CN114263867A - Insulation spacer, push-type switching assembly, track power connector and switching method - Google Patents

Abstract

The invention relates to the technical field of electric appliances, in particular to an insulation spacing part, a push-type switching assembly, a track electric appliance and a switching method. The insulation spacer, the push-type switching assembly, the track electric connector and the switching method have the advantages that the insulation spacer is integrally designed and is integrally insulated, the conductive contact is convenient to conductively connect the load end conductor and the source end conductor at different positions, the conductive push button is pushed to move stably, and the connection is easy to switch among different circuits.

Description

Insulation spacer, push-type switching assembly, track power connector and switching method

Technical Field

The invention relates to the technical field of electric appliances, in particular to an insulation spacer, a push-type switching assembly, a track electric appliance and a switching method.

Background

The rail lamp system replaces the traditional winding displacement power supply mode, is widely applied and generally comprises a power supply guide rail and a rail electric connector, wherein the rail electric connector is also called a guide rail box and has the function of connecting or disconnecting a circuit between an electric appliance and the power supply guide rail. Chinese patent CN 210088626U discloses a three-wire track power supply box structure of an LED track lamp, which is inconvenient to switch between different conductive circuits, and the insulation between different circuits is poor.

Disclosure of Invention

The present invention is directed to an insulation spacer, a push-type switching assembly, a rail-type electric connector and a switching method, which are capable of solving the above-mentioned problems.

To achieve the above object, an insulation spacer according to the present invention includes: a main body portion configured to insulate and isolate the load side conductor from the source side conductor; the sliding contact spacing part is arranged on the main body part and extends along a certain direction, and the sliding contact spacing part is used for providing support for an external conductive contact and guiding the direction in which the conductive contact is pushed; the through windows are arranged in an array mode along the extending direction of the sliding connection spacing parts, and the conductive windows are arranged to be located between the load end conductors and the source end conductors.

Furthermore, the sliding connection interval part is positioned on the side surface of the main body part close to the load end conductor; still including the insulating spacer of embedded formula, the insulating spacer of embedded formula sets up in the main part, and the insulating spacer of embedded formula is located the side that the main part is close to the source end conductor.

Furthermore, it is strip and be divided into horizontal insulating interval portion and vertical insulating interval portion to inlay formula insulating interval portion, and horizontal insulating interval portion and vertical insulating interval portion set up alternately.

Furthermore, the sliding connection interval part comprises sliding rail parts, two rows of penetrating windows are arranged, and the two rows of penetrating windows are symmetrically arranged on two sides of the sliding connection interval part in a mirror mode.

Furthermore, the sliding connection wing edge structure further comprises two sliding connection wing edges, the two sliding connection wing edges are arranged on the two sides of the sliding connection interval part in a mirror symmetry mode, and the length direction of the sliding connection wing edges is the same as the extending direction of the sliding connection interval part.

The push-type switching assembly comprises a load end conductor, a source end bearing part, a conductive push button and the insulation spacing part, wherein the insulation spacing part is installed on the source end bearing part, the conductive push button is arranged on the sliding connection spacing part of the insulation spacing part in a sliding mode along the length direction of the sliding connection spacing part, the conductive push button is provided with conductive contacts, the conductive contacts are in conductive connection with the load end conductor, the source end conductor is arranged on the source end bearing part, the number of the source end conductors is at least two, the conductive contacts are provided with sliding contact points and elastic contact connection parts, and the load end conductor and the source end conductor are in conductive connection when the elastic contact connection parts are located at positions corresponding to the conductive windows.

Furthermore, an embedded insulating spacer is arranged between the two adjacent source end conductors; the conductive push button is provided with a buckling part and a sliding sleeve part, the sliding sleeve part is sleeved on the sliding connection interval part in a sliding mode, and the two buckling parts are located on two sides of the sliding sleeve part and are respectively buckled on two sliding connection wing edges in a sliding mode.

Furthermore, the source end bearing part is provided with a spacing groove/window, the spacing groove/window separates two adjacent source end conductors, and the end parts of the embedded insulating spacing parts are arranged in the spacing groove/window in a matched mode.

The track power connector comprises a shell, an insulating rotating shaft piece and a right push type switching assembly, wherein the insulating rotating shaft piece is rotatably arranged in the shell, a source end bearing part is arranged on the shell and provided with source end power connection posts, the number of the source end power connection posts is the same as that of source end conductors, the source end conductors are in conductive connection with the source end power connection posts, and the source end power connection posts are in conductive connection with conductive elastic sheets of the insulating rotating shaft piece.

Furthermore, two insulating rotating shaft pieces are arranged, namely a first insulating rotating shaft piece and a second insulating rotating shaft piece; the source end conductor is divided into a first pole conductor and a second pole conductor, and the first pole conductor and the second pole conductor are insulated and separated by a transverse insulating partition part; the first pole conductors and the second pole conductors are respectively provided with at least three, two adjacent first pole conductors/second pole conductors are insulated and separated by a longitudinal insulation separating part, at least two first pole conductors/second pole conductors are in conductive connection with the conductive elastic sheet of the first insulation rotating shaft piece through a source end power connection column, and at least one first pole conductor/second pole conductor is in conductive connection with the conductive elastic sheet of the second insulation rotating shaft piece through a source end power connection column.

Further, insulating pivot spare includes the pivot shell and electrically conducts the shell fragment, and electrically conducts the shell fragment and installs in the pivot shell, and the first end of electrically conducting the shell fragment sets up in the outside of pivot shell, and the pivot shell is provided with toggle portion, and toggle portion presses the second end of electrically conducting the shell fragment to source end electricity connection post when rotating the pivot shell and makes the second end and the source end electricity connection post of electrically conducting the shell fragment electrically conduct and be connected.

The invention discloses a switching method of an orbital electric connector, which uses the orbital electric connector as claimed in claim 8, wherein three first pole conductors and three second pole conductors are respectively arranged, and a first L-pole conducting strip, a second L-pole conducting strip, a first N-pole conducting strip and a second N-pole conducting strip are arranged on a first insulating rotating shaft piece; the second insulation rotating shaft part is provided with a third L-pole conducting strip and a third N-pole conducting strip, the number of the first pole conductors and the number of the second pole conductors are respectively three, and the three first pole conductors are respectively in conductive connection with the first L-pole conducting strip, the second L-pole conducting strip and the third L-pole conducting strip through source end power connection columns; the three second pole conductors are respectively in conductive connection with the first N pole conducting strip, the second N pole conducting strip and the third N pole conducting strip through source end power connection posts; three conductive windows are arranged; the conductive push button is provided with an L-pole conductive contact and an N-pole conductive contact, the load end conductor is provided with an L-pole load conductive sheet and an N-pole load conductive sheet, the L-pole conductive contact and the N-pole conductive contact are respectively in sliding connection with the L-pole load conductive sheet and the N-pole load conductive sheet in a conductive state, the elastic contact part can be switched among the three conductive windows by pushing the conductive push button along the extending direction of the sliding connection interval part, so that the elastic contact part switches the L pole load conducting strip/N pole load conducting strip between the three first pole conductors/second pole conductors, and further realize that the L pole load conducting strip/the N pole load conducting strip are respectively connected with the first L pole conducting strip, the second L pole conducting strip, the third L pole conducting strip/the first N pole conducting strip, the second N pole conducting strip and the third N pole conducting strip in a conducting way.

The invention has the beneficial effects that: the insulation spacer, the push-type switching assembly, the track power connector and the switching method are designed in an integrated mode, the insulation spacer is insulated integrally, specifically, the sliding connection spacer comprises two rows of sliding rail parts, the two rows of penetrating windows are arranged on two sides of the sliding connection spacer in a mirror symmetry mode, good insulation is provided for different source end conductors, sliding guide and support are provided for conductive contacts, meanwhile, due to the design of the conductive windows, the conductive contacts can conveniently conduct and conductively connect the load end conductors and the source end conductors at different positions, and meanwhile, due to the size of the conductive windows in the thickness direction, insulation is provided for the load end conductors and the source end conductors. The conductive push button is provided with a buckling part and a sliding sleeve part, the sliding sleeve part is sleeved on the sliding connection interval part in a sliding mode, the conductive push button is stably moved when pushed, and the conductive push button can be supported in the direction perpendicular to the extension plane of the sliding connection interval part to avoid dislocation when the conductive push button is manually pressed; the two buckling parts are positioned on two sides of the sliding sleeve part and are respectively buckled on the two sliding contact wing edges in a sliding mode, so that the conductive push button and the insulating spacer are conveniently combined into a component, and the assembly and the connection are easy.

Drawings

Fig. 1 is a schematic perspective view of the orbital electric connector of the present invention.

Fig. 2 is an exploded view of the orbital electric connector of the present invention.

Fig. 3 is a schematic view of the internal structure of the insulated rotating shaft member of the present invention.

Fig. 4 is a perspective view of the insulating spacer of the present invention.

Fig. 5 is a partial cross-sectional structural schematic view of a push type conversion assembly of the present invention.

Fig. 6 is another structural schematic diagram of the push type switching assembly of the present invention.

The reference numerals include:

1-insulating spacer

11-main body 12-sliding spacing part 13-conductive window

14-embedded insulating spacer 15-sliding wing edge

2-push type conversion assembly

21-load end conductor 211-L pole load conducting strip 212-N pole load conducting strip

22-source end conductor 221-first pole conductor 222-second pole conductor

23-conductive push button

231-fastening part 232-sliding sleeve part

233-conductive contact 2331-sliding contact 2332-elastic contact part

234-L pole conductive contact 235-N pole conductive contact

24-source end bearing part

241-spacing groove/window 242-source end connecting post

3-insulating rotating shaft piece

31-first insulating rotating shaft

311, a first L-pole conductive sheet 312, a second L-pole conductive sheet 313, a first N-pole conductive sheet 314, and a second N-pole conductive sheet;

32-second insulated rotating shaft member 321-third L pole conducting strip 322-third N pole conducting strip

33-rotating shaft shell 34-toggle part.

Detailed Description

The present invention is described in detail below with reference to the attached drawings.

As shown in fig. 1 to 6, the insulating spacer 1 of the present invention comprises: a body portion 11, the body portion 11 being provided to insulate and isolate the load-side conductor 21 and the source-side conductor 22; a sliding contact spacer 12, the sliding contact spacer 12 being provided on the main body 11 and extending in a certain direction, the sliding contact spacer 12 being provided to support the external conductive contact 233 and guide the direction in which the conductive contact 233 is pushed; and at least two conductive windows 13 are arranged in the penetrating window, an insulating interval part is arranged between every two adjacent conductive windows 13, the penetrating windows are arranged in an array along the extending direction of the sliding connection interval part 12, and the conductive windows 13 are arranged to be positioned between the load end conductor 21 and the source end conductor 22. The insulation spacer 1 of the invention is integrally designed and integrally insulated, specifically, the sliding connection spacing part 12 comprises a sliding rail part, two rows of penetrating windows are arranged on two sides of the sliding connection spacing part 12, the two rows of penetrating windows are arranged on two sides of the sliding connection spacing part 12 in a mirror symmetry manner, so that good insulation is provided for different source end conductors 22, sliding guide and support are provided for the conductive contact 233, meanwhile, the design of the conductive window 13 is convenient for the conductive contact 233 to conductively connect the load end conductor 21 and the source end conductor 22 at different positions, and meanwhile, the size of the conductive window 13 in the thickness direction also provides insulation for the load end conductor 21 and the source end conductor 22.

In the insulating spacer 1 of the present invention, the sliding contact spacer 12 is located on the side surface of the body 11 close to the load side conductor 21; the embedded type insulation spacer 14 is further included, the embedded type insulation spacer 14 is arranged on the main body portion 11, the embedded type insulation spacer 14 is located on the side face, close to the source end conductor 22, of the main body portion 11, and different source end conductors 22 are connected through the embedded type insulation spacer 14.

In the insulating spacer 1 of the present invention, the embedded insulating spacer 14 is in the form of a strip and is divided into a horizontal insulating spacer and a vertical insulating spacer, and the horizontal insulating spacer and the vertical insulating spacer are arranged in a crossing manner.

The insulation spacer 1 of the invention further comprises two sliding contact wing edges 15, the two sliding contact wing edges 15 are arranged on two sides of the sliding contact interval part 12 in a mirror symmetry mode, and the length direction of the sliding contact wing edges 15 is the same as the extending direction of the sliding contact interval part 12.

The push-type switching assembly 2 of the present invention comprises a load end conductor 21, a source end conductor 22, a source end bearing member 24, a conductive push button 23 and the insulation spacer 1 as claimed in claim 1, wherein the insulation spacer 1 is mounted on the source end bearing member 24, the conductive push button 23 is slidably disposed on the sliding spacer 12 of the insulation spacer 1 along the length direction of the sliding spacer 12, the conductive push button 23 is provided with a conductive contact 233, the conductive contact 233 is conductively connected with the load end conductor 21, the source end conductor 22 is disposed on the source end bearing member 24, the source end conductor 22 is provided with at least two, the conductive contact 233 is provided with a sliding contact 2331 and an elastic contact 2332, and the elastic contact 2332 is located at a position corresponding to the conductive window 13 to conductively connect the load end conductor 21 and the source end conductor 22.

In the push-type switching assembly 2, the embedded insulating spacer 14 is arranged between the two adjacent source end conductors 22, so that the insulating effect is further improved; the conductive push button 23 is provided with a buckling part 231 and a sliding sleeve part 232, the sliding sleeve part 232 is slidably sleeved on the sliding connection interval part 12, the conductive push button 23 is stably moved when pushed, and the conductive push button 23 can be supported in the direction perpendicular to the extension plane of the sliding connection interval part 12 to avoid dislocation of the conductive push button 23 when the conductive push button 23 is manually pressed; the two buckling parts 231 are located at two sides of the sliding sleeve part 232 and are respectively buckled on the two sliding contact wing edges 15 in a sliding mode, so that the conductive push button 23 and the insulating spacer 1 can be conveniently combined into a component, and the assembly and the connection are easy.

In the push-type converting assembly 2 of the present invention, the source end bearing member 24 is provided with the spacing groove/window 241, the spacing groove/window 241 separates two adjacent source end conductors 22, and the end of the embedded insulating spacer 14 is fittingly arranged in the spacing groove/window 241, so that the insulating spacer 1 is easily assembled and connected to the source end bearing member 24.

The track power connector comprises a shell and an insulating rotating shaft piece 3, wherein the insulating rotating shaft piece 3 is rotatably arranged in the shell, the track power connector also comprises a right-push type switching assembly 2, a source end bearing part 24 is arranged in the shell, the source end bearing part 24 is provided with source end power connection posts 242 with the same number as that of source end conductors 22, the source end conductors 22 are in conductive connection with the source end power connection posts 242, and the source end power connection posts 242 are in conductive connection with conductive shrapnels of the insulating rotating shaft piece 3. The insulated rotating shaft member 3 can refer to an insulated rotating shaft member in the prior art, and plays a role in limiting the relative position of the track electric connector and the conductive track, and simultaneously, the power is taken from the conductive track. The track connector of the invention changes the position of the conductive contact 233 by pushing the conductive push button 23, which is convenient for switching different connecting lines.

In the track power connector, two insulating rotating shaft pieces 3 are arranged, namely a first insulating rotating shaft piece 31 and a second insulating rotating shaft piece 32; the source end conductor 22 is divided into a first pole conductor 221 and a second pole conductor 222, and the first pole conductor 221 and the second pole conductor 222 are insulated and separated by a transverse insulation separating part; the first pole conductors 221 and the second pole conductors 222 are respectively provided with at least three, two adjacent first pole conductors 221/second pole conductors 222 are insulated and separated by a vertical insulation separating part, at least two first pole conductors 221/second pole conductors 222 are in conductive connection with a conductive elastic sheet of the first insulation rotating shaft member 31 through an end power connection column 242, and at least one first pole conductor 221/second pole conductor 222 is in conductive connection with a conductive elastic sheet of the second insulation rotating shaft member 32 through the end power connection column 242. The track power connector can realize multi-line conductive connection under the limited size. Two adjacent first pole conductors 221 or second pole conductors 222 are insulated and separated by a vertical insulation partition part; at least one of the first pole conductor 221 and the second pole conductor 222 is electrically connected to the conductive spring of the second insulating shaft member 32 via the power terminal 242

Specifically, according to the track power connector of the present invention, the insulating rotating shaft member 3 includes a rotating shaft housing 33 and a conductive elastic sheet, the conductive elastic sheet is mounted on the rotating shaft housing 33, a first end of the conductive elastic sheet is disposed outside the rotating shaft housing 33, the rotating shaft housing 33 is provided with a toggle portion 34, and when the rotating shaft housing 33 is rotated, the toggle portion 34 presses a second end of the conductive elastic sheet to the source power connection post 242 so that the second end of the conductive elastic sheet is conductively connected to the source power connection post 242.

The switching method of the railway electric connector comprises the steps that three first pole conductors 221 and three second pole conductors 222 are arranged, and the first insulating rotating shaft piece 31 is provided with a first L-pole conducting strip 311, a second L-pole conducting strip 312, a first N-pole conducting strip 313 and a second N-pole conducting strip 314; the second insulating rotating shaft member 32 is provided with a third L-pole conducting strip 321 and a third N-pole conducting strip 322, the number of the first pole conductors 221 and the number of the second pole conductors 222 are three, and the three first pole conductors 221 are respectively in conductive connection with the first L-pole conducting strip 311, the second L-pole conducting strip 312 and the third L-pole conducting strip 321 through the source terminal connecting posts 242; the three second pole conductors 222 are respectively in conductive connection with the first N-pole conducting strip 313, the second N-pole conducting strip 314 and the third N-pole conducting strip 322 through the source terminal connecting post 242; three conductive windows 13 are provided; the conductive push button 23 is provided with an L-pole conductive contact 234 and an N-pole conductive contact 233, the load end conductor 21 is provided with an L-pole load conductive sheet 211 and an N-pole load conductive sheet 212, the L-pole conductive contact 234 and the N-pole conductive contact 233 are respectively in conductive sliding connection with the L-pole load conductive sheet 211 and the N-pole load conductive sheet 212, and the elastic contact portion 2332 is switched between the three conductive windows 13 by pushing the conductive push button 23 along the extending direction of the sliding connection partition 12, so that the elastic contact portion 2332 switches the L-pole load conductive sheet 211/the N-pole load conductive sheet 212 between the conductive connection with the three first pole conductors 221/the second pole conductors 222, thereby realizing that the L-pole load conductive sheet 211/the N-pole load conductive sheet 212 are respectively in conductive connection with the first L-pole conductive sheet 311, the second L-pole 312, the third L-pole conductive sheet 321/the first N-pole conductive sheet 313, The second N-pole conductive sheet 314 and the third N-pole conductive sheet 322 are switched between conductive connections. According to the switching method of the railway electric connector, the insulation spacer 1 provides good insulation for different source end conductors 22 and provides sliding guide and support for the conductive contacts 233, meanwhile, the design of the conductive window 13 is convenient for the conductive contacts 233 to conductively connect the load end conductor 21 and the source end conductor 22 at different positions, the size of the conductive window 13 in the thickness direction also provides insulation for the load end conductor 21 and the source end conductor 22, and simultaneously, the switching of the L-pole load conductive sheet 211 and the first L-pole conductive sheet 311, the second L-pole conductive sheet 312 and the third L-pole conductive sheet 321 is convenient to realize, and the switching of the N-pole load conductive sheet 212 and the first N-pole conductive sheet 313, the second N-pole conductive sheet 314 and the third N-pole conductive sheet 322 are convenient to realize.

In conclusion, the present invention has the above-mentioned excellent characteristics, so that it can be used to enhance the performance of the prior art and has practicability, and becomes a product with practical value.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description of the present invention, which should be interpreted as a limitation.

Claims (10)

1. An insulating spacer, comprising:

a main body portion configured to insulate and isolate the load side conductor from the source side conductor;

the sliding contact spacing part is arranged on the main body part and extends along a certain direction, and the sliding contact spacing part is used for providing support for an external conductive contact and guiding the direction in which the conductive contact is pushed;

the through windows are arranged in an array mode along the extending direction of the sliding connection spacing parts, and the conductive windows are arranged to be located between the load end conductors and the source end conductors.

2. The insulation spacer of claim 1, wherein: the sliding connection spacing part is positioned on the side surface of the main body part close to the load end conductor; still including the insulating spacer of embedded formula, the insulating spacer of embedded formula sets up in the main part, and the insulating spacer of embedded formula is located the side that the main part is close to the source end conductor.

3. The insulation spacer of claim 1, wherein: the sliding connection wing edges are arranged on two sides of the sliding connection interval part in a mirror symmetry mode, and the length direction of the sliding connection wing edges is the same as the extending direction of the sliding connection interval part.

4. The push-type switching assembly is characterized by comprising a load end conductor, a source end bearing part, a conductive push button and the insulation spacing part of claim 1, wherein the insulation spacing part is installed on the source end bearing part, the conductive push button is arranged on the sliding connection spacing part of the insulation spacing part in a sliding mode along the length direction of the sliding connection spacing part, the conductive push button is provided with at least two conductive contacts, the conductive contacts are in conductive connection with the load end conductor, the source end conductor is arranged on the source end bearing part, the conductive contacts are provided with sliding contact points and elastic contact connection parts, and the elastic contact connection parts are located at positions corresponding to the conductive windows and are used for conductively connecting the load end conductor and the source end conductor.

5. A push conversion assembly as claimed in claim 4, wherein: an embedded insulating spacer is arranged between the two adjacent source end conductors; the conductive push button is provided with a buckling part and a sliding sleeve part, the sliding sleeve part is sleeved on the sliding connection interval part in a sliding mode, and the two buckling parts are located on two sides of the sliding sleeve part and are respectively buckled on two sliding connection wing edges in a sliding mode.

6. A push conversion assembly as claimed in claim 5, wherein: the source end bearing part is provided with a spacing groove/window, the spacing groove/window separates two adjacent source end conductors, and the end parts of the embedded insulating spacing parts are arranged in the spacing groove/window in a matched mode.

7. Track connects electrical apparatus, including shell and insulating pivot spare, the rotatable setting of insulating pivot spare is in the shell, its characterized in that: the push-type transfer assembly of claim 4, further comprising a source carrier disposed on the housing, the source carrier having source electrical posts in the same number as the source conductors, the source conductors being conductively connected to the source electrical posts, the source electrical posts being conductively connected to the conductive tabs of the insulating shaft.

8. The orbital electric machine of claim 7, wherein: the number of the insulation rotating shaft pieces is two, namely a first insulation rotating shaft piece and a second insulation rotating shaft piece; the source end conductor is divided into a first pole conductor and a second pole conductor, and the first pole conductor and the second pole conductor are insulated and separated by a transverse insulating partition part; the first pole conductors and the second pole conductors are respectively provided with at least three, two adjacent first pole conductors/second pole conductors are insulated and separated by a longitudinal insulation separating part, at least two first pole conductors/second pole conductors are in conductive connection with the conductive elastic sheet of the first insulation rotating shaft piece through a source end power connection column, and at least one first pole conductor/second pole conductor is in conductive connection with the conductive elastic sheet of the second insulation rotating shaft piece through a source end power connection column.

9. The orbital electric machine of claim 7, wherein: the insulating rotating shaft piece comprises a rotating shaft shell and a conductive elastic sheet, the conductive elastic sheet is installed on the rotating shaft shell, the first end of the conductive elastic sheet is arranged outside the rotating shaft shell, the rotating shaft shell is provided with a shifting portion, and when the rotating shaft shell is rotated, the shifting portion presses the second end of the conductive elastic sheet to the source end power connection post so that the second end of the conductive elastic sheet is conductively connected with the source end power connection post.

10. The rail electric connector switching method is characterized in that: the orbital electric device according to claim 8, wherein the first and second polar conductors are provided in three numbers, respectively, and the first insulating rotary shaft member is provided with a first L-pole conductive piece, a second L-pole conductive piece, a first N-pole conductive piece and a second N-pole conductive piece; the second insulation rotating shaft part is provided with a third L-pole conducting strip and a third N-pole conducting strip, the number of the first pole conductors and the number of the second pole conductors are respectively three, and the three first pole conductors are respectively in conductive connection with the first L-pole conducting strip, the second L-pole conducting strip and the third L-pole conducting strip through source end power connection columns; the three second pole conductors are respectively in conductive connection with the first N pole conducting strip, the second N pole conducting strip and the third N pole conducting strip through source end power connection posts; three conductive windows are arranged;

the conductive push button is provided with an L-pole conductive contact and an N-pole conductive contact, the load end conductor is provided with an L-pole load conductive sheet and an N-pole load conductive sheet, the L-pole conductive contact and the N-pole conductive contact are respectively in sliding connection with the L-pole load conductive sheet and the N-pole load conductive sheet in a conductive state, the elastic contact part can be switched among the three conductive windows by pushing the conductive push button along the extending direction of the sliding connection interval part, so that the elastic contact part switches the L pole load conducting strip/N pole load conducting strip between the three first pole conductors/second pole conductors, and further realize that the L pole load conducting strip/the N pole load conducting strip are respectively connected with the first L pole conducting strip, the second L pole conducting strip, the third L pole conducting strip/the first N pole conducting strip, the second N pole conducting strip and the third N pole conducting strip in a conducting way.

Images