WO2021104929A1

WO2021104929A1 - Connection terminal and electronic device

Info

Publication number: WO2021104929A1
Application number: PCT/EP2020/082340
Authority: WO
Inventors: Volker JARMUTH
Original assignee: Phoenix Contact Gmbh & Co. Kg
Priority date: 2019-11-26
Filing date: 2020-11-17
Publication date: 2021-06-03
Also published as: CN114762193A; DE102019132008A1; EP4066318A1

Abstract

The invention relates to an electric connection terminal (100) for connecting an electric conductor, comprising a housing (110), a clamping spring (120) which is arranged in the housing (110), a current bar (160), and a clamping lever (140), wherein the clamping spring (120) has a contact limb (121) in order to clamp an electric conductor to be connected against the current bar (160) in a spring-elastic manner, wherein the clamping lever (140) is secured to the housing (110) and can be pivoted about a pivot axis (141) between an open position and a closed position, and the clamping lever (140) has a driver (142) which is paired with a tab (122) of the clamping spring (120), said tab being provided on the contact limb (121) of the clamping spring (120).

Description

Terminal as well as electronic device

The present invention relates to a connection terminal for connecting an electrical conductor. The invention also relates to an electronic device with such a connection terminal.

Connection terminals for electrical conductors are used to contact electrical conductors in a detachable manner.

The object of the present invention is to specify an improved connection terminal for connecting an electrical conductor.

The object is achieved according to the invention with the features of the independent claims. Appropriate refinements and advantageous developments of the invention are specified in the subclaims.

The connection terminal according to the invention has a housing, a clamping spring arranged in the housing, a current bar and a clamping lever, the clamping spring having a contact leg in order to elastically tension an electrical conductor to be connected against the current bar, the clamping lever being fastened to the housing is, wherein the clamping lever is pivotable between an open position and a closed position about a pivot axis, the clamping lever having a driver and wherein the driver is assigned a tab of the clamping spring, which is provided on the contact leg of the clamping spring.

Because the tab that interacts with the driver is provided on the contact leg of the clamping spring, a particularly compact and robust design of the clamping spring can be provided within the connecting terminal.

The tab is preferably formed in one piece with the clamping spring and punched out of the contact leg of the clamping spring, wherein the contact leg can have a through opening that essentially corresponds to the punched-out tab. In this way, the tab can be provided inexpensively and reliably as an integral part of the clamping spring. It can be provided that the tab is arranged so as to protrude freely between the contact leg and a retaining leg of the clamping spring, wherein the contact leg and the retaining leg can be connected to one another by a curved connecting section. Consequently, the tab can be integrated as compactly as possible into an installation space provided for receiving the clamping spring.

The connecting section between the contact limb and the holding limb can be an arc which defines an angle of less than 90 ° between the holding limb and the contact limb. Accordingly, sections of the contact leg and of the retaining leg adjacent to the arch can enclose an angle which is smaller than 90 °.

In order to avoid bending or deformation of the clamping spring due to improper use and to achieve guidance and positioning of the clamping spring relative to the housing, according to a further embodiment of the connection terminal it can be provided that the housing has a support section which the through opening of the contact leg penetrates and rests against the retaining leg of the clamping spring. Accordingly, the clamping spring with the through opening can be pushed onto the support section, so that the clamping spring with the contact leg can be positively positioned on the housing.

It can be provided that an end section of the support section of the housing resting against the retaining leg of the clamping spring has a curvature or rounding in order to be able to adapt the shape of the support section at least partially to the different bending radii of the clamping spring to different tension conditions. The curvature or rounding can reduce wear on the spring compared to a sharp-edged support and also reduce the friction when the spring is deformed in contact with the support section. The tensioning mechanism formed from the clamping lever, the clamping spring and the associated support section can accordingly be designed to run more smoothly in comparison to sharp-edged or planar support solutions by providing the end-side rounding of the support section.

The clamping spring can be enclosed on two sides by the housing, so that in particular no lateral opening of the housing is provided for mounting the clamping spring and the clamping spring can be mounted in the housing by being pushed onto the support section and the associated pushing between two side housing walls of the housing.

According to an alternative embodiment, the support section can be provided on the current bar or be part of the current bar.

In order to enable a simple and inexpensive construction of the clamping spring, it can be provided that the clamping spring is a multi-curved band, in particular a spring steel band, the band having a constant width. When it is said in the present case that the band has a constant width, this means that the total width of the unwound band, which rests on a flat surface and from which the spring is formed, has a constant width. It goes without saying that, for example, punching out the flap has the effect that the flap itself has a smaller width than the original band. Nevertheless, the total width of the clamping section from which the tab is punched out remains the same and continues to correspond to the width of the retaining leg. In particular, the width of a section of the clamping leg resting against a conductor to be connected corresponds to the width of the holding leg.

It is also possible that the driver is at a distance from the tab when the clamping lever is in the closed position, and that the driver rests against the tab when the clamping lever is in the open position. In the closed position, it can be ensured in this way that the entire spring force of the spring clamp is available for tensioning a conductor in the direction of the current bar, and that part of the spring force is not lost due to contact with the driver. Accordingly, starting from the closed position of the clamping lever, the driver initially performs an idle stroke until the driver comes into contact with the tab, whereby the subsequent, further opening movement can cause the clamping spring to deform via the tab and the driver.

The driver can, for example, be a mandrel or web which protrudes along the width direction of the clamping spring and is formed on the clamping lever. In particular, it can be provided that a pivoting of the clamping lever from the closed position into the open position can bring about an increase in a distance between the current bar and the contact leg, wherein the spring can be tensioned between the driver and a stop.

It is also possible that a further clamping spring is provided with a further clamping lever in order to tension a further electrical conductor to be connected in a resiliently elastic manner against the current bar.

In particular, the further clamping spring and the further clamping lever can be designed analogously to the clamping lever described above and the clamping spring described above.

In particular, the connection terminal is constructed mirror-symmetrically, allowing two conductors to be connected to be inserted into the connection terminal on both sides in order to enable an electrically conductive connection of the conductors to be connected.

In order to achieve a compact design of the connection terminal, it can be provided that the clamping springs have end sections that rest against one another, wherein the clamping spring, as far as the clamping lever is in the open position, can be tensioned between the driver and the end section of the further clamping spring and the further clamping spring as far as the further clamping lever is in the open position can be clamped between the end section of the clamping spring and a driver of the further clamping lever.

The clamping springs are then mutually supported against one another within the connection terminal, so that compact integration of the clamping springs into the housing of the connection terminal is made possible.

It can further be provided that the clamping levers assigned to the clamping springs also rest against one another in their open position in order to be able to limit a pivoting path of the respective clamping lever in the open position. In order to specify a defined position of the contact leg, it can be provided that the current bar has a shoulder on which the contact leg rests, provided that the clamping lever is arranged in the closed position and no conductor is inserted into the housing in the area of the clamping lever. Because the clamping lever rests on the current bar in the closed position, conductors of different diameters can be inserted between the contact leg and the current bar, the contact leg being able to be moved or displaced away from the current bar by the conductor end by the diameter of the conductor end, and thus that Conductor end can be clamped through the contact leg on the current bar.

The opening between the current bar and the contact leg, which is limited to accommodate the conductor, can accordingly automatically adapt to the diameter of the conductor to be contacted in each case. A conductor can thus be contacted with the current bar and fastened in the connection terminal without the clamping lever having to be moved from its closed position into the open position.

Alternatively, it is possible to move the clamping lever into its open position in order to lift the contact leg from the current bar and thus to facilitate the insertion of a conductor end. In this way, a conductor can first be inserted into the housing without having to displace the clamping leg with the end of the lyre. In this way, deformation of the conductor end when it is inserted into the connection terminal can be avoided. A subsequent pivoting of the clamping lever from its open position into the closed position causes the contact spring to be braced in the direction of the current bar, the conductor end being braced between the clamping leg of the clamping spring and the current bar.

It can be provided that the housing has a plastic or consists of a plastic.

Furthermore, it can be provided that the clamping lever has a handle in order to enable the connection terminal to be actuated without tools and accordingly to enable electrical conductors to be connected and disconnected to and from the connection terminal without the use of tools. It can be provided that the housing has a stop assigned to the clamping lever in order to limit a pivoting path of the clamping lever.

The connection terminal can be designed, for example, as a series terminal, block terminal or potential terminal.

The object according to the invention is also achieved with an electronic device which can have at least one connection terminal which has been developed and further developed as described above.

The invention is explained in more detail below with reference to the attached drawings using exemplary embodiments. They each show schematically:

1A shows a connection terminal according to the invention in a perspective view

View from above;

FIG. 1B shows the connecting terminal from FIG. 1A in a side view in a longitudinal section; FIG.

1C shows a part of the housing of the connection terminal in a perspective view from above;

1 D shows the connection terminal from FIG. 1 A in a side view;

2 shows a clamping spring in a perspective view from above;

3 shows a clamping body in a perspective view from above;

4 shows the connecting terminal from FIG. 1A in a side view in a longitudinal section with conductors and clamping bodies to be clamped in the closed position;

FIG. 5A shows the connection terminal from FIG. 1A in a side view in one

Longitudinal section with conductors and clamp bodies to be clamped in the open position; FIG. 5B shows the connection terminal from FIG. 1A in a side view in a longitudinal section with conductors and clamping bodies to be clamped in the closed position; FIG.

Fig. 6 the clamping body, the clamping springs and the current bar of the

Connection terminal in a side view in a longitudinal section.

A connection terminal 100 for connecting an electrical conductor has a housing 110. A clamping spring 120 and a further clamping spring 130 are arranged in the housing 110. The connection terminal 100 has a clamping lever 140 which is assigned to the clamping spring 120. The connection terminal 100 has a further clamping lever 150, which is assigned to the further clamping spring 130. The connection terminal 100 has a current bar 160.

The clamping spring 120 has a contact leg 121 in order to tension an electrical conductor to be connected in a resiliently elastic manner against the current bar 160. The further clamping spring 130 has a contact leg 131 in order to tension an electrical conductor to be connected in a resiliently elastic manner against the current bar 160.

The clamping lever 140 is fastened to the housing 110, the clamping lever 140 being pivotable about a pivot axis 141 between an open position and a closed position. The clamping lever 140 has a driver 142. A tab 122 of the clamping spring 120 is assigned to the driver 142. The tab 122 is provided on the contact leg 121 of the clamping spring 120.

The further clamping lever 150 is fastened to the housing 110, the further clamping lever 150 being pivotable about a pivot axis 151 between an open position and a closed position. The further clamping lever 150 has a driver 152. A tab 132 of the further clamping spring 130 is assigned to the driver 152. The tab 132 is provided on the contact leg 131 of the further clamping spring 130.

The connection terminal 100 has a mirror-symmetrical structure, the geometry of the clamping spring 120 corresponding to the geometry of the clamping spring 130. Likewise the geometry of the clamping lever 140 corresponds to the geometry of the further clamping lever 150.

The geometry of the clamping springs 120, 130 is described below by way of example using the clamping spring 120 with reference to FIG. 2. Furthermore, the geometry of the clamping levers 140, 150 is described by way of example using the clamping lever 140 with reference to FIG. 3.

Fig. 2 shows the clamping spring 120 taken by itself in a perspective view from above. The tab 122 is formed in one piece with the clamping spring 120 and has been punched out of the contact leg 121 of the clamping spring 120. The contact leg 121 has a through opening 123 corresponding to the dimensions of the punched-out tab 122.

The tab 122 is arranged so as to protrude freely between the contact leg 121 and a retaining leg 124 of the clamping spring 120. The contact leg 121 and the holding leg 124 are connected to one another by a curved connecting section 125.

The through opening 123 serves to position the clamping spring 120 on the housing 110. The housing 110 has a support section 111 which penetrates the through opening 123 of the contact leg 121 and rests on the retaining leg 124 of the clamping spring 120. The clamping spring 120 is a multi-curved band, the band having a constant width B1.

The housing 110 likewise has a support section 112 which penetrates a through opening 133 of the clamping spring 130 and rests on a holding leg 134 of the clamping spring 130. The clamping spring 130 is a multi-curved band, the band having a constant width.

Accordingly, the respective clamping spring 120, 130 can be pushed with its through opening onto the assigned support section 111, 112, so that the respective clamping spring 120, 130 with its contact leg 121, 131 is positively positioned on the housing 110. The end of the support sections 111, 112 of the housing 110 have a curvature or rounding 115, 116 in order to at least partially adapt the shape of the support sections 111, 112 to the different bending radii of the clamping springs 120, 130 to different bracing conditions.

The clamping springs 120, 130 are framed on two sides by the housing 110, so that in particular no lateral openings of the housing are provided for mounting the clamping springs 120, 130 and the clamping springs 120, 130 by being pushed onto the support sections 111, 112 and the associated pushing in can be mounted between two side housing walls 117, 118 of the housing 110 in the housing 110 (FIG. 1C).

1 D shows an example of improper use of the connection terminal 100, wherein a screwdriver 400 is inserted into the connection terminal. The support section 112 can prevent the clamping spring 130 from being deformed or destroyed.

3 shows the clamping lever 140 per se in a perspective view from above. The clamping lever 140 has a handle 143 in order to enable manual actuation of the clamping lever 140 without tools. In the area of the pivot axis 141, the clamping lever 140 has swivel feet 144, 145 which are positively connected to the housing 110 and enable the clamping lever 140 to be rotatably supported on the housing 110. The clamping lever 140 also has a stop surface 146 and a further stop surface 147.

As far as the clamping lever 140 is in the closed position, as can be seen in FIG. 1B, in FIG. 4, in FIG. 5B and in FIG. 6, the driver 142 is at a distance A from the tab 122. As far as the clamping lever 140 is in the open position, as shown in FIG. 5A, the driver 142 rests against the tab 122.

Pivoting the clamping lever 140 from the closed position into the open position causes a distance between the current bar 160 and the contact leg 121 to increase, the clamping spring 120 being tensioned between the driver 142 and a stop 136. The stop 136 is part of the clamping spring 130 and forms an end section 136 of the clamping spring 130. Likewise, an end section 126 of the clamping spring 120 forms a stop for the clamping spring 130.

The clamping springs 120, 130 accordingly have end sections 126, 136 that bear against one another, the clamping spring 120, as far as the clamping lever 140 is in the open position, being tensioned between the driver 142 and the end section 136 of the further clamping spring 130, and the further clamping spring 130, as far as the further clamping lever 150 is in the open position, is clamped between the end section 126 of the clamping spring 120 and the driver 152 of the further clamping lever 150. The clamping springs 120, 130 are thus supported against one another in abutment at the ends.

The current bar 160 has a shoulder 161 on which the contact leg 121 rests, provided that the clamping lever 140 is arranged in the closed position and no conductor is inserted into the housing 110 in the area of the clamping lever 140. The current bar 160 has a further shoulder 162 on which the contact leg 131 rests as long as the clamping lever 150 is arranged in the closed position and no conductor is inserted into the housing 110 in the area of the clamping lever 150 (FIG. 1B).

To establish an electrically conductive connection between two electrical conductors 200, 300, the conductors 200, 300 can be pushed into the connection terminal 100 while the clamping levers 140, 150 are in their open position (cf. FIG. 4). Accordingly, the electrical conductor 200 is inserted with an end section 210 into an opening 113 of the housing 110 of the connecting terminal 100.

The end section 210 displaces the clamping limb 121 of the clamping spring 120, so that the end section 210 is tensioned between the clamping limb 121 and the current bar 160 due to the spring force of the clamping spring 120. The end section 126 of the clamping spring 120 forms a stop for the end section 210 of the conductor 200.

Likewise, an end section 310 of the conductor 300 can be inserted into an opening 114 of the housing 110 in order to be tensioned between the clamping leg 131 of the clamping spring 130 and the current bar 160. Accordingly, an electrically conductive connection is established between the conductors 200, 300 via the electrically conductive current bar 160. Both the clamping legs 121, 131 and the shoulders 161, 162 of the current bar 160, in conjunction with the clamping force of the springs 120, 130, counteract a pulling out of the conductors 200, 300 from the connection terminal 100. FIG. 5B shows a state in which both conductors 200, 300 are clamped with their end sections 210, 310 within the connecting terminal 100.

Alternatively, the clamping levers 140, 150 can be opened before a conductor 200, 300 is inserted, as shown by way of example in FIG. 5A. As soon as the conductor ends 210, 310 are positioned in the respective housing openings 113, 114, the clamping levers 140, 150 are pivoted back from the open position shown in FIG. 5A into the closed position shown in FIG to contact one another via the current bar 160.

In order to limit the pivoting path in the open position shown in FIG. 5A, the clamping lever 140 rests with its stop surface 147 on the housing 110. Likewise, the clamping lever 150 rests against the housing 110 with a stop surface 157. In addition, the stop surface 146 of the clamping lever 140 is supported on a stop surface 156 of the clamping lever 150.

In order to further clarify the functioning of the clamping mechanism of the connection terminal 100 formed from the clamping levers 140, 150, the assigned clamping springs 120, 130 and the current bar 160, these components are shown separately in FIG. 6, the clamping lever 140 being shown in the closed position and the clamp lever 150 is shown in the open position.

It can be seen that the driver 142 is spaced apart from the tab 122 according to the closed position of the clamping lever 140, and pivoting, as shown by way of example for the clamping spring 130 and the clamping lever 150 in the open position, causes the spring 130 to be tensioned.

It can also be seen that the respective clamping leg 121, 131 is moved away from the current bar 160 as soon as a clamping lever 140, 150 is pivoted the respective driver 142, 152 comes into contact with the associated tab 122, 132 when the respective clamping lever 140, 150 is pivoted from the closed position into the open position.

List of reference symbols

100 connection terminal

110 housing

111 support section

112 support section

113 opening

114 opening

115 rounding

116 rounding

117 Side housing wall

118 side housing wall

120 spring clip

121 contact legs

122 tab

123 through opening

124 retaining leg

125 connecting section

126 end section

130 spring clip

131 contact legs

132 tab

133 through opening

134 retaining leg 136 end section

140 clamping lever

141 pivot axis

142 carriers

143 handle

144 swivel base

145 swivel base

146 stop surface

147 stop surface

150 clamping levers

151 swivel axis 152 carriers

156 stop surface

157 stop surface 160 current bar

161 stop

162 stop

200 ladder 210 end section

300 head 310 end section 400 screwdriver

A distance

B1 width

Claims

Expectations

1. Connection terminal (100) for connecting an electrical conductor, with a housing (110), with a clamping spring (120) arranged in the housing (110), with a current bar (160) and with a clamping lever (140), the clamping spring (120) has a contact leg (121) in order to tension an electrical conductor to be connected resiliently against the current bar (160), the clamping lever (140) being attached to the housing (110), the clamping lever (140) between an open position and a closed position is pivotable about a pivot axis (141), the clamping lever (140) having a driver (142), the driver (142) being assigned a tab (122) of the clamping spring (120) which is attached to the contact leg (121 ) the clamping spring (120) is provided.

2. Connection terminal (100) according to claim 1, characterized in that the tab (122) is formed integrally with the clamping spring (120) and is punched out of the contact leg (121) of the clamping spring (120), the contact leg (121) having a has a through opening (123) substantially corresponding to the dimensions of the punched-out tab (122).

3. Connection terminal (100) according to claim 1 or 2, characterized in that the tab (122) is freely cantilevered between the contact leg (121) and a retaining leg (124) of the clamping spring (120), wherein the contact leg (121) and the holding legs (124) are connected to one another by a curved connecting section (125).

4. Terminal (100) according to claim 2 and 3, characterized in that the housing (110) has a support section (111) which penetrates the through opening (123) of the contact leg (121) and on the holding leg (124) of the clamping spring ( 120) is present.

5. Connection terminal (100) according to one of the preceding claims, characterized in that the clamping spring (120) is a multi-curved band, the band having a constant width (B1).

6. Connection terminal (100) according to one of the preceding claims, characterized in that the driver (142) is at a distance from the tab (122) when the clamping lever (140) is in the closed position, and that the driver (142) on the tab (122) when the clamping lever (140) is in the open position.

7. Connection terminal (100) according to one of the preceding claims, characterized in that pivoting of the clamping lever (140) from the

Closing position into the open position causes a distance between the current bar (160) and the contact leg (121) to increase, the clamping spring (120) being tensioned between the driver (142) and a stop.

8. Connection terminal (100) according to one of the preceding claims, characterized in that a further clamping spring (130) with a further

Clamping lever (150) is provided in order to clamp a further electrical conductor to be connected in a resilient manner against the current bar (160).

9. Connection terminal (100) according to claim 7 and claim 8, characterized in that the clamping springs (120, 130) have end sections (126, 136) which bear against one another, the clamping spring (120) as far as the clamping lever (140) is is in the open position, between the driver (142) and the end section (136) of the further clamping spring (130) is clamped, and the further clamping spring (130), as far as the further clamping lever (150) is in an open position, between the end section (126) of the clamping spring and a driver (152) of the further clamping lever (150) is clamped.

10. Terminal (100) according to one of the preceding claims, characterized in that the current bar (160) has a shoulder (161) on which the contact leg (121) rests, provided that the clamping lever (140) is arranged in the closed position and no Head in the area of the clamping lever (140) is inserted into the housing (110).

11. Electronic device, with at least one connection terminal (100) according to one of claims 1 to 10.