CN114084737B - Blowing device is used in processing of capillary energy net group - Google Patents

Abstract

The invention discloses a discharging device for processing a capillary tube energy network group, which comprises a discharging device and an intelligent discharging system, wherein the discharging device comprises a support, an induction strip is fixedly arranged on the left side of the support, a first bearing is fixedly arranged on the rear side of the middle of the support, a motor is fixedly arranged in the first bearing, a damper is fixedly connected to the front side of the first bearing, an air pump is arranged in the damper, a discharging disc is connected to the front side of the damper through a bearing, a through hole is formed in the middle of the discharging disc, a plurality of grooves are formed in the through hole, an airflow cavity is fixedly connected to the front side of the air pump, a plurality of telescopic cavities are connected to the outer side of the airflow cavity through pipelines, the air pump is fixedly connected with the motor, the front side of the discharging disc is connected with the support bearing, the intelligent discharging system is respectively electrically connected with the motor, the air pump and the induction strip, and the problem that the capillary tube energy network group falls onto the ground due to inertia due to the fact that intelligent discharging cannot be carried out at present is solved.

Description

Blowing device is used in processing of capillary energy net group

Technical Field

The invention belongs to the technical field of capillary processing, and particularly relates to a discharging device for processing a capillary energy network set.

Background

The fuzz is required to be stored uniformly after being processed, and a plurality of unsolved temperatures exist in the discharging and storing process, for example, the existing discharging device is not energy-saving enough, and the discharging efficiency is too low. This phenomenon becomes an urgent problem to be solved by those skilled in the art.

Disclosure of Invention

The invention aims to solve the problems in the background art by aiming at the existing collecting device, namely the discharging device for processing the capillary tube energy network set.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a blowing device is used in processing of capillary energy net group, includes blowing device and intelligent blowing system, its characterized in that: the blowing device includes the support, support left side fixed mounting has the response strip, rear side fixed mounting has bearing one in the middle of the support, the inside fixed mounting of bearing has the motor, a front side fixedly connected with attenuator of bearing, the inside air pump that is provided with of attenuator, attenuator front side bearing is connected with the blowing dish, be provided with the through-hole in the middle of the blowing dish, the inside a plurality of recesses that are provided with of through-hole, air pump front side fixedly connected with air current chamber, air current chamber outside pipe connection has a plurality of flexible chambeies, air pump and motor fixed connection, the blowing dish front side is connected with support bearing, intelligence blowing system is connected with motor, air pump, response strip electricity respectively.

The invention further discloses that the intelligent material discharging system comprises an image judging module, an image analyzing module, a speed reaction module, a conversion module and a control module, wherein the image judging module and the image analyzing module are respectively and electrically connected with the induction strip;

the image judgment module is used for detecting whether the capillary energy network set is dragged to move through the induction strips to carry out image detection, the image analysis module is used for carrying out image analysis on the dragged capillary energy network set to judge whether an image is continuously changed, the speed reaction module is used for judging the change speed of the image to know the speed of the capillary energy network set dragged, the conversion module is used for converting the speed of the capillary energy network set dragged to obtain the running data of each driving component, and the control module is used for controlling the motor and the air pump.

The invention further discloses that the intelligent material placing system comprises a Bluetooth transmitting module, a Bluetooth receiving module, an instruction editing module, an instruction transmitting module and an instruction receiving module, wherein the Bluetooth transmitting module is electrically connected with the Bluetooth receiving module, the Bluetooth receiving module is electrically connected with a control module, the instruction editing module is electrically connected with a conversion module, the instruction transmitting module is electrically connected with the instruction editing module, the instruction receiving module is electrically connected with the instruction transmitting module, and the instruction receiving module is electrically connected with the control module;

the Bluetooth transmitting module is used for a user to control the transmission of a Bluetooth command through a mobile phone end, the Bluetooth receiving module is used for receiving the transmitted Bluetooth command, the command editing module is used for carrying out command editing work on a result converted in the conversion module, the command transmitting module is used for transmitting the edited command, and the command receiving module is used for inputting the transmitted quality into the control module.

The invention further discloses that the intelligent discharging system comprises a data input module, a calculation module, an execution module, an information transmitting module and an information receiving module, wherein the data input module is electrically connected with the Bluetooth transmitting module, the calculation module is electrically connected with the data input module, the execution module is electrically connected with the calculation module, the execution module is electrically connected with the information transmitting module, the information transmitting module is electrically connected with the information receiving module, and the information receiving module is electrically connected with the control module;

the data input module is used for inputting the length data of the capillary energy network set which is pulled out in a redundant mode through the mobile phone end, the calculation module is used for performing calculation work according to the length of the capillary energy network set, the execution module is used for performing execution work according to a result obtained through calculation, the information transmitting module is used for transmitting an executed signal, and the information receiving module is used for receiving the signal.

The invention further discloses that the intelligent discharging system comprises the following operation steps:

s1, starting a material discharging work, starting an intelligent material discharging system, starting an operator to pull one end of a capillary tube energy network set, controlling the operation of an induction strip through electric driving after the capillary tube energy network set passes through the induction strip, and inducing the capillary tube energy network set by the induction strip;

s2, the image judgment module performs image detection on whether the capillary energy network group is pulled to move through the induction strip, and the image analysis module performs image analysis on the pulled capillary energy network group to judge whether the image is continuously changed;

s3, judging the change speed of the image through a speed reaction module to know the pulled speed of the capillary tube energy network group, and not continuously pulling, wherein the moving speed of the capillary tube energy network group becomes zero, at the moment, the conversion module converts the pulled speed of the capillary tube energy network group to obtain the running data of each driving part, and the control module controls the motor and the air pump according to the data;

s4, a user controls to transmit a command through a mobile phone end, a Bluetooth receiving module receives the transmitted Bluetooth command, and then the control module controls the running state of the motor and the air pump to realize the adjustable function;

s5, the data input module inputs the length data of the capillary energy network set which is pulled out in a redundant mode through the mobile phone end, the calculation module performs calculation according to the length of the capillary energy network set, the execution module performs execution according to a result obtained through calculation, an executed signal is transmitted out through the information transmitting module, the information receiving module receives the signal, and finally the motor is controlled through the control module.

The invention further describes that in S2, the induction strip induces the capillary tube energy network group to move, after the capillary tube energy network group is pulled, the capillary tube energy network group stops moving, the speed reaction module judges the change speed of the image so as to know the speed of the capillary tube energy network group which is pulled before, the conversion module converts according to the speed of the capillary tube energy network group to obtain the running data of each driving part, the control module controls the air pump according to the data, and P _{Pump and method of operating the same} ＝V _{Hair with bristles} *P _{Is a system} Wherein P is _{Pump and method of operating the same} Is the operating power, V, of the air pump _{Hair with bristles} The rate at which the capillary energy network is pulled, P _{Is a system} The capillary energy network group is drawn as a single unitThe running power of the air pump is increased at the pulling speed, and the extending speed of the telescopic cavity is increased as the running power of the air pump is increased when the capillary tube energy net group is pulled.

To explain the invention, in S3, the simultaneous control module controls the motor according to the data, P _{Electric power} ＝V _{Hair with bristles} *P _{Ratio of} Wherein P is _{Electric power} For the operating power of the machine, V _{Hair with bristles} For the rate at which the capillary energy network is pulled, P _{Ratio of} The operation power of the motor at the speed of pulling the capillary energy network group is a single unit, and when the speed of pulling the capillary energy network group is higher, the operation power of the motor is higher, and the braking effect is better.

The invention further provides that in the step S4, a user controls a Bluetooth transmitting instruction through a mobile phone end, a Bluetooth receiving module receives the transmitted Bluetooth instruction, a control module controls the running state of a motor and an air pump to realize an adjustable function, an instruction editing module and an instruction receiving module enable an operator to manually control the running power of the motor and the air pump through the mobile phone end, when a capillary tube energy network group is not urgently used, the motor is manually controlled to run at a constant speed, the air pump is controlled to run at a low power, the operator can operate through the mobile phone end, the discharging work is more conveniently carried out, the discharging speed can be manually adjusted, the motor is driven to run at a constant speed, and the discharging process is stable and efficient.

The invention further describes that in S5, the data input module inputs the length data of the capillary tube energy network set which is pulled out in excess through the mobile phone end, the calculation module performs calculation according to the length of the capillary tube energy network set, the control module controls the motor to control the motor to run reversely, the discharge tray is driven to rotate reversely, the rewinding work is performed on the capillary tube energy network set, and P _{Electric power} ＝L _{Hair with bristles} * P, wherein L _{Hair with bristles} The length of the capillary energy network group is excessively drawn, P is the running power of the motor under the length of the capillary energy network group with single unit excessively drawn, and when the drawn length is larger, the running power of the motor is larger, and the recovery speed is higher。

Compared with the prior art, the invention has the following beneficial effects: according to the invention, the material discharging device and the intelligent material discharging system are adopted, so that the intelligent material discharging work is realized, the material discharging effect is better, and the phenomenon of excessive material discharging is avoided.

Drawings

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

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the present invention;

FIG. 3 is a plan view schematic of the braking system of the present invention;

FIG. 4 is a schematic flow diagram of the intelligent emptying system of the present invention;

in the figure: 1. a support; 2. an induction strip; 3. a first bearing; 4. a motor; 5. a damper; 6. an air pump; 7. placing a tray; 8. an airflow chamber; 9. a telescoping chamber.

Detailed Description

The present invention will be described in further non-limiting detail with reference to the following preferred embodiments and accompanying drawings. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides the following technical solutions: the utility model provides a blowing device is used in processing of capillary energy net group, includes blowing device and intelligent blowing system, its characterized in that: the discharging device comprises a support 1, an induction strip 2 is fixedly arranged on the left side of the support 1, a bearing I3 is fixedly arranged on the middle rear side of the support 1, a motor 4 is fixedly arranged in the bearing I3, a damper 5 is fixedly connected on the front side of the bearing I3, an air pump 6 is arranged in the damper 5, a discharging tray 7 is connected on the front side of the damper 5, a through hole is arranged in the middle of the discharging tray 7, a plurality of grooves are arranged in the through hole, an airflow cavity 8 is fixedly connected on the front side of the air pump 6, a plurality of telescopic cavities 9 are connected on the outer side of the airflow cavity 8 through a pipeline, the air pump 6 is fixedly connected with the motor 4, the front side of the discharging tray 7 is connected with the support 1 through a bearing, an intelligent discharging system is respectively electrically connected with the motor 4, the air pump 6 and the induction strip 2, and a capillary tube energy network group is wound on the discharging tray 7, an operator pulls one end of the capillary tube energy network group to discharge materials, at the moment, the intelligent discharging system controls the operation of the induction strip 2 through electric drive, the induction strip induces the operation speed of the capillary tube energy network group, the air pump 6 and the motor 4 are controlled to operate according to the pulled speed of the capillary tube energy network group, when the system needs to stop, the capillary tube energy network group stops being pulled, at the moment, the air pump 6 injects air into the airflow cavity 8, the air enters the telescopic cavity 9 through a pipeline, the telescopic cavity 9 extends to be embedded into the groove and is used for stopping the discharging disc 7 to roll immediately, meanwhile, the motor 4 rotates to apply reverse acting force to drive the air pump 6 to enable the telescopic cavity 9 to support the discharging disc 7, and damping force is increased;

the intelligent discharging system comprises an image judging module, an image analyzing module, a speed reaction module, a conversion module and a control module, wherein the image judging module and the image analyzing module are respectively and electrically connected with the induction strip 2, the image judging module is electrically connected with the image analyzing module, the image analyzing module is electrically connected with the speed reaction module, the conversion module is electrically connected with the speed reaction module, the control module is electrically connected with the conversion module, and the control module is respectively and electrically connected with the motor 4 and the air pump 6;

the image judgment module is used for detecting whether the capillary energy network group is dragged to move through the induction strip 2, the image analysis module is used for analyzing images of the dragged capillary energy network group to judge whether the images are continuously changed, the speed reaction module is used for judging the change speed of the images so as to know the dragging speed of the capillary energy network group, the conversion module is used for converting according to the dragging speed of the capillary energy network group to obtain running data of each driving part, and the control module is used for controlling the motor 4 and the air pump 6;

the intelligent discharging system comprises a Bluetooth transmitting module, a Bluetooth receiving module, an instruction editing module, an instruction transmitting module and an instruction receiving module, wherein the Bluetooth transmitting module is electrically connected with the Bluetooth receiving module, the Bluetooth receiving module is electrically connected with the control module, the instruction editing module is electrically connected with the conversion module, the instruction transmitting module is electrically connected with the instruction editing module, the instruction receiving module is electrically connected with the instruction transmitting module, and the instruction receiving module is electrically connected with the control module;

the Bluetooth transmitting module is used for a user to control Bluetooth to transmit an instruction through a mobile phone end, the Bluetooth receiving module is used for receiving the transmitted Bluetooth instruction, the instruction editing module is used for editing an instruction of a conversion result in the conversion module, the instruction transmitting module is used for transmitting the edited instruction, and the instruction receiving module is used for inputting the transmitted quality into the control module;

the intelligent discharging system comprises a data input module, a calculation module, an execution module, an information transmitting module and an information receiving module, wherein the data input module is electrically connected with the Bluetooth transmitting module, the calculation module is electrically connected with the data input module, the execution module is electrically connected with the calculation module, the execution module is electrically connected with the information transmitting module, the information transmitting module is electrically connected with the information receiving module, and the information receiving module is electrically connected with the control module;

the data input module is used for inputting the length data of the capillary energy network set which is pulled out in a redundant mode through the mobile phone end, the calculation module is used for performing calculation work according to the length of the capillary energy network set, the execution module is used for performing execution work according to a result obtained through calculation, the information transmitting module is used for transmitting an executed signal, and the information receiving module is used for receiving the signal;

the intelligent discharging system comprises the following operation steps:

s1, starting discharging, starting an intelligent discharging system, starting an operator to pull one end of a capillary tube energy network group, controlling the operation of an induction strip 2 through electric driving after the capillary tube energy network group passes through the induction strip 2, and inducing the capillary tube energy network group by the induction strip 2;

s2, the image judgment module performs image detection on whether the capillary tube energy network set is pulled to move through the induction strips 2, and the image analysis module performs image analysis on the pulled capillary tube energy network set to judge whether the image is continuously changed;

s3, judging the change speed of the image through a speed reaction module to know the pulled speed of the capillary tube energy network group, and not continuously pulling, wherein the moving speed of the capillary tube energy network group becomes zero, at the moment, the conversion module converts the pulled speed of the capillary tube energy network group to obtain the running data of each driving part, and the control module controls the motor 4 and the air pump 6 according to the data;

s4, a user controls to transmit a command through a mobile phone end, the Bluetooth receiving module receives the transmitted Bluetooth command, the control module controls the running states of the motor 4 and the air pump 6 to realize an adjustable function, the command editing module carries out command editing work on a conversion result in the conversion module, the command transmitting module transmits the edited command out, and the command receiving module inputs the transmitted command into the control module;

s5, inputting redundant pulled-out capillary energy network length data into a data input module through a mobile phone end, calculating according to the length of the capillary energy network by a calculation module, executing according to a result obtained by calculation by an execution module, transmitting an executed signal out through an information transmitting module, receiving the signal by an information receiving module, and finally controlling the motor 4 through a control module;

in S2, the induction strips 2 induce the capillary tube energy network set to move, after the capillary tube energy network set is pulled, the capillary tube energy network set stops moving, the change speed of the image is judged through the speed reaction module, the pulling speed of the capillary tube energy network set is known, at the moment, the conversion module converts the speed of the capillary tube energy network set to obtain the running data of all the driving parts, the control module controls the air pump 6 according to the data, and P is _Pump ＝V _{Hair with bristles} *P _{Is a system} Wherein P is _{Pump and method of operating the same} For the operating power, V, of the air pump 6 _{Hair with bristles} For the rate at which the capillary energy network is pulled, P _{Is a system} The operating work of the air pump 6 at the rate at which the capillary energy network group of individual units is pulledThe drawing speed is higher when the capillary tube energy network group is drawn, the running power of the air pump 6 is higher, the extending speed of the telescopic cavity 9 is higher, the drawing speed is higher, the inertia borne by the discharging tray 7 in rotation is higher when the drawing is stopped, the stopping is not easy, the discharging tray 7 can be instantly clamped by inserting the telescopic cavity 9 into the groove, meanwhile, the running power of the air pump 6 is higher, the amount of the telescopic cavity 9 sucked into the groove is higher, the contact surface with the groove is increased, the subsequent supporting force can be increased, the discharging tray 7 is prevented from being continuously rotated by the inertia to cause that a large amount of the capillary tube energy network group falls on the ground, the drawing speed is lower, the inertia borne by the discharging tray 7 in rotation is smaller when the drawing is stopped, the stopping is easy, the discharging tray 7 is clamped, the running power of the air pump 6 is smaller, the amount of the telescopic cavity 9 sucked into the groove is lower, the friction between the telescopic cavity 9 and the groove is reduced, the service life of the telescopic cavity 9 is prolonged, and the phenomenon of slipping caused by excessive abrasion is prevented;

in S3, the simultaneous control module controls the motor 4 again according to the data, P _Electricity ＝V _{Hair with bristles} *P _{Ratio of} Wherein P is _{Electric power} For the operating power, V, of the motor 4 _{Hair with bristles} For the rate at which the capillary energy network is pulled, P _{Ratio of} The operation power of the motor 4 is lower than the dragging speed of the capillary energy network group of a single unit, when the dragging speed of the capillary energy network group is higher, the operation power of the motor 4 is higher, the braking effect is better, after the telescopic cavity 9 is inserted into the groove, the operation power of the motor 4 is increased, the stopping force to the discharging disc 7 is increased after the telescopic cavity 9 is inserted into the groove, the discharging disc 7 stops rotating instantly, the discharging effect is enhanced, and meanwhile, when the dragging speed of the capillary energy network group is lower, the operation power of the motor 4 is reduced, the rotation of the discharging disc 7 can be stopped, the energy consumption of the motor 4 is reduced, and the energy consumption of the device is reduced;

s4, a user controls to transmit a Bluetooth command through a mobile phone end, a Bluetooth receiving module receives the transmitted Bluetooth command, a control module controls the running states of the motor 4 and the air pump 6 to realize an adjustable function, an instruction editing module and an instruction receiving module enable an operator to manually control the running powers of the motor 4 and the air pump 6 through the mobile phone end, when a capillary tube energy network set is not urgently used, the motor 4 is manually controlled to run at a constant speed, the air pump 6 is controlled to run at a low power, the operator can operate through the mobile phone end, the material can be discharged more conveniently, the material discharging speed can be manually adjusted and controlled, the motor 4 is driven to run at a constant speed, and the material discharging process is stable and efficient;

s5, inputting the length data of the capillary tube energy network set which is pulled out in a redundant mode into a data input module through a mobile phone end, calculating according to the length of the capillary tube energy network set by a calculation module, controlling a motor 4 through a control module, controlling the motor 4 to run reversely, driving a material placing disc 7 to rotate reversely, rewinding the capillary tube energy network set, and P _{Electric power} ＝L _{Hair with bristles} * P, wherein L _{Hair with bristles} For the length that capillary energy network group was excessively pulled out, P is the operating power of motor 4 under the length that the capillary energy network group of single unit was excessively pulled out, the length that pulls out is big more, the operating power of motor 4 is big more, the speed of retrieving is fast more, the blowing is put first back, can carry out the backrush work through the electric drive, retrieve the unnecessary part of emitting, make operating personnel need not manual backrush, the work efficiency is improved, 4 rotational speeds of motor are controlled according to the capillary energy network group length that emit more simultaneously, make recovery speed accelerate.

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

Finally, it should be pointed out that: the above examples are only for illustrating the technical solutions of the present invention, and are not limited thereto. Although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: it is to be understood that modifications may be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions may be made in some technical features thereof, without departing from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (6)

1. The utility model provides a blowing device is used in processing of capillary energy net group, includes blowing device and intelligent blowing system, its characterized in that: the material placing device comprises a support (1), an induction strip (2) is fixedly mounted on the left side of the support (1), a first bearing (3) is fixedly mounted on the rear side of the middle of the support (1), a motor (4) is fixedly mounted in the first bearing (3), a damper (5) is fixedly connected to the front side of the first bearing (3), an air pump (6) is arranged in the damper (5), a material placing disc (7) is connected to the front side of the damper (5) through a bearing, a through hole is formed in the middle of the material placing disc (7), a plurality of grooves are formed in the through hole, an air flow cavity (8) is fixedly connected to the front side of the air pump (6), a plurality of telescopic cavities (9) are connected to the outer side of the air flow cavity (8) through a pipeline, the air pump (6) is fixedly connected with the motor (4), the front side of the material placing disc (7) is connected with the support (1) through a bearing, and the intelligent material placing system is respectively electrically connected with the motor (4), the air pump (6) and the induction strip (2);

the intelligent discharging system comprises an image judging module, an image analyzing module, a speed reaction module, a conversion module and a control module, wherein the image judging module and the image analyzing module are respectively and electrically connected with the induction strip (2), the image judging module is electrically connected with the image analyzing module, the image analyzing module is electrically connected with the speed reaction module, the conversion module is electrically connected with the speed reaction module, the control module is electrically connected with the conversion module, and the control module is respectively and electrically connected with the motor (4) and the air pump (6);

the image judgment module is used for detecting whether the capillary energy network group is dragged to move or not through the induction strip (2), the image analysis module is used for carrying out image analysis on the dragged capillary energy network group to judge whether an image is continuously changed or not, the speed reaction module is used for judging the change speed of the image so as to know the dragging speed of the capillary energy network group, the conversion module is used for carrying out conversion according to the dragging speed of the capillary energy network group to obtain running data of each driving part, and the control module is used for controlling the motor (4) and the air pump (6);

the intelligent discharging system comprises a Bluetooth transmitting module, a Bluetooth receiving module, an instruction editing module, an instruction transmitting module and an instruction receiving module, wherein the Bluetooth transmitting module is electrically connected with the Bluetooth receiving module, the Bluetooth receiving module is electrically connected with a control module, the instruction editing module is electrically connected with a conversion module, the instruction transmitting module is electrically connected with an instruction editing module, the instruction receiving module is electrically connected with the instruction transmitting module, and the instruction receiving module is electrically connected with the control module;

the Bluetooth transmitting module is used for a user to control Bluetooth to transmit an instruction through a mobile phone end, the Bluetooth receiving module is used for receiving the transmitted Bluetooth instruction, the instruction editing module is used for editing an instruction of a conversion result in the conversion module, the instruction transmitting module is used for transmitting the edited instruction, and the instruction receiving module is used for inputting the transmitted quality into the control module;

the intelligent emptying system comprises a data input module, a calculation module, an execution module, an information transmitting module and an information receiving module, wherein the data input module is electrically connected with the Bluetooth transmitting module, the calculation module is electrically connected with the data input module, the execution module is electrically connected with the calculation module, the execution module is electrically connected with the information transmitting module, the information transmitting module is electrically connected with the information receiving module, and the information receiving module is electrically connected with the control module;

the data input module is used for inputting the length data of the capillary energy network set which is pulled out in a redundant mode through the mobile phone end, the calculation module is used for performing calculation work according to the length of the capillary energy network set, the execution module is used for performing execution work according to a result obtained through calculation, the information transmitting module is used for transmitting an executed signal, and the information receiving module is used for receiving the signal.

2. The emptying device for processing the capillary tube energy network group according to claim 1, which is characterized in that: the intelligent discharging system comprises the following operation steps:

s1, starting a material discharging work, starting an intelligent material discharging system, starting an operator to pull one end of a capillary tube energy network set, controlling the operation of an induction strip (2) through electric drive of the capillary tube energy network set through the induction strip (2), and inducing the capillary tube energy network set by the induction strip (2);

s2, the image judgment module performs image detection on whether the capillary tube energy network set is pulled to move through the induction strip (2), and the image analysis module performs image analysis on the pulled capillary tube energy network set to judge whether the image is continuously changed;

s3, judging the change speed of the image through a speed reaction module to know the pulled speed of the capillary tube energy network group, and not continuously pulling, wherein the moving speed of the capillary tube energy network group becomes zero, at the moment, the conversion module converts the pulled speed of the capillary tube energy network group to obtain the running data of each driving part, and the control module controls the motor (4) and the air pump (6) according to the data;

s4, a user controls and transmits an instruction through a mobile phone end, the Bluetooth receiving module receives the transmitted Bluetooth instruction, the control module controls the running states of the motor (4) and the air pump (6) to realize an adjustable function, the instruction editing module carries out instruction editing work on a result converted in the conversion module, the instruction transmitting module transmits the edited instruction, and the instruction receiving module inputs the transmitted instruction into the control module;

s5, the data input module inputs the length data of the capillary energy network set which is pulled out in a redundant mode through the mobile phone end, the calculation module performs calculation according to the length of the capillary energy network set, the execution module performs execution according to a result obtained through calculation, an executed signal is transmitted out through the information transmitting module, the information receiving module receives the signal, and finally the motor (4) is controlled through the control module.

3. The capillary energy network processing of claim 2Blowing device, its characterized in that: in S2, the induction strip (2) induces the capillary tube energy network set to move, after the capillary tube energy network set is pulled, the capillary tube energy network set stops moving, the change speed of the image is judged through the speed reaction module, the pulling speed of the capillary tube energy network set is known, at the moment, the conversion module converts the speed of the capillary tube energy network set to obtain the running data of each driving component, the control module controls the air pump (6) according to the data, and P _{Pump and method of operating the same} ＝V _{Hair with bristles} *P _{Is a system} Wherein P is _{Pump and method of operating the same} Is the operating power, V, of the air pump (6) _{Hair with bristles} For the rate at which the capillary energy network is pulled, P _{Pump and method of operating the same} The operating power of the air pump (6) is lower than the pulling speed of the capillary energy network group which is a single unit, and when the pulling speed of the capillary energy network group is higher, the operating power of the air pump (6) is higher, and the extending speed of the telescopic cavity (9) is higher.

4. The emptying device for processing the capillary tube energy network group according to claim 3, which is characterized in that: in S3, the control module controls the motor (4) according to the data, P _{Electric power} ＝V _{Hair with bristles} *P _{Ratio of} Wherein P is _{Electric power} Is the operating power, V, of the electric machine (4) _{Hair with bristles} For the rate at which the capillary energy network is pulled, P _{Ratio of} The operation power of the motor (4) at the speed of pulling the capillary energy network group is single unit, and when the speed of pulling the capillary energy network group is higher, the operation power of the motor (4) is higher, and the braking effect is better.

5. The emptying device for processing the capillary tube energy network group according to claim 4, which is characterized in that: in S4, a user carries out Bluetooth control emission instructions through a mobile phone end, a Bluetooth receiving module receives the emitted Bluetooth instructions, then the control module controls the running state of a motor (4) and an air pump (6), and the adjustable function is realized, then an instruction editing module and an instruction receiving module enable an operator to manually control the running power of the motor (4) and the air pump (6) through the mobile phone end, when a capillary energy network group is not urgently used, the manual control motor (4) runs at a constant speed, and the air pump (6) is controlled to run at a low power, the operator can operate through the mobile phone end, more convenient discharging work is carried out, the discharging speed can be manually adjusted, meanwhile, the driving motor (4) runs at a constant speed, and the discharging process is stable and efficient.

6. The emptying device for processing the capillary tube energy network group according to claim 5, which is characterized in that: in S5, the data input module inputs the length data of the capillary tube energy network set which is pulled out unnecessarily through the mobile phone end, the calculation module calculates according to the length of the capillary tube energy network set, the control module controls the motor (4), the motor (4) is controlled to run reversely, the material placing disc (7) is driven to rotate reversely, the rewinding work is carried out on the capillary tube energy network set, and P _{Electric power} ＝L _{Hair with bristles} * P, wherein L _{Hair with bristles} The length of the capillary energy network group which is excessively drawn is P, the running power of the motor (4) is lower than the length of the capillary energy network group which is excessively drawn, and when the drawn length is longer, the running power of the motor (4) is higher, and the recovery speed is higher.

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