CN210121700U

CN210121700U - Steel coil slitting equipment

Info

Publication number: CN210121700U
Application number: CN201920516503.2U
Authority: CN
Inventors: 夏伟; 邓悦康
Original assignee: Pengjiang District Jiangmen Lianchengda Technology Development Co Ltd
Current assignee: Pengjiang District Jiangmen Lianchengda Technology Development Co Ltd
Priority date: 2019-04-17
Filing date: 2019-04-17
Publication date: 2020-03-03
Anticipated expiration: 2029-04-17

Abstract

A steel coil slitting device comprises a material placing frame (1), a coiling trolley device (2), a tensioning shaft (5), an uncoiling device (6), a transmission clamping and conveying device (7), a centering device I (8), a roller conveying device I (9), a leveling device (10), a buffering device I (11), a buffering device II (12), a centering device II (13), a roller conveying device II (14), a transverse cutting device (15), a material receiving conveying belt (16) and a material receiving trolley device (19), and therefore the materials are fixedly connected with one another or connected through the conveying belt or are independently arranged and fixed on the ground to form a whole set of continuous operation production line equipment; each part is respectively connected with a motor, and the motors are controlled by a PLC system. Uncoiling and flattening the steel coil material, and then shearing the steel coil material into automatic equipment of a steel plate with a certain size, and through the process of a PLC program control system, the steel coil material can be subjected to uninterrupted full-automatic shearing on an automatic equipment production line, so that the labor force is saved, and the production efficiency is high.

Description

Steel coil slitting equipment

Technical Field

The invention belongs to the technical field of plate processing, and particularly relates to a steel coil slitting device, namely an uninterrupted full-automatic shearing production line, which is used for uncoiling and shearing a steel plate.

Background

Steel manufacturing enterprises can package steel by using roll rolls for convenient storage and transportation, and steel processing enterprises can not cut steel plates. At present, part of small and medium-sized enterprises can finish the slitting of steel only by using semi-automatic equipment and matching with manual assistance. The steel plate shearing equipment consists of a simple uncoiler, an auxiliary support, a leveling machine and a pedal plate shearing machine, and shearing and stacking are finished by manual operation on stations. The existing steel cutting and slitting needs manual on-line operation equipment, and workers need to perform non-intermittent operation every time when one plate is cut, so that the labor force is wasted, the labor intensity is high, and the production efficiency is low. Therefore, a full-automatic device is needed to solve the problem that the prior steel coil slitting can be completed only by matching a semi-automatic device with manual assistance.

Disclosure of Invention

In order to solve the problems, the invention provides a steel coil slitting device, namely a continuous full-automatic shearing production line, which does not need manual operation or auxiliary operation, so that the labor force is saved, and the production efficiency is high.

The technical means of the invention are realized in this way.

A steel coil slitting device comprises a material placing frame 1, an upper coiling trolley device 2, a tensioning shaft 5, an uncoiling device 6, a transmission clamping and conveying device 7, a centering device I8, a roller conveying device I9, a leveling device 10, a buffering device I11, a buffering device II 12, a centering device II 13, a roller conveying device II 14, a transverse cutting device 15, a material receiving conveying belt 16 and a material receiving trolley device 19;

according to the advancing direction of the steel coil, the steel coil slitting equipment comprises a material placing frame 1, an upper coil trolley device 2 walking on the material placing frame 1, an uncoiling device 6 fixedly arranged on the material placing frame 1, a tensioning shaft 5 arranged on the uncoiling device 6 and used for fixing the steel coil 4, a transmission clamping and conveying device 7 which is independently arranged relative to the material placing frame 1 and fixed on the ground, a centering device I8 which is independently arranged relative to the transmission clamping and conveying device 7 and fixed on the ground, a roller conveying device I9 connected with the centering device I8, a leveling device 10 connected with the roller conveying device I9 and fixed on the ground, a buffering device I11 which is connected with the leveling device 10 and the conveying roller surface of which slightly inclines the ground, a buffering device II 12 which is independently arranged relative to the buffering device I11 and fixed on the ground and the conveying roller surface of which slightly inclines the ground, and a centering device II 13 which is connected with the buffering device II 12 and fixed on the ground, a second roller conveying device 14 connected with the second centering device 13, a transverse cutting device 15 connected with the second roller conveying device 14 and fixed on the ground, a material receiving conveying belt 16 which is independently arranged relative to the transverse cutting device 15 and fixed on the ground, and a material receiving trolley device 19 which is arranged on the ground and walks back and forth;

the central lines of the conveying roller surfaces of the transmission clamping device 7, the centering device I8, the roller conveying device I9, the leveling device 10, the centering device II 13, the roller conveying device II 14 and the transverse cutting device 15 are positioned on the same straight line, and the central lines of the conveying roller surfaces of the buffer device I11 and the buffer device II 12 are positioned on the same plane; thus, the two parts are fixedly connected with each other or connected through a conveyor belt or independently arranged and fixed on the ground to form a whole set of continuous operation production line equipment;

the components such as the uncoiling device 6, the transmission clamping and conveying device 7, the leveling device 10, the transverse cutting device 15 and the like are respectively connected with a motor, and the motor is controlled by a PLC system.

So, this equipment can make the coil of strip carry out incessant full automatization shearing on the automation equipment production line, need not manual operation or auxiliary operation, opens a book, exhibition flat with the coil of strip material, and then cuts into the steel sheet of certain size, full automatization intelligent operation.

The automatic steel coil cutting equipment has the advantages that the automatic steel coil cutting equipment is uncoiled and flattened, and then is cut into steel plates with certain sizes, and the system process is controlled through a PLC program, so that the automatic operation of the steel coil cutting equipment and the automatic falling of the steel plates with fixed sizes are realized. The steel coil shearing device is suitable for shearing steel coils.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate an embodiment of the invention and, together with the description, serve to explain the invention and not to limit the invention.

FIG. 1 is a view showing a structure (front view) according to an embodiment of the present invention

FIG. 2 is a view showing a structure (plan view) according to an embodiment of the present invention

Wherein: 1. the steel coil winding machine comprises a material discharging frame, 2 a winding trolley device, 3 a trolley bracket, 4 a steel coil, 5 a tensioning shaft, 6 an uncoiling device, 7 a transmission clamping and conveying device, 8 a centering device I, 9 a roller conveying device I, 10 a leveling device, 11 a buffering device I, 12 a buffering device II, 13 a centering device II, 14 a roller conveying device II, 15 a transverse cutting device, 16 a material receiving conveying belt, 17 a material receiving supporting plate, 18 a material stopping device and 19 a material receiving trolley device

Detailed Description

The present invention will now be described in detail by way of the following detailed description with reference to the accompanying drawings, which are included by way of illustration and explanation and are not intended to limit the scope of the invention in any way. Furthermore, features from embodiments in this document and from different embodiments can be combined accordingly by a person skilled in the art from the description in this document.

In the embodiment of the steel coil slitting equipment, the functions or the functions of all the components are as follows:

1. a material placing frame: the steel coil is placed in advance,

2. the coiling trolley device comprises: a trolley for transporting the steel coil away,

3. a trolley bracket: the coiling trolley device is provided with a bracket for bearing a steel coil,

4. steel coil: the invention relates to a steel coil which is called by the invention,

5. a tensioning shaft: the steel coil is fixed,

6. unwinding unit: the steel coil is uncoiled,

7. the transmission clamping and conveying device comprises: the materials are sent while being clamped,

8. a first centering device: in the process of centering, the centering is carried out,

9. a roller conveying device I: in the transition centering process,

10. a leveling device: the steel belt forms a continuous reverse bending state by means of the downward pressing of the upper roller and the rotary motion of the upper roller and the lower roller, generates plastic deformation (Bauschinger effect), eliminates wave-shaped deformation, leads the steel belt to tend to be flat,

11. a first buffer device: the beats of the front and back processes are buffered,

12. a second buffer device: the beats of the front and back processes are buffered,

13. and (2) centering device II: in the process of centering, the centering is carried out,

14. a roller conveying device II: in the transition centering process,

15. a transverse cutting device: the cutting is carried out, and the cutting is carried out,

16. connect the material conveyer belt: the finished product is conveyed to the conveying device,

17. receiving a material supporting plate: the finished supporting plate is placed on the material receiving trolley device,

18. the material blocking device comprises: the finished product falls into a material receiving supporting plate,

19. receive material dolly device: a trolley for carrying away the finished product,

the structural description of the embodiment of the steel coil slitting equipment is shown in fig. 1 and fig. 2, and the steel coil slitting equipment comprises a material placing frame 1, a coiling trolley device 2, a tensioning shaft 5, an uncoiling device 6, a transmission clamping and conveying device 7, a centering device I8, a roller conveying device I9, a leveling device 10, a buffering device I11, a buffering device II 12, a centering device II 13, a roller conveying device II 14, a transverse cutting device 15, a material receiving conveying belt 16 and a material receiving trolley device 19; according to the advancing direction of the steel coil, the steel coil slitting equipment comprises a material placing frame 1, an upper coil trolley device 2 walking on the material placing frame 1, an uncoiling device 6 fixedly arranged on the material placing frame 1, a tensioning shaft 5 arranged on the uncoiling device 6 and used for fixing the steel coil 4, a transmission clamping and conveying device 7 which is independently arranged relative to the material placing frame 1 and fixed on the ground, a centering device I8 which is independently arranged relative to the transmission clamping and conveying device 7 and fixed on the ground, a roller conveying device I9 connected with the centering device I8, a leveling device 10 connected with the roller conveying device I9 and fixed on the ground, a buffering device I11 which is connected with the leveling device 10 and the conveying roller surface of which slightly inclines the ground, a buffering device II 12 which is independently arranged relative to the buffering device I11 and fixed on the ground and the conveying roller surface of which slightly inclines the ground, and a centering device II 13 which is connected with the buffering device II 12 and fixed on the ground, a second roller conveying device 14 connected with the second centering device 13, a transverse cutting device 15 connected with the second roller conveying device 14 and fixed on the ground, a material receiving conveying belt 16 which is independently arranged relative to the transverse cutting device 15 and fixed on the ground, and a material receiving trolley device 19 which is arranged on the ground and walks back and forth; the central lines of the conveying roller surfaces of the transmission clamping device 7, the centering device I8, the roller conveying device I9, the leveling device 10, the centering device II 13, the roller conveying device II 14 and the transverse cutting device 15 are positioned on the same straight line, and the central lines of the conveying roller surfaces of the buffer device I11 and the buffer device II 12 are positioned on the same plane; thus, the two parts are fixedly connected with each other or connected through a conveyor belt or independently arranged and fixed on the ground to form a whole set of continuous operation production line equipment; the uncoiling device 6, the transmission clamping and conveying device 7, the leveling device 10 and the transverse cutting device 15 are respectively connected with a motor, and the motor is controlled by a PLC system.

The working process is described, a steel coil 4 is placed in the middle of the material placing frame 1, the coiling trolley device 2 is driven by a servo motor to accurately move to the center of the material placing frame 1, the trolley bracket 3 is driven by the servo motor to lift the steel coil 4, the coiling trolley device 2 bears the steel coil 4 and moves to the tensioning shaft 5 close to the uncoiling device 6, after the height of the steel coil 4 is adjusted by lifting the trolley bracket 3 (the height adjustment is determined by the structure), the coiling trolley device 2 continues to move forwards, the steel coil is sleeved into the tensioning shaft 5, the tensioning shaft 5 is used for fixing the steel coil 4 through hydraulic tensioning, and the feeding process is completed. The tensioning shaft 5 is driven to rotate by a motor, a steel coil is unfolded, a steel strip (called as a steel strip after the steel coil is unfolded) is conveyed forwards, the steel strip passes through the transmission clamping and conveying device 7, meanwhile, the cylinder upwards pushes the lower roller to clamp the steel strip, the motor drives the upper roller to rotate to clamp the steel strip forwards and convey the steel strip through the centering device I8, the steel strip passes through the leveling device 10 after being subjected to transition centering through the roller conveying device I9, the steel strip forms a continuous reverse bending state by means of the downward pressing of the upper roller and the rotary motion of the upper roller and the lower roller, and plastic deformation (wrapped-Xinge effect) is generated, so that the wavy deformation is. The steel strip passes through the centering device II 13 after being buffered by the buffering devices (the buffering device I11 and the buffering device II 12) and then is centered by the transition of the roller conveying device II 14 and then enters the transverse cutting device 15, the fixed length roller arranged on the transverse cutting device 15 can ensure the set shearing length of the steel strip, and the steel strip is cut into a steel plate with a certain size after being fed into the transverse cutting device 15. The material receiving conveyor belt 16 keeps running in the shearing process, the sheared sheet steel plates are conveyed to a material receiving section and fall onto a material receiving trolley device 19 with a lifting function, and the steel plate carried by the material receiving trolley exits.

Buffering beat is because of when shearing the action at every turn, crosscut device 15 can stop pressing from both sides a beat of sending and sending (regard sending to cut the length as a beat, set for the crosscut beat), and, two stand-alone equipment drive simultaneously alone press from both sides and send, hardly guarantee two motor synchronization, so the steel band will get into the buffering interval after the levelling, buffer two 12 is less than transport roller surface department a little (be less than the plane, be convenient for pile up), pay-off buffering, delay the operating time of two end adjustments, do benefit to and save the beat time.

The crosscutting device 15 sets the crosscutting beat according to the system, after cutting, pauses for one beat, then clamps for one beat, and thus cuts-pauses-clamps for one cycle.

So, this equipment can make the coil of strip carry out incessant full automatization shearing on automation equipment production line, need not manual operation or auxiliary operation, opens a book, the exhibition paper tinsel material, and then cuts into the steel sheet of certain size, and full automatization intelligent operation is through PLC program control system process to realize that the coil of strip cuts the automation of equipment and scale steel sheet and fall into.

On the basis of the above embodiment, in another embodiment of the present invention, the steel plate cutting device is provided with a material blocking device 18, which is independently arranged relative to the material receiving conveyor belt 16. Therefore, the material blocking device 18 blocks the steel plate conveyed by the material receiving conveyor belt 16, and the steel plate is enabled to fall onto the material receiving supporting plate 17 of the material receiving trolley device 19 with the lifting function regularly and accurately by means of the wind power of the wind pipe.

On the basis of the above embodiment, in another embodiment of the present invention, a proximity switch or a sensor is installed on the material blocking device 18, and the proximity switch or the sensor is connected with the PLC control system. The steel plates conveyed by the material receiving conveying belt 16 are blocked by the material blocking device 18, the steel plates are enabled to fall onto the material receiving supporting plate 17 of the material receiving trolley device 19 with the lifting function in a tidy and accurate mode by means of wind power of the air pipe, the trolley material receiving supporting plate 17 is piled up along with the steel plates and descends, each piled steel plate descends by one thickness point, the height difference of the falling materials is close, the falling positions are close, and the stacking is guaranteed to be tidy. When the steel plate materials are stacked to a specified height, the proximity switch on the material blocking device 18 senses material information and feeds the material information back to the control system, and the PLC system controls the motor to stop shearing of the transverse cutting device 15. When the material receiving trolley device 19 returns in a no-load mode, the proximity switch on the material blocking device 18 senses the material receiving supporting plate 17 and feeds the material receiving supporting plate back to the control system, and the PLC system controls the motor to start the transverse cutting device 15 to cut. Therefore, the steel plates are orderly stacked, and the stacking is stopped after the steel plates are stacked to the specified height.

When shearing the narrow steel coil, the material receiving trolley device 19 can be controlled to move left and right, so that multiple rows of materials are stacked until the material receiving supporting plates 17 are fully distributed, and the material receiving trolley bearing steel plates exit.

On the basis of the above embodiment, in another embodiment of the present invention, the second buffering device 12 of the steel coil slitting device is provided with a proximity switch or a sensor, and the proximity switch or the sensor is connected with a PLC control system. And an induction switch/proximity switch is arranged above the middle position of the second buffer device 12 and below the roller surface and is used for inducing the steel belt. When the transverse cutting device 15 sends the material clamp away, the steel strip is pulled up, the proximity switch cannot sense the material and feeds the material back to the system, and the clamping and sending device 7 in the previous process starts feeding; when the transverse cutting device 15 temporarily stops clamping and conveying, due to the fact that the previous process is continuously pushed, the steel belt is accumulated in the buffer areas of the first buffer device and the second buffer device, when a certain amount of steel belt is reached, the steel belt sinks, the proximity switch senses that the material is fed back to the system, the clamping and conveying device 7 of the previous process stops feeding, and the steel belt is prevented from being excessively accumulated. Therefore, automatic circulation is realized, and the buffer memory amount meets the next sending and shearing length.

On the basis of the above embodiment, in another embodiment of the present invention, the crosscutting device 15 of the steel coil slitting device is provided with a proximity switch or a sensor, and the proximity switch or the sensor is connected with a PLC control system. The sizing roller of the transverse cutting device 15 is provided with an inductive switch/proximity switch, when the proximity switch senses that the steel strip is pinched by the transverse cutting position 15, a signal can be fed back to the control system, the previous process pinch device 7 starts feeding, when the transverse cutting device 15 stops pinching, the proximity switch cannot sense the steel strip, the signal can be fed back to the control system, the previous process pinch device 7 suspends feeding, and the steel strip is prevented from being excessively accumulated in a buffer area of the buffer device. Automatic circulation is realized, and the buffer memory amount meets the next sending and shearing length.

The feeding is started and stopped by the clamping device 7, and the feeding can also be set to be synchronous with the beat of the transverse shear, namely when the transverse cutting device 15 starts clamping, the feeding is started by the clamping device 7, and when the transverse cutting device 15 stops clamping, the feeding is stopped by the clamping device 7.

On the basis of the embodiment, in another embodiment of the invention, the maximum coil diameter of the steel coil which can be cut by the steel coil slitting equipment is 850mm, the maximum coil width is 850mm, and the thickness is 0.2-0.8 mm. Therefore, the method is suitable for processing and producing the thin steel coil with larger coil diameter and larger coil width.

On the basis of the above embodiment, in another embodiment of the invention, the steel coil slitting equipment can automatically cut a steel coil into steel plates with any length. The method for automatically cutting the steel plate with any length in a fixed length mode comprises the steps that a motor of a fixed length roller of a transverse cutting device 15 is connected with a PLC control system, size data information controlled by the PLC system is converted into the rotating speed of the motor, the motor controls the process of the fixed length roller, and the fixed length roller determines the cutting length.

On the basis of the above embodiment, in another embodiment of the present invention, a baffle mechanism is disposed behind the transverse cutting device 15, and can automatically lift up and down, and a proximity switch is installed to first block the waste material and fall into the waste material area, and when the first material is detected to fall, the first material is fed back to the control system, the baffle mechanism descends, so that the subsequent finished product can smoothly reach the receiving conveyor belt 16, and when the steel coil of the equipment is restarted, the baffle mechanism also ascends to return to the original position. So, baffle mechanism can be preferred to block the waste material, falls the waste material district, effectively distinguishes waste material and finished product.

On the basis of the above embodiment, in another embodiment of the present invention, the steel coil slitting device is provided with an operation data acquisition module and a processing module, and the control system remotely controls the operation of the device and monitors the operation condition of the device. The equipment is provided with an operation data acquisition module and a processing module, and cloud service and cloud control of the equipment are realized. The device is additionally provided with a high-definition video monitoring and lighting module and an environment index monitoring module which are connected with a device control system, the software is connected with the cloud server to monitor the device debugging, so that the production device is connected with the network and is in cloud, large data analysis is continuously realized, the device debugging parameters are optimized, and the intelligent device debugging is realized. The device is additionally provided with a sensor module, a high-definition video monitoring and illuminating module, a thermal imager module and an environmental index monitoring module, the sensor module, the high-definition video monitoring and illuminating module, the thermal imager module and the environmental index monitoring module are connected with a device control system, the device operation data are collected, the data are processed, a cloud server is connected to software, and therefore the production device is connected with the network to be in cloud, real-time monitoring, statistics and analysis of the device state are achieved, and the operation and maintenance.

Compared with the prior art, the automatic feeding and cutting integrated machine has the advantages that efficient and automatic production is achieved, and the functions of automatic feeding, cutting, waste treatment, finished product stacking and the like are integrated. The servo motor drives the feeding and sizing to ensure the cutting precision. The baffle mechanism behind the cutting device can preferentially block the waste materials, fall into the waste material area, and effectively separate the waste materials from finished products. The blanking part is adjusted to a proper position through the adjusting baffle mechanism and the lifting adjustment of the blanking trolley with servo drive, so that the finished products are neatly stacked. In the whole production flow, only two nodes of feeding the raw materials to the feeding trolley and pulling away the finished product materials need workers, other processes do not need manual work, the labor force is effectively liberated, and meanwhile, the production efficiency is also improved by multiple times.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

1. The utility model provides a equipment is cut to coil of strip which characterized in that: the automatic material collecting device comprises a material discharging frame (1), a coiling trolley device (2), a tensioning shaft (5), an uncoiling device (6), a transmission clamping and conveying device (7), a centering device I (8), a roller conveying device I (9), a leveling device (10), a buffering device I (11), a buffering device II (12), a centering device II (13), a roller conveying device II (14), a transverse cutting device (15), a material receiving conveying belt (16) and a material receiving trolley device (19);

according to the advancing direction of the steel coil, the steel coil slitting equipment comprises a plurality of main component parts, a coil discharging frame (1), a coil winding trolley device (2) walking on the coil discharging frame (1), an uncoiling device (6) fixedly arranged on the coil discharging frame (1), a tensioning shaft (5) arranged on the uncoiling device (6) and used for fixing the steel coil (4), a transmission clamping and conveying device (7) which is independently arranged relative to the coil discharging frame (1) and fixed on the ground, a centering device I (8) which is independently arranged relative to the transmission clamping and conveying device (7) and fixed on the ground, a roller conveying device I (9) which is connected with the centering device I (8), a leveling device I (10) which is connected with the roller conveying device I (9) and fixed on the ground, a buffering device I (11) which is connected with the leveling device I (10) and slightly inclines the surface of a conveying roller, and a buffering device II (11) which is independently arranged relative to the buffering device I (11) and fixed on the ground and slightly 12) The material receiving trolley device comprises a second centering device (13) which is connected with a second buffer device (12) and fixed on the ground, a second roller conveying device (14) which is connected with the second centering device (13), a transverse cutting device (15) which is connected with the second roller conveying device (14) and fixed on the ground, a material receiving conveying belt (16) which is independently arranged relative to the transverse cutting device (15) and fixed on the ground, and a material receiving trolley device (19) which is arranged on the ground and travels back and forth;

the central lines of the conveying roller surfaces of the transmission clamping device (7), the centering device I (8), the roller conveying device I (9), the leveling device (10), the centering device II (13), the roller conveying device II (14) and the transverse cutting device (15) are positioned on the same straight line, the central lines of the conveying roller surfaces of the buffering device I (11) and the buffering device II (12) are positioned on the same plane;

each part is respectively connected with a motor, and the motors are controlled by a PLC system.

2. The steel coil slitting device according to claim 1, characterized in that: the equipment is provided with a material blocking device (18) which is independently arranged relative to the material receiving conveying belt (16).

3. The steel coil slitting device according to claim 2, characterized in that: and a proximity switch or a sensor is arranged on the material blocking device (18) and is connected with the PLC control system.

4. The steel coil slitting device according to claim 1, characterized in that: the material receiving trolley device (19) is provided with a material receiving supporting plate (17).

5. The steel coil slitting device according to claim 1, characterized in that: and the second buffer device (12) is provided with a proximity switch or a sensor, and the proximity switch or the sensor is connected with the PLC control system.

6. The steel coil slitting device according to claim 1, characterized in that: the fixed-length roller of the transverse cutting device (15) is provided with a proximity switch or a sensor, and the proximity switch or the sensor is connected with a PLC control system.

7. The steel coil slitting device according to claim 1, characterized in that: the maximum coil diameter of a steel coil which can be cut by the equipment is 850mm, the maximum coil width is 850mm, and the thickness is 0.2-0.8 mm.

8. The steel coil slitting device according to claim 1, characterized in that: the method for automatically cutting the steel coil into the steel plate with any length in a fixed length mode comprises the steps that a motor of a fixed length roller of a transverse cutting device (15) is connected with a PLC control system, size data information controlled by the PLC system is converted into the rotating speed of the motor, the motor controls the process of the fixed length roller, and the fixed length roller determines the cutting length.

9. The steel coil slitting device according to claim 1, characterized in that: a baffle mechanism is arranged behind the transverse cutting device (15), can automatically lift up and down, and is provided with a proximity switch.

10. The steel coil slitting device according to claim 1, characterized in that: the equipment is provided with an operation data acquisition module and a processing module, and the control system is used for remotely controlling and operating the equipment and monitoring the operation condition of the equipment.