CN113054476A

CN113054476A - Cable connector and manufacturing method

Info

Publication number: CN113054476A
Application number: CN202110303197.6A
Authority: CN
Inventors: 徐耀志; 徐耀立
Original assignee: Liangang Optoelectronic Technology Co ltd
Current assignee: Liangang Optoelectronic Technology Co ltd
Priority date: 2021-03-22
Filing date: 2021-03-22
Publication date: 2021-06-29
Anticipated expiration: 2041-03-22
Also published as: CN113054476B

Abstract

The invention discloses a cable connector, which comprises a protective shell, a connecting seat arranged in the protective shell and a cable matching seat, wherein one end of the cable matching seat is electrically connected with a transmission cable; a plurality of conductive terminals are fixed on the connecting seat, one end of each conductive terminal is fixedly provided with an output welding seat and is hinged with the other end of the cable matching seat, and the other end of each conductive terminal is used for being spliced with equipment to be connected and is clamped with the protective shell through a locking structure; the cable matching seat comprises a manual adjusting base connected with the connecting seat and a plurality of conductive cable groups electrically connected with the output welding seat; the manual adjusting base is provided with a plurality of distributing groove chambers, and each conductive cable group is located in one distributing groove chamber. The invention provides a cable connector and a manufacturing method thereof, wherein a transmission cable and the cable connector can relatively rotate so as to solve the problem that the transmission cable is easy to be broken or broken when the cable connector is inserted into a position with a narrow space.

Description

Cable connector and manufacturing method

Technical Field

The present invention relates to a cable connector, and more particularly, to a cable connector and a method for manufacturing the same.

Background

The Mini-USB cable connector is a common USB (universal serial bus) cable connector, and is widely used for connection and communication between various electronic devices. Mini-USB cable connectors are commonly used to make electrical connections between transmission cables and devices to be connected. Specifically, a cable connector generally includes a dielectric body and one or more conductive terminals disposed in the dielectric body. One end of the transmission cable is electrically connected with the conductive terminals in the cable connector, and the other end of the transmission cable is led out of the cable connector.

In the prior art, an outer insulation sheath of a transmission cable is generally integrally injection-molded with an insulation body of a cable connector to realize relative fixation of the transmission cable and the cable connector, so that the cable cannot rotate relative to the cable connector, when the cable connector is inserted into a narrow space, the transmission cable must be bent by 90 degrees, and repeated bending easily causes defects such as damage of the insulation sheath of the cable, breakage of a core wire and the like, and has great potential safety hazard.

Disclosure of Invention

Therefore, the invention provides a cable connector and a manufacturing method thereof, wherein a transmission cable and the cable connector can relatively rotate so as to solve the problem that the transmission cable is easy to be broken or broken when the cable connector is inserted into a position with a narrow space.

In order to solve the technical problems, the invention specifically provides the following technical scheme: a cable connector comprises a protective shell, a connecting seat arranged in the protective shell and a cable matching seat with one end electrically connected with a transmission cable;

a plurality of conductive terminals are fixed on the connecting seat, one end of each conductive terminal is fixedly provided with an output welding seat and is hinged with the other end of the cable matching seat, and the other end of each conductive terminal is used for being spliced with equipment to be connected and is clamped with the protective shell through a locking structure;

the cable matching seat comprises a manual adjusting base connected with the connecting seat and a plurality of conductive cable groups electrically connected with the output welding seat;

the manual adjusting base is provided with a plurality of distributing groove chambers, and each conductive cable group is located in one distributing groove chamber.

Optionally, the connecting seat comprises a U-shaped fixing seat, and a plurality of separated line fixing walls arranged at intervals are arranged in the U-shaped fixing seat; every two adjacent branching fixed walls form a branching slot chamber;

the manual adjusting base comprises a U-shaped partition plate, a plurality of branching pull-in walls which correspond to the branching slot chambers one by one are arranged on the U-shaped partition plate, and each branching pull-in wall is used for jacking one conducting cable group into the corresponding branching slot chamber;

and the U-shaped partition plate is provided with a branching hole for the conductive cable group to pass through at a position corresponding to each branching groove chamber.

Optionally, a sliding plate and a fixing column fixed at one end of the sliding plate close to the U-shaped partition plate are arranged on the inner side of the U-shaped fixing seat;

adjusting plates are connected to two sides of one end, close to the connecting seat, of the U-shaped partition plate;

the adjusting plate is provided with a step structure with a height difference, and a wider part of the step structure is arranged at one end, close to the U-shaped partition plate, of the adjusting plate; the wide part of the adjusting plate is provided with an adjusting elongated slot for the sliding connection of the sliding plate and the fixing column; the narrower part of the adjusting plate is hinged with the fixing column.

Optionally, one end of the conductive cable group penetrates through the wire distributing hole to be connected to the output welding seat, the other end of the conductive cable group is connected to the input welding seat, the input welding seat is installed in the U-shaped partition plate, the middle of the conductive cable group is fixed in the wire distributing hole, the input welding seat is fixedly arranged on the manual adjusting base, and the input welding seat is welded with the transmission cable.

Optionally, the protection housing includes an output shell disposed outside the connection seat and an input shell disposed outside the cable matching seat, the output shell includes a first protection shell and a second protection shell correspondingly fastened to the first protection shell, the first protection shell includes an insertion output portion located at an output end and a cable transmission portion located behind the insertion output portion, and the connection seat is connected to an inner wall of the cable transmission portion through the locking structure;

the bottom of the cable transmission part is hollow.

Optionally, the locking structure comprises two fixing groove seats fixed on the side wall of the cable transmission part, a limiting groove is formed in each fixing groove seat, and elastic buckling pieces installed in the limiting groove are arranged on two sides of the end part of each connecting seat.

Optionally, the input shell includes the fixed mounting and is in the cable protective housing of cable cooperation seat bottom, be close to on the cable protective housing transmission cable one end be provided with right the transmission cable carries out the fastener fixed, cable cooperation seat top cup joints the cell body shell, the cell body shell is close to connecting seat one end be provided with the soft contact piece that meets on the inside top of second protective housing.

Optionally, an inner fastening groove is formed in the inner side wall of the cable transmission portion, a fastening hole penetrates through the inner fastening groove, an outer fastening groove is formed in the outer side wall of the U-shaped fixing seat, and a fastening element is arranged on the second protective shell.

Optionally, the fastening element includes convex strips respectively disposed on the inner side and the outer side of the second protective shell, two ends of each convex strip are slidably clamped between the inner fastening groove and the outer fastening groove, a fastening block fastened to the fastening hole is disposed on the outer side of each convex strip, and a fixing plate abutting against the elastic fastening plate is disposed on the top of the second protective shell near the insertion output portion.

In another aspect, a method for manufacturing any of the cable connectors is provided, including the steps of:

step 1: welding the transmission cable on the input welding seat;

step 2: clamping and mounting the connecting seat in the first protective shell;

and step 3: assembling a second protective shell between the first protective shell and the U-shaped fixed seat;

and 4, step 4: the soft connecting piece is connected into the second protective shell in a clamping mode, and the groove body shell is sleeved outside the cable protective shell;

and 5: the transmission cable is fixed using a wire clamp.

Compared with the prior art, the invention has the following beneficial effects:

according to the invention, the cable matching seat capable of adjusting the angle is arranged between the connecting seat and the transmission cable, so that the angle change of the transmission cable and the output cable is realized; furthermore, the connecting seat and the cable matching seat are electrically connected through the conductive cable group, and the conductive cable group belongs to a flexible conductive part, so that the connecting seat and the cable matching seat can be electrically connected, and the connecting seat can be adaptively deformed according to the rotation angle of the cable matching seat without being damaged; moreover, each connecting wire is positioned in a branching slot chamber to separate the connecting wires, so that the possibility of winding among different connecting wires is avoided, and the reliability of the cable matching seat is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

Fig. 1 is a schematic structural diagram of a cable connector according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a connection seat according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a cable seat according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of a distribution chamber according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a first protective casing according to an embodiment of the present invention;

FIG. 6 is a schematic structural diagram of a fixing groove seat and a limiting groove provided in an embodiment of the present invention;

fig. 7 is a schematic structural view of a second protective shell according to an embodiment of the present invention.

The reference numerals in the drawings denote the following, respectively:

1-a protective housing;

11-an output housing; 111-a first protective shell; 1111-plug output end; 1112-a cable transmission end; 112-a second protective shell;

12-an input housing; 121-cable protective housing; 122-a wire clamp; 123-cell body shell; 124-soft tab;

13-outer snap groove;

14-a fastening element; 141-convex strips; 142-a fastening block; 143-fixing the plate;

2-a transmission cable;

3-a connecting seat; 31-a slide plate; 32-fixed columns;

4-conductive terminals;

5-outputting a welding seat;

6-a locking structure; 61-fixing the groove seat; 62-a limit groove; 63-elastic buckle pieces;

7-a cable mating seat; 71-manually adjusting the base; 72-conductive cable set; 73-a distribution chamber; 731-branching fixed wall; 732-U-shaped divider plate; 733-branching and drawing the wall; 734-wire distribution holes; 735-adjusting plate; 736-adjusting the elongated slot; 74-input solder mount;

8-U-shaped fixing seats;

9-inner snap groove;

10-fastening holes.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 7, the present invention provides a cable connector, which includes a protection housing 1, a connecting seat 3 disposed in the protection housing 1, and a cable mating seat 7 having one end electrically connected to a transmission cable 2;

a plurality of conductive terminals 4 are fixed on the connecting seat 3, one end of each conductive terminal 4 is fixedly provided with an output welding seat 5 and is hinged with the other end of the cable matching seat 7, and the other end of each conductive terminal is used for being inserted into equipment to be connected and is clamped with the protective shell 1 through a locking structure 6;

the cable matching seat 7 comprises a manual adjusting base 71 connected with the connecting seat 3 and a plurality of conducting cable groups 72 electrically connected with the output welding seat 5;

the manual adjustment base 71 is provided with a plurality of distributing slot chambers 73, and each conductive cable group 72 is located in one of the distributing slot chambers 73.

As shown in fig. 2 and 3, the connecting seat 3 includes a U-shaped fixing seat 8, and a plurality of line-dividing fixing walls 731 arranged at intervals are arranged in the U-shaped fixing seat 8; every two adjacent branching fixing walls 731 form a branching slot chamber 73;

the manual adjustment base 71 comprises a U-shaped partition plate 732, a plurality of branching pull-in walls 733 corresponding to the branching slot chambers 73 one by one are arranged on the U-shaped partition plate 732, and each branching pull-in wall 733 is used for ejecting one conductive cable group 72 into the corresponding branching slot chamber 73;

a branch hole 734 for the conductive cable set 72 to pass through is formed on the U-shaped partition 732 corresponding to each branch slot chamber 73.

A sliding plate 31 and a fixing column 32 fixed at one end of the sliding plate 31 close to the U-shaped partition plate 732 are arranged on the inner side of the U-shaped fixed seat 8;

an adjusting plate 735 is connected to two sides of one end of the U-shaped partition plate 732, which is close to the connecting seat 3;

the adjusting plate 735 is provided with a step structure having a height difference, and a wider portion of the step structure is provided at one end of the adjusting plate 735 close to the U-shaped partition plate 732; an adjusting long groove 736 for slidably connecting the sliding plate 31 and the fixing column 32 is formed in a wider part of the adjusting plate 735; the narrower portion of the adjustment plate 735 is hinged to the fixed post 32.

One end of the conductive cable group 72 penetrates through the wire dividing hole 734 to be connected to the output welding seat 5, the other end of the conductive cable group 72 is connected to the input welding seat 74, the input welding seat 74 is installed in the U-shaped partition plate 732, the middle of the conductive cable group 72 is fixed in the wire dividing hole 734, the input welding seat 74 is fixedly arranged on the manual adjusting base 71, and the input welding seat 74 is welded with the transmission cable 2.

As shown in fig. 4, when the cable fitting seat 7 needs to rotate, the cable fitting seat 7 first slides along the adjusting elongated slot 736 to the limit position in a direction away from the connecting seat 3, at this time, the sliding plate 31 is separated from the adjusting elongated slot 736, and the fixing column 32 enters the narrower portion of the adjusting plate 735, so that the relative rotation of the cable fitting seat 7 and the connecting seat 3 around the fixing column can be realized. During the sliding process, as the distribution pulling wall 733 slides away from the distribution chamber 73, the cable harness 72 is also pulled out from the distribution chamber 73. On the contrary, when the cable fitting seat 7 does not need to be rotated, the cable fitting seat 7 is firstly slid reversely to the limit position along the adjusting elongated slot 736 in the direction close to the connecting seat 3, at this time, the sliding plate 31 is inserted into the adjusting elongated slot 736, and the cable fitting seat 7 and the connecting seat 3 cannot be rotated relatively. In the sliding process, as the branching pull-on wall 733 is inserted into the branching slot chamber 73, the conductive cable group 72 is also pushed into the branching slot chamber 73 from the branched pull-on wall 733, and the storage work of the conductive cable group 72 is completed.

In order to protect the connection socket 3 and the cable matching socket 7, as shown in fig. 5, the protection housing 1 includes an output shell 11 disposed outside the connection socket 3 and an input shell 12 disposed outside the cable matching socket 7, the output shell 11 includes a first protection shell 111 and a second protection shell 112 correspondingly buckled with the first protection shell 111, the first protection shell 111 includes a plugging output portion 1111 located at an output end and a cable transmission portion 1112 located at a rear side of the plugging output portion 1111, and the connection socket 3 is connected to an inner wall of the cable transmission portion 1112 through a locking structure 6; the bottom of the cable transmission part 1112 may stop the cable fitting seat 7 during the rotation of the cable fitting seat 7, so in the present invention, the bottom of the cable transmission part 1112 is hollow, and the cable fitting seat 7 is prevented from being blocked during the rotation.

As shown in fig. 6, the locking structure 6 includes two fixing slot seats 61 fixed on the side walls of the cable transmission part 1112, a limiting slot 62 is formed in each fixing slot seat 61, elastic fastening pieces 63 installed into the limiting slots 62 are disposed on both sides of the end portion of the connecting base 3, when the connecting base is installed, the elastic fastening pieces 63 on the connecting base 3 are slidably fastened into the limiting slots 62, and in order that the elastic fastening pieces 63 can be smoothly and completely fastened into the limiting slots 62, the side surfaces of the turning positions of the limiting slots 62 are set to be arc surfaces.

The input shell 12 comprises a cable protection shell 121 fixedly installed at the bottom of the cable matching seat 7, a cable clamp 122 for fixing the transmission cable 2 is arranged on the cable protection shell 121 close to one end of the transmission cable 2, a groove body shell 123 is sleeved above the cable matching seat 7, and a soft contact piece 124 connected with the top end inside the second protection shell 112 is arranged at one end, close to the connecting seat 3, of the groove body shell 123.

The input shell 12 moves along with the movement of the cable matching seat 7, when the cable connector is installed, the cable connector is preferably arranged on the surface close to the input and output cables, when the cable matching seat 7 rotates, the cable connector basically only needs to rotate downwards by 0-90 degrees, the soft connecting piece 124 is connected with the inner top of the first protective shell 112, and certain buffer force is applied in the rotating process.

In order to connect the first protective shell 111, the second protective shell 112 and the connecting seat 3 together, the inner side wall of the cable transmission portion 1112 is provided with an inner fastening groove 9, a fastening hole 10 is arranged in the inner fastening groove 9 in a penetrating manner, the outer side wall of the U-shaped fixing seat 8 is provided with an outer fastening groove 13, and the second protective shell 112 is provided with a fastening element 14. As shown in fig. 7, the fastening element 14 includes a protruding strip 141 respectively disposed on the inner side and the outer side of the second protective shell 112, two ends of the protruding strip 141 are slidably connected between the inner fastening groove 9 and the outer fastening groove 13, a fastening block 142 fastened to the fastening hole 10 is disposed on the outer side of the protruding strip 141, and a fixing plate 143 abutting against the elastic fastening piece 63 is disposed on the top portion of the second protective shell 112 near the insertion output portion 1111.

When the installation, earlier in connecting seat 3 sliding connection first protection casing 111, insert second protection casing 112 sliding card between first protection casing 111 and connecting seat 3 again, the in-process of sliding connection, fixed plate 143 just fixes elasticity cramp 63, avoids rocking at elasticity cramp 63 and causes the insecure of connecting seat 3.

The manufacturing method and the principle of the cable connector provided by the invention are as follows:

step 1: soldering the transmission cables 2 one by one on the input soldering lands 74 so that the transmission cable 2 is electrically connected with the input soldering lands 74;

step 2: the connecting seat 3 is clamped and installed in the first protection shell 111, the conductive terminal 4 in the connecting seat 3 is an output end, and the connecting seat 3 is installed in the first protection shell 111 for protection;

the output welding seat 5 and the conductive terminal 4 in the connecting seat 3 are connected by wires, as another embodiment of the invention, a lead can be embedded in the connecting seat 3 to connect the conductive terminal 4 with the output welding seat 5;

and step 3: assembling the second protective shell 112 between the first protective shell 111 and the U-shaped fixed seat 8 by using the buckling element 14, and respectively clamping the buckling element 14 into the inner buckling groove 9 and the outer buckling groove 13 to complete the installation of the first protective shell 111, the second protective shell 112 and the connecting seat 3;

and 4, step 4: the cable matching seat 7 and the cable protection shell 121 are connected to the connecting seat 3 through the conductive cable group 72, the soft connecting piece 124 is clamped into the second protection shell 112, the slot body shell 123 is sleeved and installed outside the cable protection shell 121, and installation of the slot body shell 123 is completed.

And 5: use fastener 122 to fix transmission cable 2, connecting end portion can set up the magic subsides in fastener 122, connects fastener 122 both ends and fixes transmission cable 2.

The input current path of the transmission cable 2 in the present invention is that the input current is input from the transmission cable 2, transmitted to the input soldering socket 74, transmitted to the output soldering socket 5 through the conductive cable group 72, and then transmitted to the conductive terminal 4, where the conductive terminal 4 is the output terminal, and the current is output from the conductive terminal 4.

When the angle of the device needs to be adjusted, the groove body shell 123 is pulled outwards to pull out the cable matching seat 7 along the belt, the end part of the adjusting long groove 736 is hung on the fixing column 32, and the adjusting plate 735 can rotate around the fixing column 32 at the moment.

The above embodiments are only exemplary embodiments of the present application, and are not intended to limit the present application, and the protection scope of the present application is defined by the claims. Various modifications and equivalents may be made by those skilled in the art within the spirit and scope of the present application and such modifications and equivalents should also be considered to be within the scope of the present application.

Claims

1. A cable connector is characterized by comprising a protective shell (1), a connecting seat (3) arranged in the protective shell (1) and a cable matching seat (7) with one end electrically connected with a transmission cable (2);

a plurality of conductive terminals (4) are fixed on the connecting seat (3), one end of each conductive terminal (4) is fixedly provided with an output welding seat (5) and is hinged with the other end of the cable matching seat (7), and the other end of each conductive terminal is used for being spliced with equipment to be connected and is clamped with the protective shell (1) through a locking structure (6);

the cable matching seat (7) comprises a manual adjusting base (71) connected with the connecting seat (3) and a plurality of conductive cable groups (72) electrically connected with the output welding seat (5);

the manual adjusting base (71) is provided with a plurality of distributing groove chambers (73), and each conducting cable group (72) is located in one distributing groove chamber (73).

2. A cable connector according to claim 1, wherein the connecting seat (3) comprises a U-shaped fixing seat (8), and a plurality of spaced-apart parting fixing walls (731) are arranged in the U-shaped fixing seat (8); every two adjacent branching fixed walls (731) form a branching slot chamber (73);

the manual adjusting base (71) comprises a U-shaped partition plate (732), a plurality of branching and pulling-up walls (733) which correspond to the branching slot chambers (73) one by one are arranged on the U-shaped partition plate (732), and each branching and pulling-up wall (733) is used for jacking one conductive cable group (72) into the corresponding branching slot chamber (73);

a branch hole (734) for the conductive cable group (72) to pass through is arranged at the position, corresponding to each branch slot chamber (73), of the U-shaped partition plate (732).

3. A cable connector according to claim 2, wherein the inside of the U-shaped fixing seat (8) is provided with a sliding plate (31) and a fixing post (32) fixed to one end of the sliding plate (31) close to the U-shaped partition plate (732);

two sides of one end of the U-shaped partition plate (732) close to the connecting seat (3) are connected with adjusting plates (735);

the adjusting plate (735) is provided with a step structure with a height difference, and a wider part of the step structure is arranged at one end, close to the U-shaped partition plate (732), of the adjusting plate (735); the wider part of the adjusting plate (735) is provided with an adjusting long groove (736) for the sliding connection between the sliding plate (31) and the fixing column (32); the narrower part of the adjusting plate (735) is hinged with the fixing column (32).

4. A cable connector according to claim 3, wherein one end of the conductive cable assembly (72) is connected to the output soldering socket (5) through the wire distributing hole (734) and the other end is connected to the input soldering socket (74), the input soldering socket (74) is installed in the U-shaped partition plate (732), the middle part of the conductive cable assembly (72) is fixed in the wire distributing hole (734), the input soldering socket (74) is fixedly arranged on the manual adjustment base (71), and the input soldering socket (74) is soldered to the transmission cable (2).

5. A cable connector according to claim 4, wherein the protective housing (1) comprises an output shell (11) disposed outside the connecting socket (3) and an input shell (12) disposed outside the cable fitting socket (7), the output shell (11) comprises a first protective shell (111) and a second protective shell (112) correspondingly buckled with the first protective shell (111), the first protective shell (111) comprises a plugging output portion (1111) at the output end and a cable transmission portion (1112) at the rear side of the plugging output portion (1111), the connecting socket (3) is connected to the inner wall of the cable transmission portion (1112) through the locking structure (6);

the bottom of the cable transmission part (1112) is hollow.

6. A cable connector according to claim 5, wherein the locking structure (6) comprises two fixing groove seats (61) fixed on the side walls of the cable transmission part (1112), a limiting groove (62) is formed in the fixing groove seat (61), and elastic buckling pieces (63) arranged in the limiting groove (62) are arranged on two sides of the end part of the connecting seat (3).

7. The cable connector according to claim 6, wherein the input shell (12) includes a cable protection shell (121) fixedly mounted at the bottom of the cable fitting seat (7), a cable clamp (122) for fixing the transmission cable (2) is disposed at one end of the cable protection shell (121) close to the transmission cable (2), a slot shell (123) is sleeved above the cable fitting seat (7), and a flexible connecting piece (124) connected with the top end of the inside of the second protection shell (112) is disposed at one end of the slot shell (123) close to the fitting seat (3).

8. The cable connector according to claim 7, wherein an inner side wall of the cable transmission portion (1112) is provided with an inner engaging groove (9) and a engaging hole (10) is formed through the inner engaging groove (9), an outer side wall of the U-shaped fixing base (8) is provided with an outer engaging groove (13), and the second protective shell (112) is provided with an engaging element (14).

9. The cable connector according to claim 8, wherein the engaging element (14) comprises a protruding strip (141) respectively disposed on the inner side and the outer side of the second protective shell (112), two ends of the protruding strip (141) are slidably engaged between the inner engaging groove (9) and the outer engaging groove (13), a engaging block (142) engaged with the engaging hole (10) is disposed on the outer side of the protruding strip (141), and a fixing plate (143) abutting against the elastic engaging piece (63) is disposed on the inner top of the second protective shell (112) near the inserting output portion (1111).

10. A method for making a cable connector according to any one of claims 1 to 9, comprising the steps of:

step 1: welding the transmission cable (2) on the input welding seat (74);

step 2: clamping and mounting the connecting seat (3) into the first protective shell (111);

and step 3: assembling a second protective shell (112) between the first protective shell (111) and the U-shaped fixed seat (8);

and 4, step 4: the soft connecting piece (124) is clamped into the second protective shell (112), and the groove shell (123) is sleeved outside the cable protective shell (121);

and 5: the transmission cable (2) is fixed by using a wire clamp (122).