CN214688592U - Integrative seal line machine of online intelligence - Google Patents

Abstract

The utility model discloses an online intelligent integrated line printing machine, which comprises a frame body and a conveyer belt which is matched and arranged on the frame body, wherein a fixing device for objects to be printed is arranged above the conveyer belt, the objects to be printed are rolled and supported on the conveyer belt by the fixing device for the objects to be printed, and the fixing device for the objects to be printed and the conveyer belt synchronously move; the frame body is sequentially provided with a material feeding position, a position positioning recognition device, a printing assembly and a material receiving position along the conveying direction of the conveying belt, the printing assembly comprises a plurality of groups of printing ink box bodies arranged in a row and a controller used for controlling the printing ink box bodies to work, and the controller is respectively in control connection with the position positioning recognition device and the printing ink box bodies. And simultaneously, the utility model also discloses a use method of integrative seal line machine of online intelligence. The utility model discloses having changed the working method that current spray gun head removed the printing, having cooperated and treated seal thing fixing device, can having carried out more accurately to the stock and print the seal line, improve the seal line precision substantively, greatly promote the core competitiveness of enterprise.

Description

Integrative seal line machine of online intelligence

Technical Field

The utility model relates to a design and the production field of industry intelligence seal line equipment, the more specifically integrative seal line machine of online intelligence that says so.

Background

The screen printer is a device for applying printing by using a screen printing plate, belongs to a common printing line production tool in the printing line, is used for printing characters, patterns and lines, and is widely applied to printing and processing of plane materials in the industries of pictures and texts, shoe industry, clothing, bags, tiles, glass and the like.

The working principle of the screen printer is as follows: firstly, power is transmitted through a transmission mechanism, the ink scraping plate extrudes ink and a screen printing plate in motion, the screen printing plate and a printing stock form a press mark, the screen has tension N1 and N2, force F2 is generated on the ink scraping plate, the screen printing plate is not contacted with the printing stock except the press mark due to resilience force, and then the ink is leaked and printed on the printing stock from the moving press mark through meshes under the action of extrusion force F1 of the ink scraping plate, so that the printing operation is completed. In the printing process, the screen printing plate and the ink scraping plate move relatively, the extrusion force F1 and the resilience force F2 also move synchronously, and the screen returns to be separated from the contact with the printing stock in time under the action of the resilience force so as to avoid smearing the print, namely the screen is continuously deformed and rebounded in the printing process.

When the screen printing machine is used, the working efficiency is low, the labor cost is high, the line printing precision is seriously not suitable for the development requirement of the prior science and technology level, and simultaneously, very large pollution is generated. Therefore, through the development of technology in the industry, a line printer which utilizes a mechanical arm or a movable printing head to realize automatic printing is developed, such as the Chinese patent: a spray gun device in the scheme finishes printing of the whole printing line track along with the movement of the sliding X-axis direction and the sliding Y-axis direction, changes the working mode and the method of the traditional silk screen printing, not only improves the printing efficiency, but also correspondingly improves the printing precision.

However, with the increasing requirement of printing precision in the industry, the automatic line printer adopting the spray gun for printing has the following technical limitations: firstly, because the spray gun utilizes high-pressure gas to extrude and spray the ink, the size of the ink point is greatly restricted and limited; secondly, in the whole line printing process, the spray gun of the line printing device sprays ink in motion along with the equipment searching for each printing point, so that the accuracy of the ink spraying point is not high; thirdly, the spray gun needs to move by driving the slide block, the whole moving process has more strokes and long moving time, and the time for printing the whole ink jet track is very long, so the efficiency has the requirement of further improving.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an integrative marking machine of online intelligence and automatic marking process thereof, its main aim at overcome the above-mentioned not enough and shortcoming that prior art exists.

The utility model adopts the technical scheme as follows:

an online intelligent integrated line printing machine comprises a frame body and a conveying belt which is arranged on the frame body in a matched mode, wherein a fixing device for an object to be printed is arranged above the conveying belt, the object to be printed is pressed on the conveying belt through rolling by the fixing device for the object to be printed, and the fixing device for the object to be printed and the conveying belt move synchronously; the utility model discloses a printing ink box, including frame body, printing subassembly, position location recognition device, printing subassembly and receipts material level, the direction of delivery along the conveyer belt has set gradually on the frame body and has sent material level, position location recognition device, printing subassembly and receipts material level, send the material level and receive the material level and be used for respectively waiting to deliver and collect of seal material, position location recognition device is used for the location and discerns the position of waiting to print the material, the printing subassembly includes that the multiunit is arranged the printing cartridge body that sets up and one is used for control print the controller of cartridge body work, the controller respectively with position location recognition device and printing cartridge body are connected with each other by control.

Furthermore, the printing ink box body is of an incremental staggered structure, printing points of the printing ink box body are uniformly staggered and distributed along the Y-axis direction, and the printing points are conveyed to advance along the X-axis direction by matching with the conveying belt, so that a complete printing track is formed by all the printing points printed by the printing ink box body.

Furthermore, the printing ink box bodies are symmetrically arranged in a V shape, the distance between the two printing ink box bodies positioned at the two outer side ends of the V shape corresponds to the width of the conveying belt, and the two printing ink box bodies positioned at the inner side ends of the V shape are positioned in the middle of the width of the conveying belt; the printing points of the printing ink box body are uniformly arranged along the Y-axis direction in a staggered mode, and are matched with the conveying belt to advance along the X-axis direction, so that each printing point printed by the printing ink box body forms a complete printing track.

Furthermore, the printing ink box bodies are arranged in an oblique straight line, and the distance between the two printing ink box bodies at the two ends of the oblique straight line corresponds to the width of the conveying belt.

Further, the print object fixing device includes: the wire winding roller comprises a plurality of wire winding roller bodies and a wire body, wherein the wire winding roller bodies are in linkage connection with driving rollers of the conveying belt, the wire body is wound on the wire winding roller bodies in a matched mode, and the wire body is matched with the conveying belt and abuts against the conveying belt to be arranged in a rolling mode.

Furthermore, a plurality of winding grooves which are distributed at equal intervals are formed in the winding roller body, and the wire body is matched, movably wound and fixed in the winding grooves.

Furthermore, there are three groups of winding roller bodies, which are respectively matched with the position positioning and identifying device and the frame body of the printing component, and each group has two winding roller bodies.

Still further, position location recognition device includes mounting bracket, supplementary lamp body and video camera, the mounting bracket cooperation is installed on the frame body, video camera installs the top middle part of mounting bracket, supplementary lamp body cooperation sets up on the mounting bracket, this supplementary lamp body does video camera provides supplementary light source, video camera with the control of controller phase is connected.

An automatic line printing process of an online intelligent integrated line printing machine comprises the following specific steps:

the method comprises the following steps: feeding, namely conveying the object to be printed of the line to be printed to a material conveying position of a conveying belt, and moving forwards along with the conveying of the conveying belt;

step two: the line to be printed is fixedly pressed and abutted, when the conveyer belt continuously conveys the object to be printed to the working area of the position positioning and identifying device, the object to be printed is fixedly pressed and abutted by the object to be printed fixing device arranged above the conveyer belt, so that the object to be printed is still conveyed and conveyed forwards along the conveyer belt under the condition of keeping the object to be printed immovably;

step three: the method comprises the steps that positioning information is collected, a conveying belt conveys an object to be printed to a working area of a position positioning and identifying device, the position positioning and identifying device respectively collects and positions shape information and position information of the object to be printed, the collected position positioning information is conveyed to a controller, and the controller obtains a control signal of a printing track according to the information and a printing line result to be output;

step four: printing a printing line track, conveying an object to be printed by a conveying belt and passing through a working area of a printing assembly, uniformly arranging printing points of a printing ink box body in a staggered manner along the Y-axis direction, and matching with the conveying forward of the conveying belt along the X-axis direction to finally form a complete printing line track by each printing point printed by the printing ink box body;

step five: receiving the material, conveying the material to be printed to be pressed by the fixing device of the material to be printed after the printing of the material to be printed is finished,

and then continuously conveying the paper to a material receiving position for concentrated material receiving and stacking to finish the whole printing process.

Further, the fourth step comprises the following specific steps:

1) the printing points of the printing ink box body are uniformly arranged along the Y-axis direction in a staggered way, and the conveying belt conveys the object to be printed along the X-axis direction;

2) when the printing point on the printing track passes below the printing point of the printing ink box body, the controller controls the printing point to print;

3) after printing, the object to be printed continues to move forward along the X-axis direction until the whole object to be printed passes through each printing ink box body, and each printing point in the Y direction is printed by the printing ink box body, so that each printing point forms a complete printing line track.

Through the above-mentioned right the utility model discloses a description compares with prior art, the advantage of the utility model lies in:

1. the utility model discloses a design and use treat printed matter fixing device, can realize supporting the stock roll extrusion and establish on the conveyer belt, simultaneously, this stock can also be along with the conveyer belt moves on forward, realizes fixed technical purpose who realizes the removal again promptly to cooperation subsequent printing seal line process can only press the stock to establish in prior art and fix the working method who just can print the seal line in specific printing area and have substantively change and break through.

2. The utility model discloses utilize the industry print cartridge of fixed setting, can print the printing stock that keeps the position location fixed in the removal transport, utilize the X axle direction of conveyer belt to remove the transport, utilize laying of industry print cartridge along the Y axle direction simultaneously, can realize the whole complete printing of printing the orbit, the working method that current spray gun head removed the printing has been changed, printed matter fixing device is treated in the cooperation, can carry out more accurately to the printing stock and print the seal line, improve the seal line precision substantively, greatly promote enterprise core competitiveness.

3. The utility model discloses a to print the ink horn and arrange along "V" shape structure and lay, not only can realize printing the ink horn and to the whole requirement of printing stock of printing, can half shorten the design width requirement of printing apparatus moreover, more be favorable to the refinement of seal line equipment, accurate, make its applicable in printing production and application more extensively.

4. The utility model discloses an use industry print cartridge, not only improved printing line precision and printing speed, can change at any time moreover and maintain print cartridge, the seal line machine that prints the formula to current mechanical movement spray gun has innovative technological innovation.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of the present invention.

Fig. 2 is a schematic top view of the structure of fig. 1.

Fig. 3 is a schematic structural diagram of a second embodiment of the present invention.

Fig. 4 is a schematic top view of the structure of fig. 3.

Fig. 5 is a schematic structural view of the device for fixing an object to be printed according to the present invention.

Detailed Description

Example one

As shown in fig. 1, 2 and 5, an online intelligent integrated line printing machine includes a frame body 1 and a conveyor belt 2 installed on the frame body 1 in a matching manner, a to-be-printed object fixing device 3 is installed above the conveyor belt 2, the to-be-printed object fixing device 3 presses an to-be-printed object on the conveyor belt 2 in a rolling manner, and the to-be-printed object fixing device 3 and the conveyor belt 2 move synchronously; the direction of delivery along conveyer belt 2 has set gradually and has sent material level 4, position location recognition device 5, printing module 6 and receive the material level 7 on the frame body 1, send material level 4 and receive material level 7 and be used for respectively waiting to print the delivery of thing and collect, position location recognition device 5 is used for the location and discerns the position of waiting to print the thing, printing module 6 includes that the printing ink box body 61 and one that the multiunit arranged the setting are used for control print the controller 62 of ink box body 61 work, controller 62 respectively with position location recognition device 5 controls the connection with printing ink box body 61 mutually.

Furthermore, the printing ink box bodies 61 are symmetrically arranged in a V shape, the distance between the two printing ink box bodies 61 at the two outer side ends of the V shape corresponds to the width of the conveying belt, and the two printing ink box bodies at the inner side ends of the V shape are positioned in the middle of the width of the conveying belt; the printing points of the printing ink box body are uniformly arranged along the Y-axis direction in a staggered mode, and are matched with the conveying belt to advance along the X-axis direction, so that each printing point printed by the printing ink box body forms a complete printing track.

Further, the print object fixing device 3 includes: the wire winding roller comprises a plurality of wire winding roller bodies 31 and wire body 32, wherein the wire winding roller bodies 31 are in linkage connection with driving rollers of the conveying belt 2, the wire body 32 is arranged on the wire winding roller bodies 31 in a winding mode in a matched mode, and the wire body 32 is matched with the conveying belt 2 and is arranged in a rolling mode in an abutting mode.

Furthermore, a plurality of winding grooves 311 are disposed on the winding roller body 31 at equal intervals, and the wire body 32 is movably wound in the winding grooves 311.

Furthermore, there are three groups of winding roller bodies 31, which are respectively disposed on the frame body 1 at the positions of the position positioning and identifying device 5 and the printing assembly 6, and each group has two winding roller bodies 31.

Further, the position locating and recognizing device 5 comprises a mounting frame 51, an auxiliary lamp body 52 and a video camera 53, wherein the mounting frame 51 is installed on the frame body 1 in a matching manner, the video camera 53 is installed in the middle of the upper portion of the mounting frame 51, the auxiliary lamp body 52 is arranged on the mounting frame 51 in a matching manner, the auxiliary lamp body 52 provides an auxiliary illuminating light source for the video camera 53, and the video camera 53 is connected with the controller 62 in a phase control manner.

An automatic line printing process of an online intelligent integrated line printing machine comprises the following specific steps:

the method comprises the following steps: feeding, namely conveying the object to be printed of the line to be printed to a material conveying position of a conveying belt, and moving forwards along with the conveying of the conveying belt;

step two: the line to be printed is fixedly pressed and abutted, when the conveyer belt continuously conveys the object to be printed to the working area of the position positioning and identifying device, the object to be printed is fixedly pressed and abutted by the object to be printed fixing device arranged above the conveyer belt, so that the object to be printed is still conveyed and conveyed forwards along the conveyer belt under the condition of keeping the object to be printed immovably;

step three: the method comprises the steps that positioning information is collected, a conveying belt conveys an object to be printed to a working area of a position positioning and identifying device, the position positioning and identifying device respectively collects and positions shape information and position information of the object to be printed, the collected position positioning information is conveyed to a controller, and the controller obtains a control signal of a printing track according to the information and a printing line result to be output;

step four: printing a printing line track, conveying an object to be printed by a conveying belt and passing through a working area of a printing assembly, uniformly arranging printing points of a printing ink box body in a staggered manner along the Y-axis direction, and matching with the conveying forward of the conveying belt along the X-axis direction to finally form a complete printing line track by each printing point printed by the printing ink box body;

step five: receiving the material, conveying the material to be printed to be pressed by the fixing device of the material to be printed after the printing of the material to be printed is finished,

and then continuously conveying the paper to a material receiving position for concentrated material receiving and stacking to finish the whole printing process.

Further, the fourth step comprises the following specific steps:

1) the printing points of the printing ink box body are uniformly arranged along the Y-axis direction in a staggered way, and the conveying belt conveys the object to be printed along the X-axis direction;

2) when the printing point on the printing track passes below the printing point of the printing ink box body, the controller controls the printing point to print;

3) after printing, the object to be printed continues to move forward along the X-axis direction until the whole object to be printed passes through each printing ink box body, and each printing point in the Y direction is printed by the printing ink box body, so that each printing point forms a complete printing line track.

Through the above-mentioned right the utility model discloses a description compares with prior art, the advantage of the utility model lies in:

1. the utility model discloses a design and use treat printed matter fixing device, can realize supporting the stock roll extrusion and establish on the conveyer belt, simultaneously, this stock can also be along with the conveyer belt moves on forward, realizes fixed technical purpose who realizes the removal again promptly to cooperation subsequent printing seal line process can only press the stock to establish in prior art and fix the working method who just can print the seal line in specific printing area and have substantively change and break through.

2. The utility model discloses utilize the industry print cartridge of fixed setting, can print the printing stock that keeps the position location fixed in the removal transport, utilize the X axle direction of conveyer belt to remove the transport, utilize laying of industry print cartridge along the Y axle direction simultaneously, can realize the whole complete printing of printing the orbit, the working method that current spray gun head removed the printing has been changed, printed matter fixing device is treated in the cooperation, can carry out more accurately to the printing stock and print the seal line, improve the seal line precision substantively, greatly promote enterprise core competitiveness.

3. The utility model discloses a to print the ink horn and arrange along "V" shape structure and lay, not only can realize printing the ink horn and to the whole requirement of printing stock of printing, can half shorten the design width requirement of printing apparatus moreover, more be favorable to the refinement of seal line equipment, accurate, make its applicable in printing production and application more extensively.

4. The utility model discloses an use industry print cartridge, not only improved printing line precision and printing speed, can change at any time moreover and maintain print cartridge, the seal line machine that prints the formula to current mechanical movement spray gun has innovative technological innovation.

Example two:

as shown in fig. 3 to 5, an online intelligent integrated line printing machine includes a frame body 1 and a conveyor belt 2 installed on the frame body 1 in a matching manner, wherein a fixing device 3 for an object to be printed is installed above the conveyor belt 2, the fixing device 3 for an object to be printed is configured to roll the object to be printed on the conveyor belt 2, and the fixing device 3 for an object to be printed and the conveyor belt 2 move synchronously; the direction of delivery along conveyer belt 2 has set gradually and has sent material level 4, position location recognition device 5, printing module 6 and receive the material level 7 on the frame body 1, send material level 4 and receive material level 7 and be used for respectively waiting to print the delivery of thing and collect, position location recognition device 5 is used for the location and discerns the position of waiting to print the thing, printing module 6 includes that the printing ink box body 61 and one that the multiunit arranged the setting are used for control print the controller 62 of ink box body 61 work, controller 62 respectively with position location recognition device 5 controls the connection with printing ink box body 61 mutually.

Furthermore, the printing ink box body 61 is of an incremental staggered arrangement structure, the printing points of the printing ink box body 61 are uniformly staggered and arranged along the Y-axis direction, and the conveying belt 2 is matched to advance along the X-axis direction, so that each printing point printed by the printing ink box body 61 forms a complete printing track.

Further, the printing ink cartridges 61 are arranged in an oblique straight line, and the distance between two printing ink cartridges at two ends of the oblique straight line corresponds to the width of the conveyer belt 2.

Further, the print object fixing device 3 includes: the wire winding roller comprises a plurality of wire winding roller bodies 31 and wire body 32, wherein the wire winding roller bodies 31 are in linkage connection with driving rollers of the conveying belt 2, the wire body 32 is arranged on the wire winding roller bodies 31 in a winding mode in a matched mode, and the wire body 32 is matched with the conveying belt 2 and is arranged in a rolling mode in an abutting mode.

Furthermore, a plurality of winding grooves 311 are disposed on the winding roller body 31 at equal intervals, and the wire body 32 is movably wound in the winding grooves 311.

Furthermore, there are three groups of winding roller bodies 31, which are respectively disposed on the frame body 1 at the positions of the position positioning and identifying device 5 and the printing assembly 6, and each group has two winding roller bodies 31.

Further, the position locating and recognizing device 5 comprises a mounting frame 51, an auxiliary lamp body 52 and a video camera 53, wherein the mounting frame 51 is installed on the frame body 1 in a matching manner, the video camera 53 is installed in the middle of the upper portion of the mounting frame 51, the auxiliary lamp body 52 is arranged on the mounting frame 51 in a matching manner, the auxiliary lamp body 52 provides an auxiliary illuminating light source for the video camera 53, and the video camera 53 is connected with the controller 62 in a phase control manner.

An automatic line printing process of an online intelligent integrated line printing machine comprises the following specific steps:

the method comprises the following steps: feeding, namely conveying the object to be printed of the line to be printed to a material conveying position of a conveying belt, and moving forwards along with the conveying of the conveying belt;

step two: the line to be printed is fixedly pressed and abutted, when the conveyer belt continuously conveys the object to be printed to the working area of the position positioning and identifying device, the object to be printed is fixedly pressed and abutted by the object to be printed fixing device arranged above the conveyer belt, so that the object to be printed is still conveyed and conveyed forwards along the conveyer belt under the condition of keeping the object to be printed immovably;

step three: the method comprises the steps that positioning information is collected, a conveying belt conveys an object to be printed to a working area of a position positioning and identifying device, the position positioning and identifying device respectively collects and positions shape information and position information of the object to be printed, the collected position positioning information is conveyed to a controller, and the controller obtains a control signal of a printing track according to the information and a printing line result to be output; step four: printing a printing line track, conveying an object to be printed by a conveying belt and passing through a working area of a printing assembly, uniformly arranging printing points of a printing ink box body in a staggered manner along the Y-axis direction, and matching with the conveying forward of the conveying belt along the X-axis direction to finally form a complete printing line track by each printing point printed by the printing ink box body;

step five: receive the material, treat that the printed matter prints the completion back, carry through treating the support of printed matter fixing device and press, then continue to carry and receive the material level on, concentrate to receive the material and pile up, accomplish whole printing process. Further, the fourth step comprises the following specific steps:

1) the printing points of the printing ink box body are uniformly arranged along the Y-axis direction in a staggered way, and the conveying belt conveys the object to be printed along the X-axis direction;

2) when the printing point on the printing track passes below the printing point of the printing ink box body, the controller controls the printing point to print;

3) after printing, the object to be printed continues to move forward along the X-axis direction until the whole object to be printed passes through each printing ink box body, and each printing point in the Y direction is printed by the printing ink box body, so that each printing point forms a complete printing line track.

The above is only the concrete implementation of the present invention, but the design concept of the present invention is not limited to this, and all the design concepts are to be utilized to improve the present invention insubstantially, and all the behaviors belonging to the infringement of the protection scope of the present invention should be considered.

Claims (8)

1. The utility model provides an integrative line machine of printing of online intelligence, includes that frame body and cooperation install the conveyer belt on this frame body, its characterized in that: an object to be printed is arranged above the conveying belt, and is pressed against the conveying belt in a rolling manner and moves synchronously with the conveying belt; the utility model discloses a printing ink box, including frame body, printing subassembly, position location recognition device, printing subassembly and receipts material level, the direction of delivery along the conveyer belt has set gradually on the frame body and has sent material level, position location recognition device, printing subassembly and receipts material level, send the material level and receive the material level and be used for respectively waiting to deliver and collect of seal material, position location recognition device is used for the location and discerns the position of waiting to print the material, the printing subassembly includes that the multiunit is arranged the printing cartridge body that sets up and one is used for control print the controller of cartridge body work, the controller respectively with position location recognition device and printing cartridge body are connected with each other by control.

2. The integrated online intelligent line printing machine according to claim 1, characterized in that: the printing ink box body is of an incremental staggered structure, printing points of the printing ink box body are uniformly staggered and distributed along the Y-axis direction, and the printing points are conveyed forward along the X-axis direction by matching with the conveying belt, so that a complete printing track is formed by all the printing points printed by the printing ink box body.

3. The integrated online intelligent line printing machine according to claim 1, characterized in that: the printing ink box bodies are symmetrically arranged in a V shape, the distance between the two printing ink box bodies positioned at the two outer side ends of the V shape corresponds to the width of the conveying belt, and the two printing ink box bodies positioned at the inner side ends of the V shape are positioned in the middle of the width of the conveying belt; the printing points of the printing ink box body are uniformly arranged along the Y-axis direction in a staggered mode, and are matched with the conveying belt to advance along the X-axis direction, so that each printing point printed by the printing ink box body forms a complete printing track.

4. The integrated online intelligent line printing machine according to claim 2, characterized in that: the printing ink box bodies are arranged in an oblique straight line, and the distance between the two printing ink box bodies at the two ends of the oblique straight line corresponds to the width of the conveying belt.

5. The integrated online intelligent line printing machine according to claim 1, characterized in that: the object to be printed fixing device includes: the wire winding roller comprises a plurality of wire winding roller bodies and a wire body, wherein the wire winding roller bodies are in linkage connection with driving rollers of the conveying belt, the wire body is wound on the wire winding roller bodies in a matched mode, and the wire body is matched with the conveying belt and abuts against the conveying belt to be arranged in a rolling mode.

6. The on-line intelligent integrated line printing machine according to claim 5, characterized in that: the wire winding roller is characterized in that a plurality of wire winding grooves distributed at equal intervals are formed in the wire winding roller body, and the wire body is matched with the wire winding grooves in a movable winding mode and fixed in the wire winding grooves.

7. The on-line intelligent integrated line printing machine according to claim 5, characterized in that: the winding roller bodies are provided with three groups, the three groups are respectively matched and arranged on the frame body of the position positioning and identifying device and the printing assembly, and each group is provided with two winding roller bodies.

8. The integrated online intelligent line printing machine according to claim 1, characterized in that: the position positioning and identifying device comprises a mounting frame, an auxiliary lamp body and a video camera, wherein the mounting frame is matched and arranged on the frame body, the video camera is arranged in the middle of the upper part of the mounting frame, the auxiliary lamp body is matched and arranged on the mounting frame, the auxiliary lamp body is used for providing an auxiliary irradiation light source for the video camera, and the video camera is connected with the controller in a control mode.

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