbon fiber harnesses in the process of manually manufacturing the test sample strips by using the carbon fiber harnesses in the prior art.

In order to achieve the above object, an embodiment of the present invention provides a roll-out device for a carbon fiber automatic impregnation system, where a carbon fiber bundle unreeled from a fiber yarn drum by the roll-out device enters the carbon fiber automatic impregnation system to perform an impregnation operation, and the carbon fiber bundle squeezed by a reeling device at a reeling side in the fiber automatic impregnation system is reeled by the roll-out device to continuously unreel the carbon fiber bundle, where the roll-out device for the carbon fiber automatic impregnation system includes: a tension mechanism comprising: a tension bracket, a magnetic powder brake and a tension sensor; the tension bracket is movably arranged on the unreeling side of an installation bracket group of the automatic carbon fiber impregnation system, the magnetic powder brake is arranged on the tension bracket, the fiber yarn drum is sleeved on the magnetic powder brake, the magnetic powder brake is used for applying resistance to unreeled carbon fiber yarn bundles under the condition of unreeling the carbon fiber yarn bundles, and the tension sensor is arranged on the installation bracket group and used for detecting the tension value of the carbon fiber yarn bundles unreeled from the fiber yarn drum in real time; and the tension control device is electrically connected with the tension sensor and the magnetic powder brake and is used for controlling the resistance applied to the unwound carbon fiber wire harness by the magnetic powder brake according to the tension value.

Specifically, the tension mechanism further includes: the pneumatic shaft is arranged in a shaft hole of the magnetic powder brake, the shaft diameter of the pneumatic shaft can be changed by ventilating or disconnecting the pneumatic shaft, and therefore the fiber tube is tensioned or loosened through the pneumatic shaft so as to install or remove the fiber tube.

Specifically, the tension mechanism further includes: and the air expansion valve is arranged on an air path for ventilating the air expansion shaft, and the opening and closing of the air expansion valve are used for controlling the on-off of the air path.

Specifically, the tension mechanism further includes: the air pressure sensor is used for detecting an air pressure value in the air path; and the air pressure control device is used for controlling the opening and closing of the air expansion valve according to the air pressure value.

Specifically, the unwinding device for the automatic carbon fiber impregnation system further comprises: the device comprises a slide rail, a deviation correction sensor and a deviation correction driver; the sliding rail is parallel to the shaft diameter of the air expansion shaft and is arranged on the mounting frame group, the tension frame is movably arranged through the sliding rail, the deviation rectifying sensor is arranged on the mounting frame group and is used for detecting the deviation of the carbon fiber wire harness which is unwound and wound on an unwinding path, and the deviation rectifying driver is arranged on the mounting frame group; the deviation rectifying driver is electrically connected with the deviation rectifying sensor and used for adjusting the moving amount of the tension frame on the sliding rail according to the deviation amount of the carbon fiber wire harness on the unreeling path.

Specifically, the unwinding device for the automatic carbon fiber impregnation system further comprises: and the display device is arranged on the mounting frame group, is electrically connected with the tension control device and the air pressure control device and is used for displaying the tension value, the resistance and the air pressure value.

Specifically, the unwinding device for the automatic carbon fiber impregnation system further comprises: and the bearing platform is arranged on the mounting frame group and is used for bearing glue solution dripped from the carbon fiber wire harness in the gum dipping operation through the bearing surface.

Specifically, the mount group includes: the base frame, with first support frame and second support frame that the base frame is connected, the bearing platform is installed the distal end of base frame, first support frame with the second support frame is followed stretch out on the bearing surface of bearing platform, the slide rail is installed on the first support frame, tension sensor with the sensor installation of rectifying is in on the second support frame.

Specifically, the bearing surface is a glass surface.

Specifically, the unwinding device for the automatic carbon fiber impregnation system further comprises: and the tension control device and the air pressure control device are arranged in the electric cabinet.

The utility model provides a winding-out device for an automatic carbon fiber impregnation system, which is characterized in that a fiber yarn drum wound with a carbon fiber yarn bundle is sleeved on a magnetic powder brake of a tension mechanism, the carbon fiber yarn bundle after being extruded is continuously wound and rolled by a winding device in the automatic carbon fiber impregnation system so as to drive the fiber yarn drum to rotate to unwind the carbon fiber yarn bundle, the magnetic powder brake applies resistance to the unwound carbon fiber yarn bundle so as to control the tension of the carbon fiber yarn bundle, in order to specifically know the tension of the unwound carbon fiber yarn bundle and better control the resistance applied by the magnetic powder brake, a tension sensor is arranged on a mounting frame group, the tension value of the carbon fiber yarn bundle is detected in real time by the tension sensor and sent to a tension control device, and the tension control device controls the resistance applied to the unwound carbon fiber bundle by the magnetic powder brake according to the received tension value, therefore, tension in the unreeling process of the carbon fiber wire harness is better controlled, and the fact that the glue content of test sample strips made of the carbon fiber wire harness is uniform and the overall dimension is consistent is guaranteed.

According to the unwinding device for the automatic carbon fiber gum dipping system, the resistance is applied to the unwound carbon fiber wire harness through the arranged magnetic powder brake so as to control the tension generated by the carbon fiber wire harness, so that the problems of non-uniform gum content, non-uniform appearance size and the like of the test sample strips caused by uncontrollable tension after unwinding of the carbon fiber wire harness in the process of manually manufacturing the test sample strips by adopting the carbon fiber wire harness in the prior art are solved.

Additional features and advantages of embodiments of the utility model will be set forth in the detailed description which follows.

Drawings

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

fig. 1 is a schematic structural diagram of a roll-off device for an automatic carbon fiber impregnation system according to an embodiment of the present invention.

Description of the reference numerals

1 mounting bracket group 2 tension mechanism

3 electric cabinet 4 sliding rails

5 deviation rectifying sensor 6 deviation rectifying driver

7 display device 8 receiving table

11 substrate holder 12 first support

13 second support frame 21 tension frame

22 magnetic powder brake 23 tension sensor

24 air expansion shaft 80 bearing surface

14 roller 15 regulating support

16 tensioning wheel 17 rubber extruding wheel

18 reeling device 9 glue dipping tank

10 carbon fiber bundle

Detailed Description

The following describes in detail embodiments of the present invention with reference to the drawings. It should be understood that the detailed description and specific examples, while indicating embodiments of the utility model, are given by way of illustration and explanation only, not limitation.

The utility model provides a roll-out device for a carbon fiber automatic impregnation system, and fig. 1 is a structural schematic diagram of a roll-out device for the carbon fiber automatic impregnation system, as shown in fig. 1, a carbon fiber wire bundle 10 unreeled from a fiber wire drum by the roll-out device enters the carbon fiber automatic impregnation system for impregnation operation, and the reeled-out device continuously unreels the carbon fiber wire bundle 10 by reeling up the carbon fiber wire bundle 10 squeezed by a reeling-up device 18 at a reeling-up side in the fiber automatic impregnation system, wherein the roll-out device for the carbon fiber automatic impregnation system comprises: tension mechanism 2 includes: a tension bracket 21, a magnetic powder brake 22 and a tension sensor 23; the tension bracket 21 is movably mounted on the unwinding side of a mounting bracket group 1 of the carbon fiber automatic impregnation system, the magnetic powder brake 22 is mounted on the tension bracket 21, the fiber yarn drum is sleeved on the magnetic powder brake 22, the magnetic powder brake 22 is used for applying resistance to the unwound carbon fiber yarn bundle 10 under the condition of unwinding the carbon fiber yarn bundle 10, and the tension sensor 23 is mounted on the mounting bracket group 1 and used for detecting the tension value of the carbon fiber yarn bundle 10 unwound from the fiber yarn drum in real time; and the tension control device is electrically connected with the tension sensor 23 and the magnetic powder brake 22 and is used for controlling the resistance applied to the unwound carbon fiber wire harness 10 by the magnetic powder brake 22 according to the tension value.

The utility model provides a winding-out device for an automatic carbon fiber impregnation system, wherein a fiber wire barrel wound with a carbon fiber bundle 10 is sleeved on a magnetic powder brake 22 of a tension mechanism 2, the magnetic powder brake 22 is installed on a tension frame 21 of the tension mechanism 2 through a bolt, the tension frame 21 is movably installed on an installation frame group 1, in the winding-out process, the carbon fiber bundle 10 extruded with glue is continuously wound and rolled up through a winding-up device 18 in the automatic impregnation system to drive the fiber wire barrel to continuously rotate so as to unwind the carbon fiber bundle 10 on the fiber wire barrel, the magnetic powder brake 22 applies resistance to the fiber wire barrel in the rotation process of the fiber wire barrel so as to apply resistance to the carbon fiber bundle 10 unwound so as to control the tension of the carbon fiber bundle 10 unwound, in order to detect the tension value of the carbon fiber bundle 10 unwound in real time, a tension sensor 23 is installed on the installation frame group 1, the tension sensor 23 is used for detecting the tension value of the unwound carbon fiber harness 10 in real time and sending the tension value to the tension control device, the tension control device controls the resistance applied to the unwound carbon fiber harness 10 by the magnetic powder brake 22 according to the received tension value, so that the tension of the carbon fiber harness 10 in the unwinding process is adjusted, the fact that the glue content of a test sample strip finally made of the carbon fiber harness 10 is uniform is guaranteed, and the overall dimension is consistent.

In the process of manufacturing a test sample band by using the carbon fiber wire harness 10, a rolling device 18 in an automatic impregnation system continuously rolls and rolls the carbon fiber wire harness 10 after being extruded, the carbon fiber wire harness 10 wound on a fiber wire barrel is continuously unreeled, a magnetic powder brake 22 applies resistance to the fiber wire barrel so as to finish applying resistance to the unreeled carbon fiber wire harness 10, the unreeled carbon fiber wire harness 10 is wound around a plurality of tension wheels 16 and then enters an impregnation tank 9 for impregnation, the impregnated carbon fiber wire harness 10 is drawn out from the impregnation tank 9 by a rolling device 18 and then wound around a plurality of extrusion wheels 17, the carbon fiber wire harness 10 is in contact extrusion with the extrusion wheels 17 so that the bonding between the glue solution on the carbon fiber wire harness 10 and the carbon fiber wire harness 10 is more compact, the redundant glue solution on the carbon fiber wire harness 10 is extruded at the same time, the carbon fiber wire harness 10 wound around the extrusion wheels 17 is finally rolled and rolled by the rolling device 18, the carbon fiber bundle 10 collected on the winding device 18 is finally cured to form a test sample strip.

In one embodiment, to facilitate mounting of the fiber cartridge to the brake 22, the tension mechanism 2 further comprises: the pneumatic shaft 24 is installed in a shaft hole of the magnetic powder brake 22, the shaft diameter of the pneumatic shaft 24 can be changed by ventilating or disconnecting the pneumatic shaft 24, and the fiber tube is tensioned or loosened through the pneumatic shaft 24 so as to install or remove the fiber tube. An air passage is formed between the air source and the inflatable shaft 24, the diameter of the inflatable shaft 24 can be changed by ventilating or disconnecting the air into the inflatable shaft 24, when a test sample strip is manufactured, a fiber wire barrel is sleeved on the inflatable shaft 24 under the condition that the inflatable shaft 24 is not ventilated, then air is introduced into the inflatable shaft 24 to expand the inflatable shaft 24 and increase the diameter, the fiber wire barrel is firmly supported by the inflatable shaft 24, the fiber wire barrel is fixed on the inflatable shaft 24 at the moment, the carbon fiber wire bundle 10 after being squeezed with glue is wound and reeled by the reeling device 18 to drive the reeling-out device to continuously unreel the carbon fiber wire bundle 10, when the fiber wire barrel is dismounted, the air is disconnected from the inflatable shaft 24, the diameter of the inflatable shaft 24 is reduced to loosen the fiber wire barrel, and a worker can quickly dismount the fiber wire barrel.

In order to conveniently connect or disconnect the air expansion shaft 24 and the air source, the tension mechanism 2 further comprises: and the air expansion valve is arranged on an air path for ventilating the air expansion shaft 24, and the opening and closing of the air expansion valve are used for controlling the on-off of the air path. The air expansion valve is an electromagnetic valve.

In the process of ventilating the inflatable shaft 24, in order to obtain the air pressure in the air passage in real time and ensure the safety of air supply and the safety of use of the inflatable shaft 24, the tension mechanism 2 further comprises: and the air pressure sensor is used for detecting the air pressure value in the air path, and the air pressure control device is used for controlling the opening and closing of the air expansion valve according to the air pressure value.

In the process of unwinding the carbon fiber harness 10, in order to adjust the position of the carbon fiber harness 10 on the unwinding path, specifically, the unwinding device for the automatic carbon fiber impregnation system further includes: a slide rail 4, a deviation-rectifying sensor 5 and a deviation-rectifying driver 6; the slide rail 4 is parallel to the shaft diameter of the air expansion shaft 24 and is mounted on the mounting frame group 1, the tension frame 21 is movably mounted through the slide rail 4, and the deviation rectifying sensor 5 is mounted on the mounting frame group 1 and is used for detecting the offset of the unwound carbon fiber harness 10 on an unwinding path; the deviation rectifying driver 6 is installed on the installation frame group 1, and the deviation rectifying driver 6 is electrically connected with the deviation rectifying sensor 5 and used for adjusting the moving amount of the tension frame 21 on the slide rail 4 according to the deviation amount of the carbon fiber wire harness 10 on the unreeling path. Through the offset between the actual position of sensor 5 real-time detection carbon fiber harness 10 on unreeling the circuit and the preset position of rectifying, the driver 6 of rectifying shifts according to offset adjustment tension bracket 21 on slide rail 4 momentum for tension bracket 21 drives the magnetic powder stopper 22 of installing above that and the fiber yarn section of thick bamboo of suit on magnetic powder stopper 22 and moves along with tension bracket 21, the position of the carbon fiber harness 10 that the fiber yarn section of thick bamboo was unreeled on unreeling the route obtains adjusting like this, avoid unreeling the in-process, the carbon fiber harness 10 of unreeling twines each other, thereby ensure that the carbon fiber harness 10 of unreeling can remain on the best preset position all the time.

In order to facilitate the checking of various parameters of the carbon fiber harness 10 during the impregnation process by the worker, specifically, the unwinding device for the automatic carbon fiber impregnation system further includes: and the display device 7 is arranged on the mounting frame group 1, is electrically connected with the tension control device and the air pressure control device, and is used for displaying the tension value, the resistance and the air pressure value. An input keyboard can also be arranged on the display device 7 to facilitate the input of corresponding instructions, parameters and the like by the staff.

After the carbon fiber bundle 10 is subjected to the dipping operation, the reeler 18 is pulled out from the dipping tank 9, and in order to prevent the glue solution adhered to the carbon fiber bundle 10 from dripping at will, specifically, the reeling out for the automatic carbon fiber dipping system further includes: and the bearing table 8 is arranged on the mounting frame group 1 and is used for bearing glue solution dripped from the carbon fiber wire harness 10 in the gum dipping operation through the bearing surface 80. As shown in fig. 1, a receiving table 8 is mounted on the mounting rack group 1, the receiving table 8 is located right below the dipping tank 9, so that glue solution adhered to the carbon fiber wire harness 10 drops onto the receiving table 8 below the dipping tank 9 in the process that the carbon fiber wire harness 10 enters the next process after the dipping operation is completed in the dipping tank 9, a receiving surface 80 is arranged on one surface of the receiving table 8 facing the dipping tank 9, and the receiving surface 80 is a glass surface for facilitating cleaning of the dropped glue solution by workers.

In one embodiment, in particular, the mounting bracket set 1 comprises: the base chassis 11 with first support frame 12 and the second support frame 13 that are connected of base chassis 11, bearing platform 8 is installed the ground end far away of base chassis 11, first support frame 12 with second support frame 13 is followed stretch out on bearing platform 8's the face 80 of bearing, slide rail 4 is installed on first support frame 12, tension sensor 23 with the sensor 5 that rectifies is installed on the second support frame 13. Install a plurality of gyro wheels 14 at the near-to-ground end of basement frame 11 and conveniently remove mount frame group 1, still the spiro union has a plurality of regulation pillars 15 at the near-to-ground end of basement frame 11 simultaneously, rotates regulation pillar 15 and can make regulation pillar 15 and ground contact, when mount frame group 1 need be fixed at a certain assigned position like this, adjusts pillar 15 and ground contact, has increaseed the frictional force with ground for mount frame group 1 is fixed motionless.

In order to protect the tension control device and the air pressure control device, the unwinding device for the automatic carbon fiber impregnation system further comprises: the electrical cabinet 3 is installed on the base frame 11, and the tension control device and the air pressure control device are installed in the electrical cabinet 3. Tension control device, pneumatic control device can set up in regulator cubicle 3 after integrating, can provide a relatively sealed operational environment for tension control device, pneumatic control device through regulator cubicle 3, avoid external steam, dust to tension control device, pneumatic control device's influence, for the convenience of staff unified control, management, still can set up gas expansion valve and baroceptor on the gas circuit in regulator cubicle 3.

The utility model provides a winding-out device for an automatic carbon fiber impregnation system, which is characterized in that a fiber yarn drum wound with a carbon fiber yarn bundle is sleeved on a magnetic powder brake of a tension mechanism, the carbon fiber yarn bundle after being extruded is continuously wound and rolled by a winding device in the automatic carbon fiber impregnation system so as to drive the fiber yarn drum to rotate to unwind the carbon fiber yarn bundle, the magnetic powder brake applies resistance to the unwound carbon fiber yarn bundle so as to control the tension of the carbon fiber yarn bundle, in order to specifically know the tension of the unwound carbon fiber yarn bundle and better control the resistance applied by the magnetic powder brake, a tension sensor is arranged on a mounting frame group, the tension value of the carbon fiber yarn bundle is detected in real time by the tension sensor and sent to a tension control device, and the tension control device controls the resistance applied to the unwound carbon fiber bundle by the magnetic powder brake according to the received tension value, therefore, the tension in the unreeling process of the carbon fiber wire harness is better controlled, and the uniform glue content and the consistent overall dimension of a subsequent test sample strip made of the carbon fiber wire harness are ensured.

According to the unwinding device for the automatic carbon fiber gum dipping system, the resistance is applied to the unwound carbon fiber wire harness through the arranged magnetic powder brake so as to control the tension generated by the carbon fiber wire harness, so that the problems of non-uniform gum content, non-uniform appearance size and the like of the test sample strips caused by uncontrollable tension after unwinding of the carbon fiber wire harness in the process of manually manufacturing the test sample strips by adopting the carbon fiber wire harness in the prior art are solved.

Although the embodiments of the present invention have been described in detail with reference to the accompanying drawings, the embodiments of the present invention are not limited to the specific details of the above embodiments, and various simple modifications may be made to the technical solutions of the embodiments of the present invention within the technical idea of the embodiments of the present invention, and these simple modifications all belong to the protection scope of the embodiments of the present invention.

It should be noted that the various features described in the above embodiments may be combined in any suitable manner without departing from the scope of the utility model. In order to avoid unnecessary repetition, the embodiments of the present invention do not describe every possible combination.

Those skilled in the art can understand that all or part of the steps in the method according to the above embodiments may be implemented by a program, which is stored in a storage medium and includes several instructions to enable a single chip, a chip, or a processor (processor) to perform all or part of the steps in the method according to the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk, and various media capable of storing program codes.

In addition, any combination of various different implementation manners of the embodiments of the present invention can be made, and the embodiments of the present invention should also be regarded as the disclosure of the embodiments of the present invention as long as the combination does not depart from the spirit of the embodiments of the present invention.

Claims (10)

1. A roll-out device for a carbon fiber automatic impregnation system is characterized in that the roll-out device comprises:

tension mechanism (2) comprising: a tension bracket (21), a magnetic powder brake (22) and a tension sensor (23); the tension bracket (21) is movably mounted on the unwinding side of a mounting bracket group (1) of the carbon fiber automatic impregnation system, the magnetic powder brake (22) is mounted on the tension bracket (21), the fiber yarn drum is sleeved on the magnetic powder brake (22), the magnetic powder brake (22) is used for applying resistance to the unwound carbon fiber yarn bundle (10) under the condition of unwinding the carbon fiber yarn bundle (10), and the tension sensor (23) is mounted on the mounting bracket group (1) and used for detecting the tension value of the carbon fiber yarn bundle (10) unwound from the fiber yarn drum in real time;

and the tension control device is electrically connected with the tension sensor (23) and the magnetic powder brake (22) and is used for controlling the resistance applied by the magnetic powder brake (22) to the unreeled carbon fiber harness (10) according to the tension value.

2. The unwinding device for the automatic carbon fiber gumming system according to claim 1, characterized in that said tension mechanism (2) further comprises: the pneumatic shaft (24) is installed in a shaft hole of the magnetic powder brake (22), the shaft diameter of the pneumatic shaft (24) can be changed by ventilating or disconnecting the pneumatic shaft (24), and therefore the fiber yarn cylinder is tensioned or loosened through the pneumatic shaft (24) to install or remove the fiber yarn cylinder.

3. The reel-out device for automatic carbon fiber gumming systems according to claim 2, characterized in that said tension mechanism (2) further comprises: and the air expansion valve is arranged on an air path for ventilating the air expansion shaft (24), and the opening and closing of the air expansion valve are used for controlling the on-off of the air path.

4. The reel-out device for automatic carbon fiber impregnation systems according to claim 3, wherein the tension mechanism (2) further comprises:

the air pressure sensor is used for detecting an air pressure value in the air path;

and the air pressure control device is used for controlling the opening and closing of the air expansion valve according to the air pressure value.

5. The roll-out device for the automatic carbon fiber dipping system according to claim 4, further comprising: the device comprises a slide rail (4), a deviation-rectifying sensor (5) and a deviation-rectifying driver (6);

the sliding rail (4) is parallel to the shaft diameter of the air expansion shaft (24) and is installed on the installation frame set (1), the tension frame (21) is movably installed through the sliding rail (4), and the deviation rectifying sensor (5) is installed on the installation frame set (1) and is used for detecting the deviation amount of the carbon fiber wire harness (10) which is unwound and wound on an unwinding path;

the deviation rectifying driver (6) is installed on the installation frame set (1), and the deviation rectifying driver (6) is electrically connected with the deviation rectifying sensor (5) and used for adjusting the moving amount of the tension frame (21) on the sliding rail (4) according to the deviation amount of the carbon fiber wire harness (10) on the unreeling path.

6. The roll-out device for the automatic carbon fiber dipping system according to claim 5, further comprising: and the display device (7) is arranged on the mounting frame group (1), is electrically connected with the tension control device and the air pressure control device, and is used for displaying the tension value, the resistance and the air pressure value.

7. The roll-out device for the automatic carbon fiber gumming system as claimed in claim 6, further comprising: and the bearing platform (8) is arranged on the mounting frame group (1) and is used for bearing glue solution dripped from the carbon fiber wiring harness (10) in the gum dipping operation through the bearing surface (80).

8. The reel-out device for automatic carbon fiber impregnation systems according to claim 7, characterized in that the mounting rack group (1) comprises: base chassis (11) and with first support frame (12) and second support frame (13) that base chassis (11) are connected, install bearing platform (8) the ground end far away of base chassis (11), first support frame (12) with second support frame (13) are followed stretch out on bearing surface (80) of bearing platform (8), slide rail (4) are installed on first support frame (12), tension sensor (23) with install sensor (5) of rectifying are in on second support frame (13).

9. The unwinding device for the automatic carbon fiber impregnation system according to claim 7, wherein the receiving surface (80) is a glass surface.

10. The roll-out device for the automatic carbon fiber gumming system as claimed in claim 8, further comprising: the tension control device and the air pressure control device are arranged in the electric cabinet (3).

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