CN206356706U - Electricity generating welder - Google Patents

Abstract

The utility model is related to a kind of Electricity generating welder, wherein, welding module includes rectification circuit and welding winding, and electricity generation module includes generating winding, and excitation module includes Exciting Windings for Transverse Differential Protection；Change-over switch at least includes five switches sets；The two ends of first switch group are connected with welding the second output end of winding and the second input of rectification circuit respectively, the two ends of second switch group are connected with welding the 3rd output end of winding and the 3rd input of rectification circuit respectively, and first switch group and second switch group are used to control the electric current of welding module to export；3rd switches set is connected in excitation module, working condition for controlling excitation module；4th switches set and the 5th switches set are connected in electricity generation module, for controlling the electric energy of electricity generation module to export.Above-mentioned Electricity generating welder, its change-over switch is connected on before rectification circuit so that the current reduction on flow change-over switch, so as to extend the life-span of change-over switch, and then can extend the life-span of the Electricity generating welder.

Description

Electricity generating welder

Technical field

The utility model is related to welding machine field, more particularly to a kind of Electricity generating welder.

Background technology

Electricity generating welder is a kind of using gasoline engine or diesel engine as dynamic rotation generating, passes through rectification module and provides electric welding use Direct current, is called the dual-purpose machine of electricity generation and electric welding, can be used as generator, while can also be used as an electric welding machine.At present, send out Electric electric welding machine is widely used in industrial circle.

Currently, the change-over switch of control Electricity generating welder can control Electricity generating welder to be operated in generating state or welding State, when in welded condition, because change-over switch is set directly at the output end of welding machine, and welding machine output current it is general compared with Greatly, so as to cause change-over switch easily to damage, it is unfavorable for the use of generating welding machine.

Utility model content

Based on this, it is necessary to provide a kind of Electricity generating welder, it can reduce the electric current for flowing through change-over switch, so as to extend The life-span of change-over switch.

A kind of Electricity generating welder, the Electricity generating welder includes：

Welding module, the welding module includes rectification circuit and welding winding, and the welding module is used to export welding current；

Electricity generation module, the electricity generation module includes generating winding, and the electricity generation module is used to export electric energy；

Excitation module, the excitation module includes Exciting Windings for Transverse Differential Protection, and the Exciting Windings for Transverse Differential Protection welds winding and the hair with described respectively Electric winding is coupled, and the excitation module is used to export electric energy to welding module and electricity generation module；

Change-over switch, the change-over switch at least includes five switches sets；

Wherein, the second output end and the rectification circuit of the two ends of first switch group respectively with the welding winding Second input is connected, the 3rd output end and the rectified current of the two ends of second switch group respectively with the welding winding 3rd input on road is connected, and the first switch group and the second switch group are used to control the electric current of welding module to export；

3rd switches set is connected in the excitation module, and the 3rd switches set is used for the work shape for controlling excitation module State；

4th switches set and the 5th switches set are connected in the electricity generation module, the 4th switches set and the 5th switches set For controlling the electric energy of the electricity generation module to export.

Above-mentioned Electricity generating welder, its change-over switch is connected on before rectification circuit so that the current reduction on flow change-over switch, So as to extend the life-span of change-over switch, and then the life-span of the Electricity generating welder can be extended.

In one of the embodiments, the excitation module also include voltage regulator, the voltage regulator respectively with The welding module, the electricity generation module are connected, and the voltage regulator is also connected with the Exciting Windings for Transverse Differential Protection, with to excitation Winding exports electric energy.

In one of the embodiments, the excitation module also include the first feedback winding, first feedback winding with The Exciting Windings for Transverse Differential Protection is coupled；

The first input end of the voltage regulator is connected with the first end of first feedback winding, and described first is anti- The first end of feedback winding is connected with one end of the 3rd switches set, and the other end and the voltage of the 3rd switches set are adjusted Second input of section device is connected；

3rd input of the voltage regulator is connected with the first feedback output end of the welding module, the electricity 4th input of pressure adjuster is connected with the second feedback output end of the welding module；

5th input of the voltage regulator is connected with the first feedback output end of the electricity generation module, the electricity 6th input of pressure adjuster is connected with the second feedback output end of the electricity generation module；

First output end of the voltage regulator is connected with the first end of the Exciting Windings for Transverse Differential Protection, the voltage regulator The second output end be connected with the second end of the Exciting Windings for Transverse Differential Protection.

In one of the embodiments, the excitation module also include the first feedback winding, first feedback winding with The Exciting Windings for Transverse Differential Protection is coupled；

First output end of the voltage regulator is connected with the first end of the Exciting Windings for Transverse Differential Protection, the voltage regulator The second output end be connected with one end of the 3rd switches set, the other end of the 3rd switches set and the Exciting Windings for Transverse Differential Protection The second end be connected；

The first input end of the voltage regulator is connected with the first end of first feedback winding, and the voltage is adjusted Second input of section device is connected with the second end of first feedback winding；

3rd input of the voltage regulator is connected with the first feedback output end of the welding module, the electricity 4th input of pressure adjuster is connected with the second feedback output end of the welding module；

5th input of the voltage regulator is connected with the first feedback output end of the electricity generation module, the electricity 6th input of pressure adjuster is connected with the second feedback output end of the electricity generation module.

In one of the embodiments, when the first switch group, second switch group and the 3rd switches set of the change-over switch Close, when the 4th switches set and the 5th switches set disconnect, the excitation module work, the welding module output welding electricity Stream, the electricity generation module does not work；

It is described when the 3rd switches set disconnects when the first switch group and second switch group of the change-over switch are closed Excitation module, the welding module and the electricity generation module do not work；

When first switch group and second switch the group disconnection of the change-over switch, the 3rd switches set, the 4th switches set When being closed with the 5th switches set, the excitation module work, the welding module does not work, the electricity generation module output Electric energy.

In one of the embodiments, when the first switch group and second switch group of the change-over switch are closed, described the Three switches sets disconnect, when the 4th switches set and the 5th switches set are closed, the excitation module, the welding module And the electricity generation module does not work；Or

When the first switch group and second switch group of the change-over switch are closed, the 3rd switches set disconnects, and described the When four switches sets and the 5th switches set disconnect, the excitation module, the welding module and the electricity generation module are equal Do not work.

In one of the embodiments, the first switch group includes at least two switches parallel with one another；Or

The second switch group includes at least two switches parallel with one another.

In one of the embodiments, the 4th switches set and the 5th switches set and the socket for providing electric energy It is connected.

In one of the embodiments, the welding module also includes the second feedback winding, first resistor and second resistance, Second feedback winding is coupled with the welding winding, the first end of second feedback winding and the first of the first resistor End and the second feedback output end of the welding module are connected, and the of the second end of the first resistor and the second resistance One end is connected, and the first of the second end and the welding module of the second end of the second resistance and second feedback winding Feedback output end is connected.

In one of the embodiments, the voltage regulator is single-chip microcomputer.

Brief description of the drawings

Fig. 1 is the structural representation of Electricity generating welder in an embodiment；

Fig. 2 is the circuit diagram of welding of generating electricity in an embodiment；

Fig. 3 is the circuit diagram of welding of generating electricity in an embodiment；

Fig. 4 is another circuit diagram of embodiment illustrated in fig. 2；

Fig. 5 is another circuit diagram of embodiment illustrated in fig. 3.

Embodiment

In order that the purpose of this utility model, technical scheme and advantage are more clearly understood, below in conjunction with accompanying drawing and implementation Example, the utility model is further elaborated.It should be appreciated that specific embodiment described herein is used only for explaining The utility model, is not used to limit the utility model.

Before describing in detail according to embodiment of the present utility model, it should be noted that, described embodiment mainly exists In the combination of the system component related to Electricity generating welder.Therefore, said system component passes through ordinary symbol in the accompanying drawings Show in position, and merely illustrate the details relevant with understanding embodiment of the present utility model, Yi Mianyin Those obvious details have obscured this practicality newly for having benefited from those of ordinary skill in the art of the present utility model The disclosure of type.

Herein, such as left and right, upper and lower, front and rear, and first and second etc relational terms are used merely to area Divide an entity or action and another entity or action, and not necessarily require or imply any between this entity or action Actual this relation or order.Term " comprising ", "comprising" or any other variant are intended to including for nonexcludability, by This causes the process, method, article or the equipment that include a series of key elements not only to include these key elements, but also comprising not bright Other key elements really listed, or be this process, method, article or the intrinsic key element of equipment.

Refer to shown in Fig. 1, Fig. 1 is the structural representation of Electricity generating welder in an embodiment, in this embodiment, the hair Electric electric welding machine can include welding module 100, electricity generation module 300, excitation module 200 and change-over switch 400, wherein welding mould Block 100 includes rectification circuit 110 and welding winding 120, and electricity generation module 300 includes generating winding 310, and excitation module 200 includes Exciting Windings for Transverse Differential Protection 220.Wherein excitation module 200 passes through Exciting Windings for Transverse Differential Protection 220 and the coupling phase of welding winding 120 with welding module 100 Connection, excitation module 200 is connected with welding module 100 by the coupling of Exciting Windings for Transverse Differential Protection 220 and generating winding 310.

Wherein as shown in figure 1, change-over switch 400 can include at least five switches sets.First switch group K₁Two ends point It is not connected with welding the second output end of winding 120 and the second input of rectification circuit 110, second switch group K₂Two End is connected with welding the 3rd output end of winding 120 and the 3rd input of rectification circuit 110 respectively, the 3rd switches set K3's is connected in excitation module 200, the 4th switches set K₄With the 5th switches set K₅It is connected in electricity generation module 300.

Wherein first switch group K₁With second switch group K₂For controlling the electric current of welding module 100 to export, i.e., when first Switches set K₁, second switch group K₂With the 3rd switches set K₃During closure, welding module 100 can export welding current.3rd switch Group K₃Working condition for controlling excitation module 200, i.e., as the 3rd switches set K₃During closure, excitation module 200 can be to welding Module 100 and the output electric energy of electricity generation module 300.4th switches set K₄With the 5th switches set K₅Electricity for controlling electricity generation module 300 It can export, i.e., as the 3rd switches set K₃, the 4th switches set K₄And the 5th switches set K₅During closure, electricity generation module 300 can be exported Electric energy.

Above-mentioned Electricity generating welder, its change-over switch 400 is connected on before rectification circuit 110, that is, flows through the electric current of change-over switch 400 It is to weld the alternating current that winding 120 is exported, it is output as direct current after rectification circuit 110, after over commutation, and electric current is changed into Originally 1.414 times, therefore the electric current before rectification is smaller, i.e., the electric current on flow change-over switch 400 is smaller, so as to extend The life-span of change-over switch 400, and then the life-span of the Electricity generating welder can be extended.

In one of the embodiments, excitation module 200 also includes voltage regulator 210, and voltage regulator 210 is distinguished It is connected with welding module 100, electricity generation module 300, voltage regulator 210 is also connected with Exciting Windings for Transverse Differential Protection 220, with to excitation Winding 220 exports electric energy.As shown in figure 1, excitation module 200 is connected with welding module 100 by voltage regulator 210, its Middle voltage regulator 210 perceives the electric current that welding winding 120 is flowed through in welding module 100, can be with after further processing Excitation module 200 is controlled, is that welding module 100 senses its required voltage.In addition, excitation module 200 leads to electricity generation module 300 Voltage regulator 210 is connected, and wherein voltage regulator 210, which is perceived, flows through generating winding 310 in electricity generation module 300 Electric current, excitation module 200 can be controlled after further processing, be that electricity generation module 300 senses its required voltage.Wherein In one embodiment, voltage regulator 210 can be single-chip microcomputer.

In one of the embodiments, refer to shown in Fig. 2, Fig. 2 is the circuit diagram of welding of generating electricity in an embodiment, at this In embodiment, excitation module 200 can also include the first feedback winding 230, the first feedback winding 230 and the phase of Exciting Windings for Transverse Differential Protection 220 Coupling.Wherein voltage regulator 210 includes six ports, and the of the first output end of voltage regulator 210 and Exciting Windings for Transverse Differential Protection 220 One end is connected, and the second output end of voltage regulator 210 is connected with the second end of Exciting Windings for Transverse Differential Protection 220, so that voltage-regulation Device 210 can control the output of Exciting Windings for Transverse Differential Protection 220, and can be by the first feedback winding 230 and the electricity by the change-over switch 400 Pressure adjuster 210 is connected, in order to which the voltage regulator 210 can obtain the output of Exciting Windings for Transverse Differential Protection 220 in real time.Voltage-regulation The first input end of device 210 is connected with the first end of the first feedback winding 230, the first end of the first feedback winding 230 and the Three switches set K₃One end be connected, the 3rd switches set K₃The other end be connected with the second input of voltage regulator 210, So as to which the change-over switch 400 can control the work of the voltage regulator 210.3rd input of voltage regulator 210 and weldering First feedback output end of connection module 100 is connected, the 4th input of voltage regulator 210 and the second of welding module 100 Feedback output end is connected, so that the voltage regulator 210, which can be collected, flows into welding winding 120 in welding module 100 Electric current, is that welding circuit senses its required voltage after further processing.5th input of voltage regulator 210 with First feedback output end of electricity generation module 300 is connected, and the of the 6th input of voltage regulator 210 and electricity generation module 300 Two feedback output ends are connected, so that the voltage regulator 210 can collect and generating winding 310 is flowed into electricity generation module 300 Electric current, by further processing after, be that electricity-generating circuit senses its required voltage.

In one of the embodiments, refer to shown in Fig. 3, Fig. 3 is the circuit diagram of welding of generating electricity in an embodiment, at this In embodiment, excitation module 200 also includes the first feedback winding 230, the first feedback winding 230 and the phase coupling of Exciting Windings for Transverse Differential Protection 220 Close.Wherein voltage regulator 210 includes six ports, and the of the first output end of voltage regulator 210 and Exciting Windings for Transverse Differential Protection 220 One end is connected, the second output end and the 3rd switches set K of voltage regulator 210₃One end be connected, the 3rd switches set K₃'s The other end is connected with the second end of Exciting Windings for Transverse Differential Protection 220, so that change-over switch 400 can control the work of the voltage regulator 210 Make.The first input end of voltage regulator 210 is connected with the first end of the first feedback winding 230, and the of voltage regulator 210 Two inputs are connected with the second end of the first feedback winding 230, thus the voltage regulator 210 can obtain in real time excitation around The output of group 220.3rd input of voltage regulator 210 is connected with the first feedback output end of welding module 100, electricity 4th input of pressure adjuster 210 is connected with the second feedback output end of welding module 100, so that the voltage regulator 210 can collect the electric current that welding winding 120 is flowed into welding module 100, be welding circuit sense after further processing Answer its required voltage.5th input of voltage regulator 210 is connected with the first feedback output end of electricity generation module 300, 6th input of voltage regulator 210 is connected with the second feedback output end of electricity generation module 300, so that the voltage regulator 210 can collect the electric current that generating winding 310 is flowed into electricity generation module 300, be electricity-generating circuit sense after further processing Answer its required voltage.

In one of the embodiments, refer to shown in Fig. 2 or Fig. 3, as the first switch group K of change-over switch 400₁, Two switches set K₂With the 3rd switches set K₃Close, the 4th switches set K₄With the 5th switches set K₅When disconnecting, excitation module 200 Work, the output welding current of welding module 100, electricity generation module 300 does not work.As the first switch group K of change-over switch 400₁With Second switch group K₂Closure, the 3rd switches set K₃Disconnect, excitation module 200, welding module 100 and electricity generation module 300 are not Work.As the first switch group K of change-over switch 400₁With second switch group K₂Disconnect, the 3rd switches set K₃, the 4th switches set K₄With 5th switches set K₅Close, excitation module 200 works, welding module 100 does not work, the output electric energy of electricity generation module 300. In the embodiment, first switch group K in change-over switch 400₁, second switch group K₂, the 3rd switches set K₃, the 4th switches set K₄With And the 5th switches set K₅Closed and disconnected state and excitation module 200, welding module 100 and electricity generation module 300 work And output state is corresponded, and excitation module 200, the work of welding module 100 and electricity generation module 300 and output shape State and first switch group K in change-over switch 400₁, second switch group K₂, the 3rd switches set K₃, the 4th switches set K₄And the 5th Switches set K₅Closed and disconnected state correspond.In one of the embodiments, first switch group K in change-over switch 400₁、 Second switch group K₂, the 3rd switches set K₃, the 4th switches set K₄And the 5th switches set K₅It is arranged on panel, and typically may be used To give first switch group K₁With second switch group K₂One the first master switch is set, and first master switch is arranged on panel, the 4th Switches set K₄With the 5th switches set K₅One the second master switch can also be set, and second master switch can also be arranged on panel, 3rd switches set K₃It is also disposed on panel, to facilitate the operation of user, and in order to prevent user's operating mistake can be by the 3rd Switches set K₃It is arranged between the first master switch and the second master switch, it is to avoid the only output source of welding current and only output generates electricity electricity Source directly switches generation and draws phenomenon suddenly, causes fire.

Refer to shown in Fig. 2 or Fig. 3, as the first switch group K of change-over switch 400₁With second switch group K₂Closure, the 3rd Switches set K₃Disconnect, the 4th switches set K₄With the 5th switches set K₅Close, excitation module 200, welding module 100 and generating Module 300 does not work；Or as the first switch group K of change-over switch 400₁With second switch group K₂Closure, the 3rd switches set K₃ Disconnect, the 4th switches set K₄With the 5th switches set K₅Disconnect, excitation module 200, welding module 100 and electricity generation module 300 are equal Do not work.As first switch group K₁With second switch group K₂During closure, welding module 100 is in welding current output state, in order to The appearance of phenomenon of arc discharge is avoided, therefore it is required that not worked in excitation module 200, welding module 100 and electricity generation module 300 When, and when only welding module 100, excitation module 200 work, first switch group K₁With second switch group K₂It is in closed form State.When not worked due to excitation module 200, welding module 100 and electricity generation module 300, electricity generation module is worked as in non-transformer output 300 when will export, no matter the 4th switches set K₄With the 5th switches set K₅Be not in phenomenon of arc discharge in which kind of working condition, Therefore to the 4th switches set K₄With the 5th switches set K₅Working condition do not require.

In one of the embodiments, refer to shown in Fig. 4 and Fig. 5, Fig. 4 is another circuit diagram of embodiment illustrated in fig. 2, Fig. 5 is another circuit diagram of embodiment illustrated in fig. 3, first switch group K₁With second switch group K₂Include at least one to switch, such as Shown in Fig. 2 and Fig. 3, first switch group K₁With second switch group K₂Only include a switch, as shown in Figure 4 and Figure 5, first opens Pass group K₁With second switch group K₂Include two switches, first switch group K₁In include first switch K₁₁With second switch K₂₁, Second switch group K₂In comprising the 3rd switch K₂₁With the 4th switch K₂₂, in other examples, first switch group K₁With Two switches set K₂Other quantity switch can also be included, such as 3,4,5,8.As shown in Figure 4 and Figure 5, when One switches set K₁During including at least two switches, at least two switch in parallel；As second switch group K₂Including at least two switches When, at least two switch in parallel, so that first switch group K₁With second switch group K₂Bigger welding current can be born.

In one of the embodiments, the 4th switches set and the 5th switches set are connected with the socket for providing electric energy, As shown in Fig. 2 to Fig. 5 either figures, line 24 and line 25 are connected with the live wire and zero line of socket, to realize that user needs to power supply Ask.

In one of the embodiments, refer to shown in Fig. 2 to Fig. 5 either figures, it is anti-that welding module 100 also includes second Present winding 130, first resistor R₁With second resistance R₂, second feedback winding 130 is coupled with welding winding 120, and this is second anti- Present the first end and first resistor R of winding 130₁First end and the second feedback output end of welding module 100 be connected, should First resistor R₁The second end and second resistance R₂First end be connected, second resistance R₂The second end with second feedback around Second end of group 130 and the first feedback output end of welding module 100 are connected.Wherein second resistance R₂Generally slide electricity Resistance, wherein operating personnel can adjust the resistance of slide rheostat according to the demand of welding, so as to select specific electricity The size of stream, you can be fed back to potential regulator, the potential regulator can control Exciting Windings for Transverse Differential Protection 220 according to the feedback Output.

Each technical characteristic of embodiment described above can be combined arbitrarily, to make description succinct, not to above-mentioned reality Apply all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, the scope of this specification record is all considered to be.

Embodiment described above only expresses several embodiments of the present utility model, and it describes more specific and detailed, But therefore it can not be interpreted as the limitation to utility model patent scope.It should be pointed out that for the common skill of this area For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to Protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.

Claims (10)

1. a kind of Electricity generating welder, it is characterised in that the Electricity generating welder includes：

Welding module, the welding module includes rectification circuit and welding winding, and the welding module is used to export welding current；

Electricity generation module, the electricity generation module includes generating winding, and the electricity generation module is used to export electric energy；

Excitation module, the excitation module include Exciting Windings for Transverse Differential Protection, the Exciting Windings for Transverse Differential Protection respectively with it is described welding winding and the generating around Group is coupled, and the excitation module is used to export electric energy to welding module and electricity generation module；

Change-over switch, the change-over switch at least includes five switches sets；

Wherein, the two ends of first switch group respectively with it is described welding winding the second output end and the rectification circuit second Input is connected, the two ends of second switch group respectively with the 3rd output end of the welding winding and the rectification circuit 3rd input is connected, and the first switch group and the second switch group are used to control the electric current of welding module to export；

3rd switches set is connected in the excitation module, and the 3rd switches set is used for the working condition for controlling excitation module；

4th switches set and the 5th switches set are connected in the electricity generation module, and the 4th switches set and the 5th switches set are used for The electric energy of the electricity generation module is controlled to export.

2. Electricity generating welder according to claim 1, it is characterised in that the excitation module also includes voltage regulator, The voltage regulator is connected with the welding module, the electricity generation module respectively, and the voltage regulator is also encouraged with described Magnetic winding is connected, to export electric energy to Exciting Windings for Transverse Differential Protection.

3. Electricity generating welder according to claim 2, it is characterised in that the excitation module also include the first feedback around Group, first feedback winding is coupled with the Exciting Windings for Transverse Differential Protection；

The first input end of the voltage regulator is connected with the first end of first feedback winding, it is described first feedback around The first end of group is connected with one end of the 3rd switches set, the other end and the voltage regulator of the 3rd switches set The second input be connected

3rd input of the voltage regulator is connected with the first feedback output end of the welding module, and the voltage is adjusted 4th input of section device is connected with the second feedback output end of the welding module；

5th input of the voltage regulator is connected with the first feedback output end of the electricity generation module, and the voltage is adjusted 6th input of section device is connected with the second feedback output end of the electricity generation module；

First output end of the voltage regulator is connected with the first end of the Exciting Windings for Transverse Differential Protection, and the of the voltage regulator Two output ends are connected with the second end of the Exciting Windings for Transverse Differential Protection.

4. Electricity generating welder according to claim 2, it is characterised in that the excitation module also include the first feedback around Group, first feedback winding is coupled with the Exciting Windings for Transverse Differential Protection；

First output end of the voltage regulator is connected with the first end of the Exciting Windings for Transverse Differential Protection, and the of the voltage regulator Two output ends are connected with one end of the 3rd switches set, and the of the other end of the 3rd switches set and the Exciting Windings for Transverse Differential Protection Two ends are connected；

The first input end of the voltage regulator is connected with the first end of first feedback winding, the voltage regulator The second input be connected with the second end of first feedback winding；

3rd input of the voltage regulator is connected with the first feedback output end of the welding module, and the voltage is adjusted 4th input of section device is connected with the second feedback output end of the welding module；

5th input of the voltage regulator is connected with the first feedback output end of the electricity generation module, and the voltage is adjusted 6th input of section device is connected with the second feedback output end of the electricity generation module.

5. the Electricity generating welder according to claim 3 or 4, it is characterised in that first switch group when the change-over switch, Two switches sets and the 3rd switches set are closed, when the 4th switches set and the 5th switches set disconnect, the excitation module work, institute Welding module output welding current is stated, the electricity generation module does not work；

When first switch group and second switch the group closure of the change-over switch, when the 3rd switches set disconnects, the excitation Module, the welding module and the electricity generation module do not work；

When first switch group and second switch the group disconnection of the change-over switch, the 3rd switches set, the 4th switches set and institute When stating the 5th switches set and closing, the excitation module work, the welding module does not work, the electricity generation module output electricity Energy.

6. Electricity generating welder according to claim 5, it is characterised in that when the first switch group of the change-over switch and second Switches set is closed, and the 3rd switches set disconnects, when the 4th switches set and the 5th switches set are closed, the excitation Module, the welding module and the electricity generation module do not work；Or

When the first switch group and second switch group of the change-over switch are closed, the 3rd switches set disconnects, and the described 4th opens When the 5th switches set disconnects described in Guan Zuhe, the excitation module, the welding module and the electricity generation module not work Make.

7. the Electricity generating welder according to any one of Claims 1-4, it is characterised in that

The first switch group includes at least two switches parallel with one another；Or

The second switch group includes at least two switches parallel with one another.

8. the Electricity generating welder according to any one of Claims 1-4, it is characterised in that the 4th switches set and described 5th switches set is connected with the socket for providing electric energy.

9. the Electricity generating welder according to claim 3 or 4, it is characterised in that the welding module also includes the second feedback Winding, first resistor and second resistance, second feedback winding are coupled with the welding winding, and the of second feedback winding One end is connected with the first end of the first resistor and the second feedback output end of the welding module, the first resistor Second end is connected with the first end of the second resistance, the second end of the second resistance and the second of second feedback winding First feedback output end of end and the welding module is connected.

10. the Electricity generating welder according to any one of claim 2 to 4, it is characterised in that the voltage regulator is monolithic Machine.