Looping bridge for looping through a number of electrical signals

1 . A looping bridge for looping a number of electric signals from a first electric module having a number of first electric terminals to a second electric module having a number of second electric terminals, said looping bridge comprising: a comb-shaped interconnect structure having a number of first comb teeth and a number of second comb teeth, wherein the first comb teeth can be inserted into the first electric terminals and the second comb teeth can be inserted into the second electric terminals, and wherein the first comb teeth are electroconductively connected to the second comb teeth; wherein the comb-shaped interconnect structure is formed by a comb-shaped circuit board, wherein the comb-shaped circuit board has a plurality of circuit board layers, and an electric line for configured to electrically connect one of the first comb teeth with one of the second comb teeth is positioned between every two successive circuit board layers. 2 . The looping bridge according to claim 1 , wherein the first comb teeth are electroconductively connected in pairs to the second comb teeth, wherein each one of the first comb teeth is electroconductively connected to one of the second comb teeth. 3 . The looping bridge according to claim 1 , wherein the comb teeth are rectangular or rounded. 4 . The looping bridge according to claim 1 , wherein each of the comb teeth has an electric contact surface for contacting an electric terminal. 5 . The looping bridge according to claim 1 , wherein: adjoining ones of the first comb teeth are spaced from one another by a first recess configured to receive a housing crosspiece of the first electric module between two adjoining ones of the first electric terminals; and adjoining ones of the second comb teeth are spaced from one another by a second recess configured to receive a housing crosspiece of the second electric module between two adjoining ones of the second electrical terminals. 6 . The looping bridge according to claim 1 , wherein the first comb teeth are electrically insulated relative to one another and the second comb teeth are electrically insulated relative to one another. 7 . The looping bridge according to claim 1 , wherein the comb-shaped circuit board has a flexible circuit board section, which flexibly connects a first circuit board section to a second circuit board section, wherein the first circuit board section comprises the first comb teeth, and the second circuit board section comprises the second comb teeth. 8 . The looping bridge according to claim 7 , wherein the flexible circuit board section is compression molded to the first circuit board section and the second circuit board section. 9 . The looping bridge according to claim 7 , wherein the flexible circuit board section is S-shaped or U-shaped. 10 . The looping bridge according to claim 1 , further comprising an additional comb-shaped interconnect structure having additional comb teeth, wherein at least a portion of the additional comb-shaped interconnect structure is configured to be placed on top of the comb-shaped interconnect structure to electrically connect comb teeth of the comb-shaped interconnect structure with comb teeth of the additional comb-shaped interconnect structure in pairs. 11 . The looping bridge according to claim 10 , wherein each of the comb teeth has a first electric contact surface on an upper side and a second electric contact surface on a lower side. 12 . The looping bridge according to claim 1 , wherein the electric signals are phase signals of a polyphase signal. 13 . A connector assembly for looping through a number of electric signals, comprising: a first electric module comprising a first terminal block having a number of first electric terminals; a second electric module comprising a second terminal block having a number of second electric terminals; and a looping bridge a comb-shaped interconnect structure having a number of first comb teeth and a number of second comb teeth; wherein the first comb teeth are electroconductively connected to the second comb teeth; wherein the comb-shaped interconnect structure is formed by a comb-shaped circuit board, the comb-shaped circuit board has a plurality of circuit board layers, and an electric line configured to electrically connect one of the first comb teeth with one of the second comb teeth is positioned between every two successive circuit board layers; and wherein the first comb teeth are inserted into the first electric terminals and the second comb teeth are inserted into the second electric terminals, thereby electroconductively connecting the first electric terminals with the second electric terminals in pairs, so that in each case, one of the first electric terminals is electroconductively connected to one of the second electric terminals. 14 . The connector assembly of claim 13 , wherein the first comb teeth are electroconductively connected in pairs to the second comb teeth, wherein each one of the first comb teeth is electroconductively connected to one of the second comb teeth. 15 . The connector assembly of claim 13 , wherein each of the comb teeth has an electric contact surface for contacting an electrical terminal. 16 . The connector assembly of claim 13 , wherein: adjoining ones of the first comb teeth are spaced from another by a first recess configured to receive a housing crosspiece of the first electric module between two adjoining ones of the first electrical terminals; and adjoining ones of the second comb teeth are spaced from one another by a second recess configured to receive a housing crosspiece of the second electric module between two adjoining ones of the second electrical terminals. 17 . The connector assembly of claim 13 , wherein the first comb teeth are electrically insulated relative to one another and the second comb teeth are electrically insulated relative to one another. 18 . The connector assembly of claim 13 , wherein the comb-shaped circuit board has a flexible circuit board section which flexibly connects a first circuit board section to a second board section, wherein the first circuit board section comprises the first comb teeth and the second circuit board section comprises the second comb teeth. 19 . The connector assembly of claim 18 , wherein the flexible circuit board section is compression molded to the first circuit board section and the second circuit board section. 20 . The connector assembly of claim 18 , further comprising an additional comb-shaped interconnect structure having additional comb teeth, wherein at least a portion of the additional comb-shaped interconnect structure is configured to be placed on top of the comb-shaped interconnect structure to electrically connect comb teeth of the comb-shaped interconnect structure with comb teeth of the additional comb-shaped interconnect structure in pairs.