CN113091873A - Automatic weighing system based on enameled wire - Google Patents

Abstract

The invention discloses an automatic weighing system based on enameled wires, which is used for solving the problems that the existing enameled wire weighing mostly adopts manual weighing and cannot automatically weigh and intelligently weigh and display the enameled wires wound on a wire coil; the invention comprises the following steps: the weighing module is used for automatically weighing the enameled wire to obtain the weight of the enameled wire, identifying the number of the enameled wire and generating number information; the numbering information is used for triggering the weighing module to send a number to the processor and acquiring rated weight information of the wire coil corresponding to the number, the rated weight information is used for triggering the processor to send the rated weight of the wire coil corresponding to the number to the weighing module and generate weight data, the weight data is used for triggering the weighing module to subtract the rated weight of the wire coil from the measured enameled wire weight to obtain the net weight of the enameled wire, and the enameled wire is automatically weighed by the weighing module, so that the weighing efficiency is improved; through the intelligent adjustment according to the distance of staff from display module shows the typeface size, conveniently looks over.

Description

Automatic weighing system based on enameled wire

Technical Field

The invention relates to the technical field of enameled wire weighing, in particular to an automatic weighing system based on an enameled wire.

Background

The enameled wire is a main variety of winding wires and consists of a conductor and an insulating layer, and a bare wire is annealed and softened and then is subjected to painting and baking for multiple times.

The automatic weighing technology for the enameled wires is widely applied to the cable industry, the automatic weighing of the enameled wires has very important significance on inventory management, and due to the fact that the enameled wires are high in value, very small errors often cause very large economic errors. The traditional enameled wire weighing mostly adopts manual weighing, and the problems of automatic weighing and intelligent weighing display of the enameled wire wound on a wire coil cannot be solved.

Disclosure of Invention

The invention aims to provide an automatic weighing system based on enameled wires, aiming at solving the problems that the existing enameled wires are mostly manually weighed and cannot be automatically weighed and intelligently weighed and displayed.

The purpose of the invention can be realized by the following technical scheme: an automated enameled wire-based weighing system, comprising:

the weighing module is used for automatically weighing the enameled wire to obtain the weight of the enameled wire, identifying the number of the enameled wire and generating number information; the number information is used for triggering the weighing module to send the number to the processor and acquiring the rated weight information of the wire coil corresponding to the number, the rated weight information is used for triggering the processor to send the rated weight of the wire coil corresponding to the number to the weighing module and generate weight data, the weight data is used for triggering the weighing module to subtract the rated weight of the wire coil from the measured enameled wire weight to obtain the net weight of the enameled wire, and the net weight of the enameled wire and the number of the enameled wire are marked as the measured data of the enameled wire and are sent to the processor.

Further, the method also comprises the following steps:

the processor receives the measurement data of the enameled wire and then sends the measurement data to the display module and the storage module;

the display module is used for receiving and displaying the measurement data of the enameled wire;

and the storage module is used for receiving and storing the measurement data of the enameled wire.

Further, the display module includes:

the display unit is used for receiving and displaying the measurement data of the enameled wire, receiving a character size instruction corresponding to the character size and adjusting the size of the displayed character size of the measurement data of the enameled wire to be consistent with the size of the received character size;

the face acquisition unit is used for acquiring the face photos in the range of the display unit and sending the face photos to the face analysis unit;

the face analysis unit is used for receiving the face photos, carrying out face recognition on the face photos, acquiring personnel information of corresponding workers when the corresponding workers are recognized, analyzing the personnel information to obtain a human control value, and generating a control instruction and sending the control instruction to the control processing unit when the human control value is larger than a set threshold value;

the control processing unit is used for collecting the distance from the worker to the display unit and marking the distance as a viewing distance after receiving the control instruction; normalizing the checking distance and the myopia degree of the worker and taking the value; and calculating by using a formula to obtain a range value, matching the range value with a preset range corresponding to a plurality of word sizes, generating a word size instruction of the word size in the preset range when the range value is in the preset range, and sending the word size in the preset range and the corresponding word size instruction to the display unit.

Furthermore, the storage module comprises a receiving unit, an analyzing unit and a plurality of storage terminals;

the receiving unit is used for receiving the measurement data of the enameled wire and sending the measurement data to the analyzing unit;

the analysis unit is used for receiving the measurement data of the enameled wire and distributing the measurement data to the corresponding storage terminal for storage;

and the storage terminal is used for storing the measurement data of the enameled wire.

Further, the storage module also comprises a registration login unit and a storage unit;

the registration login unit is used for submitting personnel information for registration through the mobile phone terminal by a worker and sending the personnel information which is successfully registered to the storage unit for storage; the staff information comprises the name, the mobile phone number, the age, the time of job entry, a face entry photo, eye myopia degrees and the model of a mobile phone terminal of a worker; and simultaneously, the mobile phone terminal of the worker who successfully registers is marked as a storage terminal.

Further, the allocation step of the analysis unit is as follows:

s1: sending a position acquisition instruction and a memory acquisition instruction to a storage terminal of a worker, and acquiring the current position and the residual memory of the storage terminal of the worker;

s2: calculating the time difference between the working time of the staff and the current time to obtain the working duration of the staff, and calculating the distance difference between the current position of the storage terminal and the position of the analysis unit to obtain the transmission distance; acquiring the total stored times of the storage terminal;

s3: normalizing the working duration of the staff, the transmission interval of the storage terminal, the remaining stored times and the stored total times, and obtaining the numerical value of the normalized value, wherein the sub-stored value of the storage terminal corresponding to the staff is obtained by using a formula;

s4: and the analysis unit sends the measurement data of the enameled wire to the storage terminal with the maximum separate storage value for storage.

Further, the weighing module comprises a weighing mechanism and a shooting unit;

the weighing mechanism comprises a first support, a first weighing seat and a second support; the two sides of the first support are both provided with sliding grooves, and the two ends of the wire coil are arranged in the sliding grooves formed in the two sides of the first support; a first weighing seat is arranged between the first bracket and the second bracket;

the first weighing seat comprises an arc-shaped plate, two arc-shaped supports are symmetrically arranged at the edges of two sides of the upper end of the arc-shaped plate, and arc-shaped grooves matched with the wire coil for use are formed in the arc-shaped supports; the bottom end surfaces of the arc-shaped plates are rectangular planes, weighing sensors are mounted at four corners of the arc-shaped plates, and the bottom end surfaces of the four weighing sensors are mounted on the bottom plate;

connecting rods are symmetrically arranged on two sides of the tops of the first support and the second support, cross rods are arranged on the two connecting rods, sliding blocks are sleeved on the cross rods in a sliding mode, an L-shaped mounting plate is fixedly mounted on the upper end face of each sliding block through a bolt, one side of each L-shaped mounting plate is fixedly connected with one end of a first electric push rod, the first electric push rods are fixedly mounted on the cross rods through clamps, a second electric push rod is mounted on the bottom end face of each sliding block, and an arc-shaped push rod is mounted at the bottom end of each second electric;

label areas are formed in two sides of the wire coil, preset colors are sprayed on the outer edges of the label areas, and unique serial numbers with the preset colors are sprayed inside the label areas; the shooting unit is used for shooting and identifying the number inside the label area to obtain the number corresponding to the wire coil.

Furthermore, mounting grooves are symmetrically formed in two sides of the bottom plate, the bottom plate is slidably mounted on the fixing frame through the mounting grooves, and a weighing seat II with a structure identical to that of the weighing seat is slidably mounted on the fixing frame; the first weighing seat and the second weighing seat are mutually standby.

Furthermore, the ground inside the sliding groove inside the first support is an inclined surface, and one end, close to the first weighing seat, of the inclined surface is lower than one end, far away from the first weighing seat, of the inclined surface; the inclined plane of the sliding chute in the second bracket is opposite to the inclined plane.

Compared with the prior art, the invention has the beneficial effects that:

1. the weighing module automatically weighs the enameled wire to obtain the weight of the enameled wire, identifies the number of the enameled wire and generates number information; the number information is used for triggering the weighing module to send a number to the processor and acquiring rated weight information of the wire coil corresponding to the number, the rated weight information is used for triggering the processor to send the rated weight of the wire coil corresponding to the number to the weighing module and generate weight data, the weight data is used for triggering the weighing module to subtract the rated weight of the wire coil from the measured enameled wire weight to obtain the net weight of the enameled wire, and the net weight and the number of the enameled wire are marked as the measured data of the enameled wire and are sent to the processor; the enameled wires are automatically weighed by the weighing module, so that the weighing efficiency is improved;

2. the display module receives and displays the measurement data of the enameled wire, acquires a face photo in the range of the display unit, performs face recognition on the face photo, acquires personnel information of a corresponding worker when the worker is recognized, analyzes the personnel information to obtain a human control value, and generates a control instruction and sends the control instruction to the control processing unit when the human control value is larger than a set threshold value; the control processing unit is used for processing the control command to generate a word size command after receiving the control command and sending the word size command to the display unit; adjusting the size of the display character size of the measurement data of the enameled wire to be consistent with the size of the received character size; through the intelligent adjustment according to the distance of staff from display module shows the typeface size, conveniently looks over.

Drawings

To facilitate understanding by those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a functional block diagram of the present invention;

FIG. 2 is a schematic block diagram of a display module of the present invention;

FIG. 3 is a functional block diagram of the memory module of the present invention;

FIG. 4 is a schematic view of the weighing mechanism of the present invention;

fig. 5 is a schematic structural diagram of the weighing seat of the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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. 1-5, an automatic weighing system based on enameled wires includes a weighing module, a processor, a display module and a storage module;

the weighing module is used for automatically weighing the enameled wire to obtain the weight of the enameled wire, identifying the number of the enameled wire and generating number information; the number information is used for triggering the weighing module to send a number to the processor and acquiring rated weight information of the wire coil 3 corresponding to the number, the rated weight information is used for triggering the processor to send the rated weight of the wire coil 3 corresponding to the number to the weighing module and generate weight data, the weight data is used for triggering the weighing module to subtract the rated weight of the wire coil 3 from the measured enameled wire weight to obtain the net weight of the enameled wire, and then the net weight and the number of the enameled wire are marked as the measured data of the enameled wire and are sent to the processor;

the weighing module comprises a weighing mechanism and a shooting unit; the weighing mechanism comprises a first support 1, a first weighing seat 4 and a second support 2; the first bracket 1 and the second bracket 2 have the same structure; the two sides of the first support 1 are both provided with sliding grooves 11, the two ends of the wire coil 3 are installed in the sliding grooves 11 formed in the two sides of the first support 1, the two sides of the wire coil 3 are provided with label areas 31, the outer edges of the label areas 31 are sprayed with preset colors, and the inside of each label area 31 is sprayed with a unique number with the preset colors; the shooting unit is used for shooting and identifying the number inside the label area 31 to obtain the number corresponding to the wire coil 3; a first weighing seat 4 is arranged between the first support 1 and the second support 2, the first weighing seat 4 comprises an arc-shaped plate 41, two arc-shaped supports 42 are symmetrically arranged at the edges of two sides of the upper end of the arc-shaped plate 41, and arc-shaped grooves 43 matched with the wire coil 3 for use are formed in the arc-shaped supports 42; the bottom end face of the arc-shaped plate 41 is a rectangular plane, weighing sensors 44 are mounted at four corners of the arc-shaped plate, the bottom end faces of the four weighing sensors 44 are mounted on a bottom plate 45, mounting grooves 46 are symmetrically formed in two sides of the bottom plate 45, the bottom plate 45 is slidably mounted on a fixing frame 6 through the mounting grooves 46, and a weighing seat II 5 which is identical to the weighing seat I4 in structure is further slidably mounted on the fixing frame 6; the first weighing seat 4 and the second weighing seat 5 are mutually standby; connecting rods 7 are symmetrically arranged on two sides of the top of the first support 1 and the second support 2, cross rods 71 are arranged on the two connecting rods 7, sliding blocks 71 are sleeved on the cross rods 71 in a sliding mode, an L-shaped mounting plate 73 is fixedly arranged on the upper end face of each sliding block 72 through a bolt, one side of each L-shaped mounting plate 73 is fixedly connected with one end of a first electric push rod 75, each first electric push rod 75 is fixedly arranged on each cross rod 71 through a hoop 74, a second electric push rod 76 is arranged on the bottom end face of each sliding block 72, and an arc-shaped push rod 77 is arranged at the bottom end of each second electric; the ground inside the sliding chute 11 inside the bracket I1 is an inclined surface, and one end of the inclined surface close to the weighing seat I4 is lower than one end far away from the weighing seat I4; the inclined plane of the sliding groove 11 in the bracket II 2 is opposite to the inclined plane, and the wire coil 3 can conveniently rotate in the sliding groove 11 and fall into the weighing seat I4 through the sliding groove 11 with the inclined plane; weighing the wire coil 3 wound with the enameled wires on the arc-shaped support 42 by using the weighing sensor 44, and obtaining the net weight of the enameled wires by using the weighed weight and the rated weight of the wire coil 3 with the number corresponding to the weighed weight; after weighing is finished, the second electric push rod 76 drives the arc-shaped push rod 77 to move downwards, so that the arc-shaped push rod 77 is positioned on one side of the wire coil 3, then the first electric push rod 75 drives the sliding block 73 to move, and therefore the first electric push rod 75 and the arc-shaped push rod 77 are driven to move to push the weighed wire coil 3 into the second support 2;

the processor receives the measurement data of the enameled wire and then sends the measurement data to the display module and the storage module;

the display module receives and displays the measurement data of the enameled wire and comprises a display unit, a face acquisition unit, a face analysis unit and a control processing unit;

the display unit is used for receiving and displaying the measurement data of the enameled wire, receiving a character size instruction corresponding to the character size and adjusting the size of the displayed character size of the measurement data of the enameled wire to be consistent with the size of the received character size;

the face acquisition unit is used for acquiring the face photos in the range of the display unit and sending the face photos to the face analysis unit;

the face analysis unit is used for receiving the face picture, performing face recognition on the face picture, acquiring personnel information of corresponding personnel when recognizing the corresponding personnel, analyzing the personnel information to obtain a personal control value, and specifically comprises the following steps:

a1: calculating the time difference between the working time of the staff and the current time to obtain the working time of the staff and marking the working time as T1;

a2: setting all the job names to correspond to a preset job position, matching the job names of the workers with all the job names to obtain the corresponding preset job position, and marking the preset job position as T2;

a3: the age of the staff is marked as T3; then, carrying out normalization processing on the working duration and age of the staff and a preset position value and taking the numerical value;

a4: using formulas

Obtaining a human control value RK of a worker; wherein b1, b2 and b3 are preset weight coefficients; the values are respectively 0.76, 1.43 and 1.68; mu is a correction factor, and the value is 0.8842;

a5: when the human control value is larger than the set threshold value, generating a control instruction and sending the control instruction to the control processing unit;

the control processing unit is used for acquiring the distance from the staff to the display unit through the binocular infrared sensor and combining with a triangular ranging algorithm after receiving the control instruction, marking the distance as a viewing distance, and marking the myopia degree of the staff as T5, wherein the viewing distance is represented by a symbol T4; normalizing the checking distance and the myopia degree of the worker and taking the value; calculating a distance value DJ by using a formula DJ-T4 × b4+ T5 × b5, wherein b4 and b5 are preset proportionality coefficients; the values are 0.26 and 0.34; the distance value is in direct proportion to the size of the word size; the larger the distance value is, the larger the corresponding character size is, otherwise, the smaller the corresponding character size is; matching the distance value with a preset range corresponding to a plurality of character numbers, generating a character number instruction of the character number in the preset range when the distance value is in the preset range, and sending the character number in the preset range and the corresponding character number instruction to a display unit;

the storage module is used for receiving and storing the measurement data of the enameled wire and comprises a receiving unit, an analysis unit, a registration and login unit, a storage unit and a plurality of storage terminals;

the receiving unit is used for receiving the measurement data of the enameled wire and sending the measurement data to the analyzing unit;

the analysis unit is used for receiving the measurement data of the enameled wire and distributing the measurement data to the corresponding storage terminal for storage; the distribution steps are as follows:

s1: sending a position acquisition instruction and a memory acquisition instruction to a storage terminal of a worker, and acquiring the current position and the residual memory of the storage terminal of the worker; the remaining memory is denoted by the symbol T8;

s2: calculating the time difference between the working time of the staff and the current time to obtain the working duration T1 of the staff, wherein the unit is day; calculating the distance difference between the current position of the storage terminal and the position of the analysis unit to obtain a transmission distance T6; acquiring the total stored times T7 of the storage terminal;

s3: normalizing the working time of the staff, the transmission interval of the storage terminal, the residual internal storage and the total stored times and taking the numerical values of the working time and the transmission interval;

using formulas

Obtaining a separate storage value FC of a storage terminal corresponding to a worker; wherein d1, d2, d3 and d4 are all preset constants; the values are 1.3, 1.68, 2.74 and 3.21;

s4: the analysis unit sends the measurement data of the enameled wire to a storage terminal with the maximum separate storage value for storage, and the total number of times of storage of the storage terminal is increased once;

the storage terminal is used for storing the measurement data of the enameled wire;

the storage module reasonably distributes the received measurement data of the enameled wire to the storage terminal for storage, so that the storage pressure of the storage module is reduced;

the registration login unit is used for submitting personnel information for registration through the mobile phone terminal by a worker and sending the personnel information which is successfully registered to the storage unit for storage; the staff information comprises the name, the mobile phone number, the age, the time of job entry, the name of the job position, a face entry photo, the eye myopia degree and the model of the mobile phone terminal of a worker; and simultaneously, the mobile phone terminal of the worker who successfully registers is marked as a storage terminal.

The above formulas are obtained by collecting a large amount of data and performing software simulation, and the coefficients in the formulas are set by workers in the field according to actual conditions.

When the enameled wire weighing device is used, the weighing module automatically weighs the enameled wire to obtain the weight of the enameled wire, identifies the number of the enameled wire and generates number information; the number information is used for triggering the weighing module to send a number to the processor and acquiring rated weight information of the wire coil 3 corresponding to the number, the rated weight information is used for triggering the processor to send the rated weight of the wire coil 3 corresponding to the number to the weighing module and generate weight data, the weight data is used for triggering the weighing module to subtract the rated weight of the wire coil 3 from the measured enameled wire weight to obtain the net weight of the enameled wire, and then the net weight and the number of the enameled wire are marked as the measured data of the enameled wire and are sent to the processor; the enameled wires are automatically weighed by the weighing module, so that the weighing efficiency is improved; the display module receives and displays the measurement data of the enameled wire, acquires a face photo in the range of the display unit, performs face recognition on the face photo, acquires personnel information of a corresponding worker when the worker is recognized, analyzes the personnel information to obtain a human control value, and generates a control instruction and sends the control instruction to the control processing unit when the human control value is larger than a set threshold value; the control processing unit is used for processing the control command to generate a word size command after receiving the control command and sending the word size command to the display unit; adjusting the size of the display character size of the measurement data of the enameled wire to be consistent with the size of the received character size; through the intelligent adjustment according to the distance of staff from display module shows the typeface size, conveniently looks over.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (9)

1. The utility model provides an automatic weighing system based on enameled wire which characterized in that includes:

the weighing module is used for automatically weighing the enameled wire to obtain the weight of the enameled wire, identifying the number of the enameled wire and generating number information; the number information is used for triggering the weighing module to send the number to the processor and acquiring the rated weight information of the wire coil corresponding to the number, the rated weight information is used for triggering the processor to send the rated weight of the wire coil corresponding to the number to the weighing module and generate weight data, the weight data is used for triggering the weighing module to subtract the rated weight of the wire coil from the measured enameled wire weight to obtain the net weight of the enameled wire, and the net weight of the enameled wire and the number of the enameled wire are marked as the measured data of the enameled wire and are sent to the processor.

2. The enameled wire-based automatic weighing system according to claim 1, further comprising:

the processor receives the measurement data of the enameled wire and then sends the measurement data to the display module and the storage module;

the display module is used for receiving and displaying the measurement data of the enameled wire;

and the storage module is used for receiving and storing the measurement data of the enameled wire.

3. The enameled wire-based automatic weighing system according to claim 2, wherein the display module comprises:

the display unit is used for receiving and displaying the measurement data of the enameled wire, receiving a character size instruction corresponding to the character size and adjusting the size of the displayed character size of the measurement data of the enameled wire to be consistent with the size of the received character size;

the face acquisition unit is used for acquiring the face photos in the range of the display unit and sending the face photos to the face analysis unit;

the face analysis unit is used for receiving the face photos, carrying out face recognition on the face photos, acquiring personnel information of corresponding workers when the corresponding workers are recognized, analyzing the personnel information to obtain a human control value, and generating a control instruction and sending the control instruction to the control processing unit when the human control value is larger than a set threshold value;

the control processing unit is used for collecting the distance from the worker to the display unit and marking the distance as a viewing distance after receiving the control instruction; normalizing the checking distance and the myopia degree of the worker and taking the value; and calculating by using a formula to obtain a range value, matching the range value with a preset range corresponding to a plurality of word sizes, generating a word size instruction of the word size in the preset range when the range value is in the preset range, and sending the word size in the preset range and the corresponding word size instruction to the display unit.

4. The enameled wire-based automatic weighing system according to claim 2, wherein the storage module comprises a receiving unit, an analyzing unit and a plurality of storage terminals;

the receiving unit is used for receiving the measurement data of the enameled wire and sending the measurement data to the analyzing unit;

the analysis unit is used for receiving the measurement data of the enameled wire and distributing the measurement data to the corresponding storage terminal for storage;

and the storage terminal is used for storing the measurement data of the enameled wire.

5. The enameled wire-based automatic weighing system according to claim 4, wherein the storage module further comprises a registration login unit and a storage unit;

the registration login unit is used for submitting personnel information for registration through the mobile phone terminal by a worker and sending the personnel information which is successfully registered to the storage unit for storage; the staff information comprises the name, the mobile phone number, the age, the time of job entry, a face entry photo, eye myopia degrees and the model of a mobile phone terminal of a worker; and simultaneously, the mobile phone terminal of the worker who successfully registers is marked as a storage terminal.

6. The enameled wire-based automatic weighing system according to claim 5, wherein the distribution step of the analysis unit is as follows:

s1: sending a position acquisition instruction and a memory acquisition instruction to a storage terminal of a worker, and acquiring the current position and the residual memory of the storage terminal of the worker;

s2: calculating the time difference between the working time of the staff and the current time to obtain the working duration of the staff, and calculating the distance difference between the current position of the storage terminal and the position of the analysis unit to obtain the transmission distance; acquiring the total stored times of the storage terminal;

s3: normalizing the working duration of the staff, the transmission interval of the storage terminal, the remaining stored times and the stored total times, and obtaining the numerical value of the normalized value, wherein the sub-stored value of the storage terminal corresponding to the staff is obtained by using a formula;

s4: and the analysis unit sends the measurement data of the enameled wire to the storage terminal with the maximum separate storage value for storage.

7. The enameled wire-based automatic weighing system according to claim 1, wherein the weighing module comprises a weighing mechanism and a shooting unit;

the weighing mechanism comprises a first support, a first weighing seat and a second support; the two sides of the first support are both provided with sliding grooves, and the two ends of the wire coil are arranged in the sliding grooves formed in the two sides of the first support; a first weighing seat is arranged between the first bracket and the second bracket;

the first weighing seat comprises an arc-shaped plate, two arc-shaped supports are symmetrically arranged at the edges of two sides of the upper end of the arc-shaped plate, and arc-shaped grooves matched with the wire coil for use are formed in the arc-shaped supports; the bottom end surfaces of the arc-shaped plates are rectangular planes, weighing sensors are mounted at four corners of the arc-shaped plates, and the bottom end surfaces of the four weighing sensors are mounted on the bottom plate;

connecting rods are symmetrically arranged on two sides of the tops of the first support and the second support, cross rods are arranged on the two connecting rods, sliding blocks are sleeved on the cross rods in a sliding mode, an L-shaped mounting plate is fixedly mounted on the upper end face of each sliding block through a bolt, one side of each L-shaped mounting plate is fixedly connected with one end of a first electric push rod, the first electric push rods are fixedly mounted on the cross rods through clamps, a second electric push rod is mounted on the bottom end face of each sliding block, and an arc-shaped push rod is mounted at the bottom end of each second electric;

label areas are formed in two sides of the wire coil, preset colors are sprayed on the outer edges of the label areas, and unique serial numbers with the preset colors are sprayed inside the label areas; the shooting unit is used for shooting and identifying the number inside the label area to obtain the number corresponding to the wire coil.

8. The enameled wire-based automatic weighing system according to claim 7, wherein mounting grooves are symmetrically formed in two sides of the bottom plate, the bottom plate is slidably mounted on a fixing frame through the mounting grooves, and a second weighing seat having a structure identical to that of the second weighing seat is slidably mounted on the fixing frame; the first weighing seat and the second weighing seat are mutually standby.

9. The enameled wire-based automatic weighing system according to claim 7, wherein the inner ground of the sliding groove in the first bracket is an inclined surface, and one end of the inclined surface close to the first weighing seat is lower than one end far away from the first weighing seat; the inclined plane of the sliding chute in the second bracket is opposite to the inclined plane.

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