CN113551586A - Wireless transmission control's magnetic grid fixed length structure - Google Patents

Abstract

The invention provides a wireless transmission control magnetic grid fixed length structure, and belongs to the technical field of electromagnetic positioning. According to the invention, the roller with the plurality of slidable execution modules is arranged on the main shaft extending out of the main control module, and the blades are arranged on the plurality of execution modules, so that the positions of the blades can be conveniently adjusted; the power supply assembly is arranged on the roller, so that the requirement of electric adjustment between the execution module and the rotating roller through the movable electric assembly is met, the efficiency is higher, and the operation is more convenient; in addition, the electromagnetic induction assembly is arranged between each execution module and the roller to monitor the position of the execution module on the roller, so that the problem of poor adjustment precision caused by steel ruler measurement is avoided, and the processing quality of the carton is higher; in addition, still adopt wireless transmission module to carry out signal transmission between execution module and the host system, can't adapt to the rotatory problem of cylinder when solving wire signal transmission, satisfied the signal transmission demand under the prerequisite of guaranteeing the cylinder is rotatory, do benefit to the manufacturing of carton.

Description

Wireless transmission control's magnetic grid fixed length structure

Technical Field

The invention relates to the technical field of electromagnetic positioning, in particular to a magnetic grid fixed-length structure controlled by wireless transmission.

Background

As the current mainstream packaging structure, the utilization rate of the carton is very wide, and the improvement of the production efficiency of the carton is the key point of industrial research.

The carton die-cutting machine is used as equipment for carton die-cutting processing, and the blades arranged on the main shaft extending out of the main control structure are used for carrying out die-cutting operation on the paperboard. However, in actual use, the sizes of the cartons with different specifications are different, so that the blades mounted on the main shaft need to be movable on the main shaft. Although realized the removal of blade at main epaxial on the current carton cross cutting machine, however, because the main shaft need drive the blade rotation, lead to the removal of blade at main epaxial only to rely on operator manual regulation, can't be connected between blade position and the master control structure through the wire, and, need carry out position measurement with the help of the steel rule in accommodation process, just can guarantee that the position after the blade is adjusted satisfies the processing demand, not only the process is loaded down with trivial details, inconvenient operation, machining efficiency is low, in addition, it is poor to rely on artifical steel rule to carry out position measurement's mode still to have the measurement accuracy nature completely, lead to the problem of carton quality decline, the manufacturing of the carton that is unfavorable for.

Disclosure of Invention

Aiming at the problems in the prior art, the invention aims to provide a magnetic grid fixed length structure controlled by wireless transmission, a roller is arranged on a main shaft, a plurality of execution modules capable of sliding along the axial direction of the roller are arranged on the roller along the axial direction of the roller at intervals, a blade is arranged through the execution modules, in addition, a power supply assembly is arranged on the roller, the roller realizes circuit conduction under the condition of ensuring self rotation, the execution modules can move on the roller through a mobile electric assembly, the electric adjustment of the blade on the roller is realized, the problems of low manual adjustment efficiency, complex operation and measurement by a steel ruler are avoided, in addition, an electromagnetic induction assembly is also arranged between each execution module and the roller, the purpose of position monitoring of the execution modules on the roller is realized through the electromagnetic induction assembly, and the problem of poor adjustment precision caused by manually adopting the steel ruler for measurement is avoided, the quality of carton processing has been guaranteed, in addition, the signal transmission that still adopts wireless transmission module to carry out between each execution module and the host system, has solved the problem that can't connecting wire on rotatory cylinder, does benefit to the manufacturing of carton.

The specific technical scheme is as follows:

a wireless transmission controlled magnetic grid length control structure characterized by comprising:

the main control module is provided with a cabinet, the main control module is provided with a main shaft extending out of the cabinet, and meanwhile, a controller is arranged in the cabinet;

the roller is arranged on one side of the cabinet, and one end of the roller is connected with the main shaft and rotates along with the main shaft;

the execution modules are arranged on the roller at intervals along the axial direction of the roller, and each execution module can move on the roller along the axial direction of the roller;

the blades correspond to the execution modules one by one, and the blades are detachably connected with the corresponding execution modules;

the power supply assembly is arranged on the roller;

the movable electric component is arranged between the execution module and the roller, is electrically connected to the power supply component and drives the execution module to move on the roller;

the electromagnetic induction assembly comprises an induction reading head and a magnetic stripe, the magnetic stripe is arranged on the outer wall of the roller along the axial direction of the roller, each execution module is provided with the induction reading head corresponding to the magnetic stripe, and each induction reading head is electrically connected with the power supply assembly;

the wireless transmission module comprises a first receiving and sending part and a second receiving and sending part, the first receiving and sending part is arranged on the main control module and is electrically connected with the controller, the second receiving and sending part is arranged on the roller and is electrically connected with the power supply assembly, and meanwhile, the induction reading head and the movable electric assembly are electrically connected with the second receiving and sending part.

The utility model provides a foretell magnetic grid fixed length structure of wireless transmission control, wherein, the power supply subassembly is wireless power supply structure, the power supply subassembly includes wireless power supply transmitting coil, wireless power supply receiving coil and power module, wireless power supply transmitting coil sets up on the rack and is located the region that the main shaft stretches out, wireless power supply receiving coil sets up on the cylinder and corresponds with wireless power supply transmitting coil, and simultaneously, power module sets up in the cylinder and is connected with wireless power supply receiving coil electricity, wireless power supply transmitting coil is connected with the controller electricity, remove electronic subassembly, induction reading head and second send-receiver portion all are connected with power module electricity.

In the above magnetic grid fixed length structure controlled by wireless transmission, the power module includes an ac-to-dc conversion circuit.

The wireless transmission control magnetic grid fixed length structure is characterized in that the wireless power supply transmitting coil and the main shaft are coaxially arranged and sleeved outside the main shaft, and the wireless power supply receiving module and the roller are coaxially arranged and sleeved outside one end of the roller, wherein the main shaft is connected with the roller.

The utility model provides an foretell magnetic grid fixed length structure of wireless transmission control, wherein, the power supply subassembly is the battery structure, and the power supply subassembly includes battery mounting box and battery, and the battery mounting box sets up on the cylinder, and the battery is installed in the electromagnetism mounting box to, remove electric component, response read head and second receiving and dispatching portion and all be connected with electromagnetism mounting box electricity.

The wireless transmission control magnetic grid fixed length structure comprises a rack, a gear and a mobile driver, wherein the rack is arranged on the outer wall of a roller and arranged along the axial direction of the roller, each execution module is provided with the mobile driver, each mobile driver is electrically connected with a power supply assembly and a second receiving and sending part, a driving shaft of each mobile driver is arranged on the gear, and each gear is meshed with the rack.

The magnetic grid fixed length structure controlled by wireless transmission further comprises a guide structure, the guide structure is arranged between the execution module and the roller and comprises a guide rail and sliding blocks, the guide rail is arranged on the outer wall of the roller and is arranged along the axial direction of the roller, at least one sliding block is arranged on each execution module, and the sliding blocks are arranged on the guide rail in a sliding mode.

The magnetic grid fixed length structure controlled by wireless transmission is characterized in that the main control module further comprises a human-computer interaction assembly, the human-computer interaction assembly is arranged on the cabinet, and the human-computer interaction assembly is electrically connected with the controller.

The magnetic grid fixed length structure controlled by wireless transmission is characterized in that the first transceiving part in the wireless transmission module is externally arranged at the top of the cabinet.

In the above magnetic grid fixed length structure for wireless transmission control, wherein,

one second transceiver in the wireless transmission module is arranged, the second transceiver is arranged on the roller or in an execution module on the roller, and the second transceiver is electrically connected with each reading head sensor and each mobile electric component;

the second transceiver in the wireless transmission module is provided with a plurality of, all is provided with a second transceiver in each execution module on the cylinder to, each second transceiver all is connected with the power supply subassembly electricity, and, each second transceiver all with the response reading head on the execution module that corresponds and remove the equal electricity of electronic subassembly and be connected.

The positive effects of the technical scheme are as follows:

according to the wireless transmission control magnetic grid fixed length structure, the roller is arranged on the main shaft extending out of the main control module, the plurality of execution modules capable of sliding along the axial direction of the roller are arranged on the roller at intervals along the axial direction of the roller, and each execution module is provided with the blade, so that the adjustment of the position of the blade is realized, and the processing requirements of cartons with different specifications are met; in addition, the power supply assembly is arranged on the roller, so that the rotary motion of the roller is effectively adapted, a mobile electric assembly can be arranged between the execution module and the roller to meet the mobile requirement, the purpose of electric adjustment is achieved, and the problems of low manual adjustment efficiency, complex operation and measurement by means of a steel ruler are solved; in addition, an electromagnetic induction assembly is arranged between each execution module and the roller, the position of each execution module on the roller is monitored through the electromagnetic induction assembly, the problem of poor adjustment precision caused by manual steel ruler measurement is avoided, and the processing quality of the carton is guaranteed; in addition, signal transmission is carried out between the execution module and the main control module by adopting the wireless transmission module, the problem that the electromagnetic induction assembly and the main control module cannot be connected on the rotating roller through a wire is solved, the control signal transmission requirement is met on the premise of ensuring the rotation of the roller, and the production and the manufacture of the carton are facilitated.

Drawings

FIG. 1 is a block diagram of an embodiment of a wireless transmission controlled grating fixed length structure of the present invention;

fig. 2 is a schematic cross-sectional view of the drum with the execution module and the blade mounted thereon according to a preferred embodiment of the invention.

In the drawings: 1. a main control module; 11. a cabinet; 12. a main shaft; 13. a human-computer interaction component; 2. a drum; 3. an execution module; 4. a blade; 5. a power supply assembly; 51. a wireless power supply transmitting coil; 52. a wireless power supply receiving coil; 53. a power supply module; 6. moving the motorized assembly; 61. a rack; 7. an electromagnetic induction component; 71. a magnetic strip; 8. a wireless transmission module; 81. a first transceiver unit.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the effects of the present invention easy to understand, the following embodiments specifically describe the technical solutions provided by the present invention with reference to fig. 1 to 2, but the following contents are not to be taken as limitations of the present invention.

FIG. 1 is a block diagram of an embodiment of a wireless transmission controlled grating fixed length structure of the present invention; fig. 2 is a schematic cross-sectional view of the drum with the execution module and the blade mounted thereon according to a preferred embodiment of the invention. As shown in fig. 1 and fig. 2, the magnetic grid fixed length structure for wireless transmission control provided by this embodiment includes: the device comprises a main control module 1, a roller 2, an execution module 3, a blade 4, a power supply component 5, a mobile electric component 6, an electromagnetic induction component 7 and a wireless transmission module 8.

Specifically, main control module 1 includes a rack 11, and rack 11 places subaerial, and this moment, main control module 1 is provided with one and stretches out the outer main shaft 12 of rack 11, has realized the installation of main shaft 12, simultaneously, still is provided with the controller in the rack 11, stretches out the rotation of the outer main shaft 12 of rack 11 through controller control to satisfy the processing demand.

Specifically, the roller 2 is disposed on one side of the cabinet 11, and one end of the roller 2 and one end of the main shaft 12 extending out of the cabinet 11 are connected, so that the main shaft 12 can drive the roller 2 to rotate, a condition is provided for subsequently driving the blade 4 to rotate through the roller 2, and a sufficiently large installation basis is provided for arrangement and movement of the subsequent blade 4 through the roller 2.

Specifically, the execution module 3 is provided with a plurality of, and a plurality of execution module 3 all sets up on the cylinder 2, and a plurality of execution module 3 along the axial interval arrangement of cylinder 2 to realized the unified arrangement of a plurality of execution module 3 on cylinder 2, satisfied the processing demand of carton. Meanwhile, each execution module 3 can move on the roller 2 along the axial direction of the roller 2, so that the position of the roller 2 on each execution module 3 can be adjusted, and conditions are provided for the subsequent adjustment of the position of the blade 4 to adapt to the processing of cartons with different specifications.

Specifically, the blade 4 is provided with a plurality of equally, and a plurality of blade 4 and a plurality of execution module 3 one-to-one, even make a blade 4 can install on cylinder 2 through an execution module 3, provide the condition for the rotation of follow-up blade 4, also make simultaneously blade 4 can follow the execution module 3 at place and move on cylinder 2, realize the regulation of blade 4 position to satisfy the processing demand of the carton of different specifications. In addition, the blade 4 and the execution module 3 at the position are detachably connected, so that whether the blade 4 is installed on the execution module 3 or not can be selected according to actual processing requirements, subsequent maintenance and replacement of the blade 4 are facilitated, and the structural design is more reasonable.

Specifically, power supply unit 5 sets up on cylinder 2 for power supply unit 5 can adapt to the rotation of cylinder 2, has avoided power supply unit 5 to cause the interference to the rotation of cylinder 2, and simultaneously, the power consumption structure of follow-up arrangement provides the electric energy on for cylinder 2 through power supply unit 5, thereby has avoided unable problem with the structural component and the host system 1 on the wire connection cylinder 2 because of the rotation of cylinder 2, and adaptability is better.

Specifically, the movable electric assembly 6 is arranged between the execution module 3 and the roller 2, and the movable electric assembly 6 is electrically connected to the power supply assembly 5, so that the power supply assembly 5 can directly provide electric energy for the movable electric assembly 6 through a wire only arranged on the roller, and the normal operation of the movable electric assembly 6 is ensured. At this moment, remove 6 drive execution module 3 of electronic subassembly and move on cylinder 2, realize the electrical control of execution module 3 on cylinder 2 through electronic removal subassembly promptly, for the influence of follow-up elimination manual regulation provides the condition, it is more convenient to adjust, and the regulation precision is higher.

Specifically, the electromagnetic induction component 7 is arranged on the roller 2 and the execution module 3, and the position of the execution module 3 on the roller 2 is monitored through the electromagnetic induction component 7, so that a reference basis is provided for adjusting the blade 4. At this moment, the electromagnetic induction component 7 includes the induction reading head again and the magnetic stripe 71 that corresponds with the induction reading head, and at this moment, set up the magnetic stripe 71 on the outer wall of cylinder 2 along the axial of cylinder 2, magnetic stripe 71 can cover each position on the execution module 3 moving direction promptly, provides the condition for the position of accurate monitoring execution module 3 on cylinder 2. And, each execution module 3 is provided with the induction reading head corresponding to the magnetic stripe 71, and the magnetic pole information of the magnetic stripe 71 is read through the induction reading head, so that the position information of the induction reading head on the magnetic stripe 71 is obtained, the position information of the execution module 3 on the roller 2 is determined, reference information is provided for realizing the electric adjustment of the blade 4, the accuracy of the adjustment is ensured, and the processing precision is ensured. And each induction reading head all is connected with power supply unit 5 electricity, provides the electric energy of work effect for the induction reading head through power supply unit 5, has guaranteed the normal use of induction reading head, has also adapted to the rotation demand of cylinder 2 simultaneously.

Specifically, the wireless transmission module 8 further includes a first transceiver 81 and a second transceiver in communication connection with the first transceiver 81, the first transceiver 81 can be used as a transmitting end to transmit signals and is received by the second transceiver as a receiving end, and meanwhile, the second transceiver can also be used as a transmitting end to transmit signals and is received by the first transceiver 81 as a receiving end, so that bidirectional signal transmission is realized. At this moment, set up first transceiver 81 on main control module 1 and be connected with the controller electricity, control monitoring signal that first transceiver 81 received promptly can transmit to the controller in, make things convenient for the operator to obtain current behavior, also make simultaneously the control signal that the operator passes through the controller input can launch through first transceiver 81, provide the condition for the electrical control of execution module 3 on cylinder 2. And, the second transceiver is set up on cylinder 2 and electrically connected with power supply unit 5, provide the electric energy for the work of the second transceiver through the power supply unit 5, meanwhile, the inductive reading head and moving the electronic assembly 6 are all electrically connected on the second transceiver, namely make the second transceiver can receive the position information read by the inductive reading head and launch the position information read out, facilitate the first transceiver 81 can transmit to the controller after receiving the position information, meanwhile, can receive the control information that the operating personnel input through the controller that the first transceiver 81 transmits from through the second transceiver, thus control and move the electronic assembly 6 and drive the execution module 3 to move on cylinder 2, realize the electronic regulation of the position of the cutting tool, even make the structure on cylinder 2 can realize the signal two-way transmission between main control module 1 and the wireless transmission module 8 through the wireless transmission module, realize the wireless transmission of the signal under the condition that the cylinder 2 is rotated, the problem that the structure on the rotary drum 2 cannot be connected with the main control module 1 through a wire is avoided, and the structural design is more reasonable.

More specifically, power supply unit 5 is the wireless power supply structure, this moment, power supply unit 5 includes wireless power supply transmitting coil 51 again, wireless power supply receiving coil 52 and power module 53, set up wireless power supply transmitting coil 51 on rack 11 and be located the region that main shaft 12 stretches out, and simultaneously, set up wireless power supply receiving coil 52 on cylinder 2 and correspond with wireless power supply transmitting coil 51, make external power can launch through wireless power supply transmitting coil 51 on the host system 1, and receive through wireless power supply receiving coil 52 on cylinder 2, realize the wireless transmission of electric energy, thereby make also can realize electric energy transmission under the rotatory condition of cylinder 2, need not the wire and connect, better adaptation the power supply demand when cylinder 2 is rotatory, the electric operation for realizing structure on cylinder 2 provides the condition. Meanwhile, the power module 53 is disposed in the drum 2 and electrically connected to the wireless power receiving coil 52, so that the electric energy received by the wireless power receiving coil 52 can be transmitted to the power module 53, and the wireless power transmitting coil 51 is electrically connected to the controller, so that the external power source connected to the controller in the main control module 1 can be electrically connected to the wireless power transmitting coil 51, and meanwhile, the mobile electric component 6, the inductive reading head and the second transceiver are electrically connected to the power module 53, i.e., the electric energy is provided for the work of the mobile electric component 6, the inductive reading head and the second transceiver through the power module 53, and the structural design is more reasonable.

More specifically, the power module 53 further includes an ac-to-dc conversion circuit, that is, when the power supply structure is established as a wireless power supply structure, the ac power for wireless transmission is converted into dc power through the ac-to-dc conversion circuit in the power module 53, so that the subsequent use of the second transceiver, the inductive reading head and the mobile electric component 6 is facilitated, and the structural design is more reasonable.

More specifically, the wireless power supply transmitting coil 51 and the main shaft 12 are coaxially arranged and sleeved outside the main shaft 12, and the wireless power supply receiving module and the roller 2 are coaxially arranged and sleeved outside the main shaft 12 connected to one end of the roller 2, so that the accuracy of the relative positions of the wireless power supply transmitting coil 51 and the wireless power supply receiving coil 52 is ensured, and the wireless transmission efficiency of electric energy is higher and safer.

In addition to the above-described wireless power supply structure, the power supply unit 5 may be a battery structure, that is, when the power consumption of the structure on the drum 2 is small, the power may be supplied by using the battery structure. At this moment, power supply unit 5 includes battery mounting box and battery again, and the battery mounting box sets up on cylinder 2, and the battery is installed in the electromagnetism mounting box to, remove electric component 6, response read head and second receiving and dispatching portion all are connected with the electromagnetism mounting box electricity, provide the electric energy for the work of removing electric component 6, response read head and second receiving portion through the battery promptly, can guarantee cylinder 2's normal rotation equally, and structural design is more reasonable. It should be noted that the power supply module 5 may also have a wireless power supply structure and a battery power supply structure, and the specific circuit structure thereof may refer to the devices such as the mobile phone with wireless charging function in the current market, which are not described herein again.

More specifically, the movable electric assembly 6 further includes a rack 61, a gear and a movable driver, at this time, the rack 61 is disposed on the outer wall of the drum 2 and is arranged along the axial direction of the drum 2, that is, the rack 61 can cover the axial direction of the drum 2, meanwhile, a movable driver is disposed on each of the execution modules 3, each of the movable drivers is electrically connected to the power supply assembly 5 and the second transceiver, and a driving shaft of each of the movable drivers is disposed on a gear, and each of the gears is engaged with the rack 61, that is, the movable driver can drive the corresponding gear to move on the rack 61, so as to drive the corresponding execution module 3 to move on the drum 2 along the axial direction of the drum 2, thereby achieving the adjustment of the position of the blade 4. And, each removes the driver homoenergetic and supplies power through power supply unit 5, the normal operating of removing the driver has been guaranteed, in addition, also make operating personnel through the control signal of controller input launch through first receiving and dispatching portion 81 and receive the back through second receiving and dispatching portion, can transmit to removing in the driver through second receiving and dispatching portion, thereby control removes the driver operation, realize the regulation to execution module 3 position on cylinder 2, thereby realize the regulation of 4 positions of blade, need not manual regulation, it is more convenient to adjust, high efficiency, and is safer.

More specifically, still be provided with guide structure between execution module 3 and the cylinder 2, at this moment, guide structure includes guide rail and slider again, set up the guide rail on the outer wall of cylinder 2 and arrange along the axial of cylinder 2, simultaneously, be provided with a slider on each execution module 3 at least, and the slider is all slided and is located on the guide rail, realized the installation of execution module 3 on cylinder 2 through arranging of slider and guide rail promptly, also lead for the removal of execution module 3 on cylinder 2 simultaneously, the stability that execution module 3 removed has been guaranteed, structural design is more reasonable.

More specifically, the main control module 1 is further provided with a human-computer interaction assembly 13, at this time, the human-computer interaction assembly 13 is arranged on the cabinet 11, and the human-computer interaction assembly 13 is electrically connected with the controller, so that an operator can input a control instruction to the controller through the human-computer interaction assembly 13, the running state of the equipment is displayed more visually, and the operation and the control are more convenient. It should be noted that the human-computer interaction component 13 may be a touch display screen, and may be adapted to human-computer interaction operations, and therefore, the detailed structure of the human-computer interaction component 13 is not described in detail.

More specifically, the first transceiving part 81 in the wireless transmission module 8 is externally disposed at the top of the cabinet 11, so that the first transceiving part 81 is not shielded by the cabinet 11, and the wireless signal transmission effect is better.

More specifically, when one second transceiver unit is provided in the wireless transmission module 8, the second transceiver unit is provided on the drum 2 or in one of the execution modules 3 on the drum 2, and at this time, the second transceiver unit is electrically connected to each reading head sensor and each mobile electric component 6, that is, the position information read by each reading head sensor is transmitted through the second transceiver unit, and the control signal input by the operator is received through the second transceiver unit and transmitted to different mobile electric components 6, thereby saving the number of the second transceiver units.

In addition, the second transceiver in the wireless transmission module 8 can be further provided with a plurality of second transceiver, at this moment, each execution module 3 on the roller 2 is internally provided with a second transceiver, and each second transceiver is electrically connected with the power supply assembly 5, and each transceiver is electrically connected with the induction reading head and the movable electric assembly 6 on the corresponding execution module 3, namely, the position information read by each induction reading head can be transmitted out through the corresponding second transceiver, and each movable electric assembly 6 can be controlled through the control signal received by the corresponding second transceiver, so that each execution module 3 has better independence, and the later maintenance is facilitated.

The magnetic grid fixed length structure for wireless transmission control provided by the embodiment comprises a main control module 1, a roller 2, an execution module 3, a blade 4, a power supply component 5, a mobile electric component 6, an electromagnetic induction component 7 and a wireless transmission module 8; the roller 2 with the plurality of slidable execution modules 3 is arranged on the main shaft 12 extending out of the main control module 1, and the plurality of execution modules 3 are provided with the blades 4 and are arranged at intervals along the axial direction of the roller 2, so that the position of the blades 4 can be conveniently adjusted, and the processing requirements of cartons with different specifications can be met; the power supply assembly 5 is arranged on the roller 2, so that the requirement of electric adjustment between the execution module 3 and the roller 2 through the movable electric assembly 6 can be met under the condition that the roller 2 rotates, the efficiency is higher, and the operation is more convenient; in addition, the position of the execution module 3 on the roller 2 is monitored by arranging the electromagnetic induction assembly 7 between each execution module 3 and the roller 2, so that the problem of poor adjustment precision caused by steel ruler measurement is avoided, and the processing quality of the carton is higher; in addition, still adopt wireless transmission module 8 to carry out signal transmission between execution module 3 and the host system 1, can't adapt to the rotatory problem of cylinder 2 when having solved wire signal transmission, satisfied the signal transmission demand under the prerequisite of guaranteeing that cylinder 2 is rotatory, do benefit to the manufacturing of carton.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention.

Claims (10)

1. A wireless transmission control's magnetic grid fixed length structure characterized in that includes:

the main control module is provided with a cabinet, the main control module is provided with a main shaft extending out of the cabinet, and meanwhile, a controller is arranged in the cabinet;

the roller is arranged on one side of the cabinet, and one end of the roller is connected with the main shaft and rotates along with the main shaft;

the execution modules are arranged on the roller at intervals along the axial direction of the roller, and each execution module can move on the roller along the axial direction of the roller;

the blades correspond to the execution modules one by one, and the blades are detachably connected with the corresponding execution modules;

the power supply assembly is arranged on the roller;

the movable electric component is arranged between the execution module and the roller, is electrically connected to the power supply component and drives the execution module to move on the roller;

the electromagnetic induction assembly comprises an induction reading head and a magnetic strip, the magnetic strip is arranged on the outer wall of the roller along the axial direction of the roller, the induction reading head corresponding to the magnetic strip is arranged on each execution module, and each induction reading head is electrically connected with the power supply assembly;

the wireless transmission module comprises a first receiving and sending part and a second receiving and sending part, the first receiving and sending part is arranged on the main control module and electrically connected with the controller, the second receiving and sending part is arranged on the roller and electrically connected with the power supply assembly, and meanwhile, the induction reading head and the movable electric assembly are electrically connected with the second receiving and sending part.

2. The wireless transmission control magnetic grid length fixing structure according to claim 1, wherein the power supply assembly is a wireless power supply structure, the power supply assembly includes a wireless power supply transmitting coil, a wireless power supply receiving coil and a power supply module, the wireless power supply transmitting coil is disposed on the cabinet and located in an area where the spindle extends, the wireless power supply receiving coil is disposed on the drum and corresponds to the wireless power supply transmitting coil, meanwhile, the power supply module is disposed in the drum and electrically connected to the wireless power supply receiving coil, the wireless power supply transmitting coil is electrically connected to the controller, and the mobile electric assembly, the induction reading head and the second transceiver are electrically connected to the power supply module.

3. The wireless transmission control magnetic grid fixed length structure according to claim 2, wherein the power module comprises an alternating current to direct current conversion circuit.

4. The wireless transmission control magnetic grid length control structure according to claim 2, wherein the wireless power supply transmitting coil is coaxially disposed with the main shaft and sleeved outside the main shaft, and the wireless power supply receiving module is coaxially disposed with the roller and sleeved outside one end of the main shaft connected to the roller.

5. The wireless transmission control magnetic grid length control structure according to claim 1, wherein the power supply assembly is a storage battery structure, the power supply assembly comprises a battery mounting box and a storage battery, the battery mounting box is arranged on the roller, the storage battery is arranged in the electromagnetic mounting box, and the mobile electric assembly, the induction reading head and the second transceiver are electrically connected with the electromagnetic mounting box.

6. The wireless transmission control magnetic grid length fixing structure according to any one of claims 1 to 5, wherein the mobile electric component comprises a rack, a gear and a mobile driver, the rack is disposed on the outer wall of the roller and is arranged along the axial direction of the roller, a mobile driver is disposed on each execution module, each mobile driver is electrically connected with the power supply component and the second transceiver, a driving shaft of each mobile driver is disposed on a gear, and each gear is engaged with the rack.

7. The wireless transmission control magnetic grid fixed length structure according to any one of claims 1 to 5, further comprising a guiding structure, wherein the guiding structure is disposed between the execution module and the roller, the guiding structure comprises a guide rail and a sliding block, the guide rail is disposed on an outer wall of the roller and is arranged along an axial direction of the roller, at least one sliding block is disposed on each execution module, and the sliding blocks are slidably disposed on the guide rail.

8. The wireless transmission control magnetic grid fixed-length structure according to any one of claims 1 to 5, wherein the master control module further comprises a human-computer interaction component, the human-computer interaction component is arranged on the machine cabinet, and the human-computer interaction component is electrically connected with the controller.

9. The wireless transmission control magnetic grid fixed-length structure according to any one of claims 1 to 5, wherein the first transceiver in the wireless transmission module is externally arranged on the top of the cabinet.

10. The wireless transmission control magnetic grid fixed length structure according to any one of claims 1 to 5,

one second transceiver part is arranged in the wireless transmission module, the second transceiver part is arranged on the roller or in one execution module on the roller, and the second transceiver part is electrically connected with each reading head sensor and each mobile electric component;

the second transceiver in the wireless transmission module is provided with a plurality of second transceivers, one second transceiver is arranged in each execution module on the roller, each second transceiver is electrically connected with the power supply assembly, and each second transceiver is electrically connected with the induction reading head and the movable electric assembly on the corresponding execution module.

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