CN220407588U - Automatic adjust welding system - Google Patents

Abstract

The utility model discloses an automatic adjusting welding system, which comprises: the welding helmet system comprises a microprocessor, a storage module, a first wireless communication module and a voice broadcasting module; the welding machine system comprises a welding machine and a second wireless communication module which is electrically connected, and the second wireless communication module is in communication connection with the first wireless communication module; the microprocessor is used for transmitting the adjusting signal to the welding machine through the first wireless communication module and the second wireless communication module after receiving the adjusting signal; the welding machine is used for adjusting welding process parameters after receiving the adjusting signals, and transmitting the welding process parameters to the microprocessor through the second wireless communication module and the first wireless communication module; and the microprocessor is used for acquiring the dimming parameters from the storage module after receiving the welding process parameters, transmitting the dimming parameters to the voice broadcasting module, and controlling the voice broadcasting module to broadcast the dimming parameters. The utility model can improve the working efficiency for the user and save the operation time.

Description

Automatic adjust welding system

Technical Field

The utility model relates to the technical field of welding caps, in particular to an automatic adjusting welding system.

Background

The common welding cap system mainly supports manual adjustment of the dimming parameters, does not support the function of adjusting welding process parameters, cannot automatically preset the dimming parameters in a non-welding state, and also needs to take off the welding cap when a welder needs to adjust the welding process parameters, move to the welding machine side for adjustment, and then return to a welding operation area to wear the welding cap for welding operation, so that the welding operation is inconvenient and inefficient.

Disclosure of Invention

The utility model provides an automatic adjustment welding system which can improve the working efficiency for users and save the operation time.

According to an aspect of the present utility model, there is provided a self-adjusting welding system comprising:

the welding helmet system comprises a microprocessor, a storage module, a first wireless communication module and a voice broadcasting module; the welding machine system comprises a welding machine and a second wireless communication module;

the microprocessor is electrically connected with the storage module, the first wireless communication module and the voice broadcasting module; the welding machine is electrically connected with the second wireless communication module, and the second wireless communication module is in communication connection with the first wireless communication module;

the microprocessor is used for transmitting the adjusting signal to the welding machine through the first wireless communication module and the second wireless communication module after receiving the adjusting signal;

the welding machine is used for adjusting welding process parameters after receiving the adjusting signals, and transmitting the welding process parameters to the microprocessor through the second wireless communication module and the first wireless communication module;

and the microprocessor is used for acquiring the dimming parameters from the storage module after receiving the welding process parameters, transmitting the dimming parameters to the voice broadcasting module, and controlling the voice broadcasting module to broadcast the dimming parameters.

Optionally, the welding cap system further comprises:

the button knob comprises a button and a knob, the button and the knob are both connected with the microprocessor, the button is used for sending a first adjusting signal to the microprocessor when being triggered by a user, and the knob is used for sending a second adjusting signal to the microprocessor when being triggered by the user; the microprocessor is used for transmitting the first regulating signal and the second regulating signal to the welding machine through the first wireless communication module and the second wireless communication module after receiving the first regulating signal and the second regulating signal;

the welding machine is used for adjusting corresponding welding process parameters after receiving the first adjusting signal and the second adjusting signal.

Optionally, the welding cap system further comprises:

the power module is electrically connected with the microprocessor, the storage module, the first wireless communication module and the voice broadcasting module.

Optionally, the welding cap system further comprises:

the display module is electrically connected with the power module and the microprocessor, and the microprocessor is used for transmitting the dimming parameters to the display module so as to adjust the transparency of the display module.

Optionally, the display module is further configured to display the dimming parameter.

Optionally, the display module includes a display screen, and the microprocessor is configured to transmit the dimming parameter to the display screen.

Optionally, one display screen is a liquid crystal dimming screen.

Optionally, the display module includes a first display screen and a second display screen, the microprocessor is used for transmitting the dimming parameter to the first display screen and the second display screen, the first display screen is used for adjusting the display brightness according to the dimming parameter, and the second display screen is used for displaying the dimming parameter.

Optionally, the first display screen is a liquid crystal dimming screen.

Optionally, the power module comprises a lithium battery.

The technical scheme of the embodiment of the utility model provides an automatic adjusting welding system, which comprises the following components: the welding helmet system comprises a microprocessor, a storage module, a first wireless communication module and a voice broadcasting module; the welding machine system comprises a welding machine and a second wireless communication module; the microprocessor is electrically connected with the storage module, the first wireless communication module and the voice broadcasting module; the welding machine is electrically connected with the second wireless communication module, and the second wireless communication module is in communication connection with the first wireless communication module; the microprocessor is used for transmitting the adjusting signal to the welding machine through the first wireless communication module and the second wireless communication module after receiving the adjusting signal; the welding machine is used for adjusting welding process parameters after receiving the adjusting signals, and transmitting the welding process parameters to the microprocessor through the second wireless communication module and the first wireless communication module; and the microprocessor is used for acquiring the dimming parameters from the storage module after receiving the welding process parameters, transmitting the dimming parameters to the voice broadcasting module, and controlling the voice broadcasting module to broadcast the dimming parameters. According to the welding machine, the welding process parameters are transmitted in a wireless communication mode through the first wireless communication module and the second wireless communication module, and the dimming parameters are acquired from the storage module, so that a user does not need to walk to a welding machine system, the dimming parameters can be controlled and regulated in real time only at a welding cap system, the working efficiency can be improved for the user, and the operation time is saved.

It should be understood that the description in this section is not intended to identify key or critical features of the embodiments of the utility model or to delineate the scope of the utility model. Other features of the present utility model will become apparent from the description that follows.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a self-adjusting welding system according to an embodiment of the present utility model;

fig. 2 is a schematic structural diagram of a key knob of an automatic adjustment welding system according to an embodiment of the present utility model;

FIG. 3 is a schematic diagram of a key knob of another automatic adjustment welding system according to an embodiment of the present utility model;

FIG. 4 is a schematic diagram of yet another self-adjusting welding system provided by an embodiment of the present utility model;

fig. 5 is a schematic structural view of yet another automatic adjustment welding system according to an embodiment of the present utility model.

Detailed Description

In order that those skilled in the art will better understand the present utility model, a technical solution in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present utility model without making any inventive effort, shall fall within the scope of the present utility model.

It should be noted that the terms "first," "second," and the like in the description and the claims of the present utility model and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments of the utility model described herein may be implemented in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

An embodiment of the present utility model provides an automatically adjusting welding system, and fig. 1 is a schematic structural diagram of the automatically adjusting welding system provided by the embodiment of the present utility model, referring to fig. 1, the automatically adjusting welding system includes: the welding helmet system 01 and the welding machine system 02, wherein the welding helmet system 01 comprises a microprocessor 10, a storage module 20, a first wireless communication module 30 and a voice broadcasting module 40; the welder system 02 includes a welder 50 and a second wireless communication module 60; the microprocessor 10 is electrically connected with the storage module 20, the first wireless communication module 30 and the voice broadcasting module 40; the welding machine 50 is electrically connected with the second wireless communication module 60, and the second wireless communication module 60 is in communication connection with the first wireless communication module 30; the microprocessor 10 is configured to transmit the adjustment signal to the welder 50 through the first wireless communication module 30 and the second wireless communication module 60 after receiving the adjustment signal; the welder 50 is used for adjusting welding process parameters after receiving the adjusting signal, and transmitting the welding process parameters to the microprocessor 10 through the second wireless communication module 60 and the first wireless communication module 30; the microprocessor 10 is configured to obtain the dimming parameter from the storage module 20 after receiving the welding process parameter, and transmit the dimming parameter to the voice broadcasting module 40, so as to control the voice broadcasting module 40 to broadcast the dimming parameter.

The microprocessor 10 may be an STC8G2K64S4-48PIN controller, the first wireless communication module 30 and the second wireless communication module 60 may be NF03 wireless communication modules, and the voice broadcast module 40 includes a WT588F02A voice chip.

Specifically, the user may issue an adjustment signal through a knob or other forms, where the adjustment signal is an increment value of a welding process parameter, and after receiving the adjustment signal, the microprocessor 10 is configured to determine and analyze the increment value of the welding process parameter to perform data frame assembly, and pair-connect and communicate the first wireless communication module 30 and the second wireless communication module 60, and after successful communication, transmit the adjustment signal to the welding machine 50, and after receiving the adjustment signal, the welding machine 50 adjusts the welding process parameter, where the welding process parameter includes at least one of a welding current, a wire feeding speed, a plate thickness, a welding voltage, a frequency, and a welding mode. The second wireless communication module 60 transmits welding process parameters to the first wireless communication module 30, the first wireless communication module 30 transmits the welding process parameters to the microprocessor 10, the microprocessor 10 is used for acquiring the dimming parameters from the storage module 20 after receiving the welding process parameters, the dimming parameters comprise at least one of shading degree, sensitivity and delay time, the dimming parameters are broadcast through the voice broadcast module 40, the current dimming parameters of a user can be reminded in real time, and as a certain distance exists between the welding machine system 02 and the welding cap system 01, the welding process parameters are transmitted through the wireless communication between the first wireless communication module 30 and the second wireless communication module 60, and the dimming parameters are acquired from the storage module 20, so that the user does not need to walk to the welding machine system 02 to set the dimming parameters, the dimming parameters can be controlled and regulated in real time only at the welding cap system 01, the work efficiency can be improved for the user, and the operation time is saved.

In the dimming parameters, the shading degree level is generally 9-13, and the intensity of the arc is changed by the change of the welding current, so that the shading degree matched with the corresponding current value is tested in advance according to the welding current, and the data are summarized to form a data table and stored in the storage module 20. When a change in welding current is detected, the appropriate shade can be intelligently matched by the data in the memory module 20. The welding process includes gas shield welding, manual welding and argon arc welding, and is exemplified by 9-13 grades of shading degree.

TABLE 1

Table 1 shows the correspondence between the shade degrees of the three welding processes and the welding current, and as can be seen from table 1, in different welding processes, the welding current corresponds to different shade degrees, the data in table 1 can be stored in the memory module 20, and when the user adjusts the welding current, the corresponding shade degrees can be matched in the memory module 20. For example, when the welding process is gas shielded welding, the microprocessor 10 receives the adjustment signal, the adjustment signal may be to adjust the welding current to increase by 10A, after the welder 50 receives the adjustment signal, the welder 50 increases the original welding current 100A by 10A, and transmits the adjusted welding current 110A to the microprocessor 10 through the second wireless communication module 60 and the first wireless communication module 30, and after receiving the welding current of 110A, the microprocessor obtains the shade level corresponding to the welding current of 110A from the storage module 20, where the shade level is 11, and transmits the welding current of 110A to the voice broadcasting module 40 for broadcasting through the voice broadcasting module 40.

Since strong arc light is generated in the welding process, the intensity of the arc is changed by the change of the welding current, and thus the sensitivity of matching corresponding current values can be tested according to the magnitude of the welding current. The welding cap system 01 further comprises a photosensitive sensor, not shown in fig. 1, which can convert an optical signal into a voltage signal, so that the voltage detected by the photosensitive sensor can be tested according to the magnitude of welding current, and the sensitivity is intelligently matched according to the voltage detected by the photosensitive sensor, and the data are summarized to form a data table to be stored in the storage module 20, wherein the voltage value detected by the photosensitive sensor is 0.5V under the condition of no light and darkness by way of example; in strong light environment, the voltage value detected by the photosensitive sensor is 3v at most. And the sensitivity can reach 0.1ms at the highest; and can be up to 10ms at the slowest and can be adjusted by the user's needs.

TABLE 2

Voltage U (V)	Sensitivity (ms)
		U＜0.8	0.5
0.8≤U＜1.2	1
		1.2≤U＜1.6	2
1.6≤U＜2.0	4
		2.0≤U＜2.4	6
2.4≤U＜2.8	8
		U>2.8	10

Table 2 shows the correspondence between the voltage value detected by the photosensitive sensor and the sensitivity, and as can be seen from table 2, the data in table 2 can be stored in the memory module 20, and when the user adjusts the welding current, the voltage value and the sensitivity detected by the corresponding photosensitive sensor can be matched in the memory module 20.

The difference of delay time can be tested according to the difference of welding modes, and the welding modes comprise a common mode or a spot welding mode, and if the delay time is too short, the welding in the common mode can cause discomfort to eyes, and then longer delay time can be set. In the spot welding mode, if the delay time is inconsistent with the welding time, a user cannot see the welding position clearly, and the welding quality is affected. Therefore, the delay time in the normal mode can be set to be 0.7s; the delay time in the spot welding mode is adjusted to 0.1-1s, and the spot welding time is generally set to 0.1-10 s in the spot welding mode.

TABLE 3 Table 3

Spot welding time(s)	Time delay(s)
		0.1～1	0.2
1～2	0.3
		3～5	0.4
6～10	0.5

Table 3 shows the correspondence between the spot welding time and the delay time in the spot welding mode, and as can be seen from table 3, in the spot welding mode, different spot welding times correspond to different delay times, the data in table 3 may be stored in the storage module 20, and when the user adjusts to the spot welding mode, the corresponding spot welding time and delay time may be matched in the storage module 20.

The technical scheme of the embodiment of the utility model provides an automatic adjusting welding system, which comprises the following components: the welding helmet system 01 and the welding machine system 02, wherein the welding helmet system 01 comprises a microprocessor 10, a storage module 20, a first wireless communication module 30 and a voice broadcasting module 40; the welder system 02 includes a welder 50 and a second wireless communication module 60; the microprocessor 10 is electrically connected with the storage module 20, the first wireless communication module 30 and the voice broadcasting module 40; the welding machine 50 is electrically connected with the second wireless communication module 60, and the second wireless communication module 60 is in communication connection with the first wireless communication module 30; the microprocessor 10 is configured to transmit the adjustment signal to the welder 50 through the first wireless communication module 30 and the second wireless communication module 60 after receiving the adjustment signal; the welder 50 is used for adjusting welding process parameters after receiving the adjusting signal, and transmitting the welding process parameters to the microprocessor 10 through the second wireless communication module 60 and the first wireless communication module 30; the microprocessor 10 is configured to obtain the dimming parameter from the storage module 20 after receiving the welding process parameter, and transmit the dimming parameter to the voice broadcasting module 40, so as to control the voice broadcasting module 40 to broadcast the dimming parameter. According to the utility model, the welding process parameters are transmitted in a wireless communication manner through the first wireless communication module 30 and the second wireless communication module 60, and the dimming parameters are acquired from the storage module 20, so that a user does not need to walk to the welding machine system 02, the dimming parameters can be controlled and regulated in real time only at the welding cap system 01, the working efficiency can be improved for the user, and the operation time is saved.

Optionally, fig. 2 is a schematic structural diagram of a key knob of an automatic adjustment welding system according to an embodiment of the present utility model, fig. 3 is a schematic structural diagram of a key knob of another automatic adjustment welding system according to an embodiment of the present utility model, and fig. 4 is a schematic structural diagram of another automatic adjustment welding system according to an embodiment of the present utility model, and referring to fig. 2 to fig. 4, the welding cap system 01 further includes: the key knob 70, the key knob 70 includes a key 73 and a knob 74, the key 73 and the knob 74 are both connected with the microprocessor 10, the key 73 is used for sending a first adjusting signal to the microprocessor 10 when triggered by a user, and the knob 74 is used for sending a second adjusting signal to the microprocessor 10 when triggered by a user.

The microprocessor 10 is configured to transmit the first adjustment signal and the second adjustment signal to the welder 50 through the first wireless communication module 30 and the second wireless communication module 60 after receiving the first adjustment signal and the second adjustment signal; the welder 50 is configured to adjust the corresponding welding process parameter upon receiving the first adjustment signal and the second adjustment signal.

Wherein the key knob 70 is a knob with a key encoder, the number of the key knobs 70 can be two, namely a first key knob 71 and a second key knob 72, the first key knob 71 comprises a first key and a first knob, the second key knob 72 comprises a second key and a second knob, the first key knob 71 is a Set-A knob, and the second key knob 72 is a Set-B knob; the Set-A knob can adjust welding current, wire feeding speed and plate thickness through a first key on the Set-A knob; the Set-B knob can adjust the welding voltage and frequency through a second key on the Set-B knob; according to the first key of the first key knob 71 and the second key of the second key knob 72, when the forms of triggering the first key or the second key by the user are different, the first adjusting signals are different, and the technical parameters adjusted by the welding machine are different, for example, different welding technical parameters can be switched according to the different times of pressing the first key or the second key, on the first key knob, the first key is pressed to adjust welding current, two first keys are pressed to adjust wire feeding speed, and three first keys are pressed to adjust plate thickness. And on the second key knob, pressing the second key to adjust the welding voltage and pressing the two second keys to adjust the frequency. Subsequent increases in welding process parameters may be added to the key knob 70.

The keys 73 in the key knob 70 transmit different first adjustment signals according to different times of pressing by the user, and the first adjustment signals may be instructions for adjusting welding current, wire feeding speed, plate thickness, welding voltage and frequency. When the rotation angle of the user rotating knob 74 is different, the second adjustment signal is different, and the adjustment of the welding process parameter is different. For example, if the user needs to adjust the welding current, the user may press the first button to rotate the first knob to a certain angle, the first button sends a first adjusting signal for adjusting the welding current to the microprocessor 10, and the first knob sends a second adjusting signal for adjusting the welding current to the microprocessor 10. The microprocessor 10 is configured to transmit the first adjustment signal and the second adjustment signal to the welder 50 through the first wireless communication module 30 and the second wireless communication module 60 after receiving the first adjustment signal and the second adjustment signal; the welder 50 is configured to adjust the magnitude of the welding current upon receiving the first adjustment signal and the second adjustment signal.

Optionally, referring to fig. 4, the welding cap system further comprises: the power module 80, the power module 80 is electrically connected with the microprocessor 10, the storage module 20, the first wireless communication module 30 and the voice broadcasting module 40.

The power module 80 is a rechargeable power source, and can be charged by a charging wire after the electric quantity is exhausted. The power module 80 may provide power to the microprocessor 10, the memory module 20, the first wireless communication module 30, and the voice broadcast module 40.

Optionally, the welding cap system further comprises: the display module 90, the display module 90 is electrically connected with the power module 80 and the microprocessor 10, and the microprocessor 10 is used for transmitting the dimming parameter to the display module 90 to adjust the transparency of the display module 90.

Wherein the dimming parameter comprises at least one of shade, sensitivity, and delay time. The level of shading is generally 9-13, each level corresponds to different transparency of the display module 90, and the higher the shading, the worse the transparency of the display module 90, and the working efficiency of the user can be improved by adjusting to a proper transparency. The sensitivity is the response speed of the display module 90 for displaying the transparency change, the higher the sensitivity is, the faster the response speed of the display module 90 for displaying the transparency change is, and by adjusting the proper sensitivity, the phenomenon that the transparency of the display module 90 cannot be recovered to a normal transparent state due to the influence of different bright environments after the welding is finished can be avoided. The delay time is the reaction time of the display module 90 from opaque to transparent, and the delay time of different welding modes is different, if the delay time is too fast in the welding of the common mode, the display module 90 can quickly recover to the transparent state, and the problem of discomfort of eyes of a user can be caused; if the delay time is inconsistent with the welding time in the spot welding mode, a user cannot see the welding position clearly, and the welding quality is affected; by adjusting the appropriate delay time, the display module 90 can be adjusted to an appropriate transparency, avoiding affecting the work efficiency and welding quality.

Optionally, referring to fig. 4, the display module 90 is further configured to display the dimming parameter.

The display module 90 displays the dimming parameters, so that a user can intuitively display the dimming parameters in the display module 90, and the welding production efficiency can be improved during the welding process.

Optionally, referring to fig. 4, the display module 90 includes a display screen 91, and the microprocessor 10 is configured to transmit the dimming parameter to the display screen 91.

Wherein, a display screen 91 is a liquid crystal light-changing screen, can adjust the display brightness of the liquid crystal light-changing screen through the light-changing parameter, can also show the light-changing parameter on the liquid crystal light-changing screen simultaneously, can make the user improve welding production efficiency in the welding process.

Optionally, fig. 5 is a schematic structural diagram of still another automatic welding system according to an embodiment of the present utility model, referring to fig. 5, a display module 90 includes a first display screen 92 and a second display screen 93, the microprocessor 10 is configured to transmit a dimming parameter to the first display screen 92 and the second display screen 93, the first display screen 92 is configured to adjust display brightness according to the dimming parameter, and the second display screen 93 is configured to display the dimming parameter.

The first display screen 92 is a liquid crystal dimming screen, and the display brightness of the liquid crystal dimming screen can be adjusted according to the dimming parameter. The second display 93 may be a segment code screen or an OLED display, and may be used to display dimming parameters.

Alternatively, referring to fig. 3, the power module 80 includes a lithium battery.

The lithium battery can be a TP4056+18650 lithium battery.

It should be appreciated that various forms of the flows shown above may be used to reorder, add, or delete steps. For example, the steps described in the present utility model may be performed in parallel, sequentially, or in a different order, so long as the desired results of the technical solution of the present utility model are achieved, and the present utility model is not limited herein.

The above embodiments do not limit the scope of the present utility model. It will be apparent to those skilled in the art that various modifications, combinations, sub-combinations and alternatives are possible, depending on design requirements and other factors. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the present utility model should be included in the scope of the present utility model.

Claims (10)

1. A self-adjusting welding system, comprising:

the welding helmet system comprises a microprocessor, a storage module, a first wireless communication module and a voice broadcasting module; the welding machine system comprises a welding machine and a second wireless communication module;

the microprocessor is electrically connected with the storage module, the first wireless communication module and the voice broadcasting module; the welding machine is electrically connected with the second wireless communication module, and the second wireless communication module is in communication connection with the first wireless communication module;

the microprocessor is used for transmitting the adjusting signal to the welding machine through the first wireless communication module and the second wireless communication module after receiving the adjusting signal;

the welding machine is used for adjusting welding process parameters after receiving the adjusting signals, and transmitting the welding process parameters to the microprocessor through the second wireless communication module and the first wireless communication module;

and the microprocessor is used for acquiring the dimming parameters from the storage module after receiving the welding process parameters, transmitting the dimming parameters to the voice broadcasting module, and controlling the voice broadcasting module to broadcast the dimming parameters.

2. The self-adjusting welding system of claim 1, wherein the weld cap system further comprises:

the button knob comprises a button and a knob, the button and the knob are both connected with the microprocessor, the button is used for sending a first adjusting signal to the microprocessor when triggered by a user, and the knob is used for sending a second adjusting signal to the microprocessor when triggered by the user; the microprocessor is used for transmitting the first adjusting signal and the second adjusting signal to the welding machine through the first wireless communication module and the second wireless communication module after receiving the first adjusting signal and the second adjusting signal;

the welding machine is used for adjusting corresponding welding process parameters after receiving the first adjusting signal and the second adjusting signal.

3. The self-adjusting welding system of claim 1, wherein the weld cap system further comprises:

the power module is electrically connected with the microprocessor, the storage module, the first wireless communication module and the voice broadcasting module.

4. The self-adjusting welding system of claim 3, wherein the weld cap system further comprises:

the display module is electrically connected with the power supply module and the microprocessor, and the microprocessor is used for transmitting the dimming parameters to the display module so as to adjust the transparency of the display module.

5. The self-adjusting welding system of claim 4, wherein the display module is further configured to display the dimming parameter.

6. The self-adjusting welding system of claim 4, wherein the display module comprises a display screen and the microprocessor is configured to transmit the dimming parameter to the display screen.

7. The self-adjusting welding system of claim 6, wherein one of said display screens is a liquid crystal dimming screen.

8. The automated welding system of claim 4, wherein the display module comprises a first display screen and a second display screen, the microprocessor is configured to transmit the dimming parameter to the first display screen and the second display screen, the first display screen is configured to adjust a display brightness according to the dimming parameter, and the second display screen is configured to display the dimming parameter.

9. The self-adjusting welding system of claim 8, wherein the first display screen is a liquid crystal dimming screen.

10. The self-regulating welding system of claim 3, wherein the power module comprises a lithium battery.