CN117878805B - Adjustable cable installation line frame assembly - Google Patents

Abstract

The invention discloses an adjustable cable installation wire frame assembly, which comprises a wire frame foundation, a rotating shaft assembly and an adjustable wire clamp, wherein the wire frame foundation is installed on an operation plane; the rotating shaft assembly comprises a bearing, a rotating mandrel and a driving worm; the adjustable wire clamp is provided with at least two wire clamps, and the adjustable wire clamp comprises a wire clamp shell, a temporary clamp, a stable clamp and a transmission assembly. According to the adjustable cable installation line frame assembly, cables with different diameters can be clamped through the adjustable line clamp, and the temporary clamping and the stable clamping are provided, so that two clamping modes of temporary clamping and long-term stable clamping are realized.

Description

Adjustable cable installation line frame assembly

Technical Field

The application relates to the technical field of machinery, in particular to an adjustable cable installation line frame assembly.

Background

Cable racks are devices used to support and secure cables, and are commonly used in the fields of power, communications, networking, and the like. It can help manage and organize the cables, prevent them from tangling and confusing, and also facilitate maintenance and repair work. Cable racks are typically made of metal or plastic and have a certain load-bearing capacity and durability, and different specifications and types of cable racks can be selected according to specific requirements. The cable racks are of various kinds and are classified according to installation positions, and mainly comprise wall-mounted cable racks, desk-top cable racks, hanging cable racks, floor cable trunking and the like.

When the cable is gradually installed on a plurality of wire frames, the cable always keeps a falling state under the influence of dead weight, and the cable is usually pulled by manpower to be tensioned, so that the cable is very time-consuming and labor-consuming. There is a need for a cable tray that can be both temporarily grasped for quick installation and firmly grasped to avoid loosening.

Disclosure of Invention

An adjustable cable installation wire frame assembly comprises a wire frame base, a rotating shaft assembly and an adjustable wire clamp, wherein the wire frame base is installed on an operation plane;

the spindle assembly includes:

the left side and the right side of the upper end surface of the wire frame foundation are respectively provided with a bearing;

The rotating mandrel is rotatably arranged in the two bearings;

the driving worm is formed on the outer wall of the rotating mandrel;

the adjustable fastener is equipped with two at least, the adjustable fastener includes:

the wire clamp shell is connected with the wire frame foundation;

the temporary clamp is arranged at the front end of the wire clamp shell;

The stabilizing clamp is arranged at the rear end of the wire clamp shell;

The transmission assembly is arranged in the middle of the wire clamp shell and meshed with the driving worm, and is in transmission connection with the temporary clamp or the stable clamp.

The wire clamp shell comprises a wire clamp base, a front opening, a front annular groove, a first convex ring, a middle annular groove, a second convex ring, a rear annular groove and a rear opening are sequentially arranged on the wire clamp base from front to back, a worm transverse groove communicated with the middle annular groove is formed in the left-right direction on the lower end surface of the wire clamp base, and connecting lugs fixedly connected with the wire clamp base are respectively formed on the front end surface and the rear end surface of the wire clamp base;

The temporary clamp comprises hinge mandrels circumferentially and uniformly distributed at the front ends of the front ring grooves, hinge clamping arms rotatably arranged on the corresponding hinge mandrels, driven insertion holes radially arranged at the outer ends of the hinge mandrels, temporary rings rotatably arranged in the front ring grooves, and driving insertion handles circumferentially and uniformly distributed at the front ends of the temporary rings and in one-to-one insertion correspondence with the driven insertion holes;

the stabilizing clamp comprises a perforated insert lug, a rotatable stabilizing mandrel, a limiting retainer ring and a driven bevel gear, wherein the perforated insert lugs are circumferentially and uniformly distributed on the rear end face of the rear annular groove, the stabilizing mandrel is rotatably arranged in the perforated insert lug, the limiting retainer ring is formed on the inner side of the stabilizing mandrel, the driven bevel gear is formed on the outer side of the stabilizing mandrel, an inner threaded hole is formed in the inner side of the stabilizing mandrel and the limiting retainer ring, an outer threaded rod is screwed on the inner side of the outer threaded rod, a clamping baffle is arranged on the inner side of the outer threaded rod, a rotation stopping shaft hole is axially formed in the side wall of the outer threaded rod and the clamping baffle, rotation stopping plugs in inserted fit with the corresponding rotation stopping shaft holes are circumferentially and uniformly distributed on the rear end of the rear annular groove, and the stabilizing clamp further comprises a rotatable stabilizing ring and an annular bevel gear which is formed on the outer edge of the stabilizing ring and meshed with the driven bevel gear;

The transmission assembly comprises an annular worm wheel rotatably arranged in a central annular groove and meshed with the driving worm, a transmission plug key arranged on the inner wall of the annular worm wheel, a sliding sleeve slidably arranged in the annular worm wheel, a transmission key slot axially formed on the outer wall of the sliding sleeve and in plug-in fit with the transmission plug key, a rear transmission ring formed on the rear end face of the sliding sleeve and in transmission connection with the stable ring, and a front transmission ring formed on the front end face of the sliding sleeve and in transmission connection with the temporary ring, wherein the outer wall of the front transmission ring is provided with an annular groove and rotatably provided with a poking ring, the transmission assembly further comprises a poking handle arranged above the poking ring, and an upper window for accommodating front-rear sliding of the poking handle is further arranged above the wire clamp base; the transmission assembly further comprises an inclined through hole obliquely arranged in the toggle handle, a wide-diameter round cavity formed in the middle of the inclined through hole, an inner threaded pipe rotatably arranged in the wide-diameter round cavity, a columnar terminal arranged above the inner threaded pipe and penetrating through the inclined through hole, a driven screw arranged on the lower half part of the inclined through hole and in threaded connection with the inner threaded pipe, a side protruding block arranged at the lower end of the inclined through hole, and an axial side hole formed on the outer wall of the driven screw and in splicing fit with the side protruding block.

As a further embodiment, the clip base is shaped to be rounded down.

As a further embodiment, the transmission inserting keys are distributed on the inner wall of the annular worm wheel at equal intervals along the circumferential direction, and the transmission key grooves are distributed on the outer wall of the sliding sleeve at equal intervals along the circumferential direction and are in one-to-one correspondence with the transmission inserting keys.

As a further embodiment, the rear end face of the rear driving ring and the front end face of the stabilizing ring are respectively provided with driving racks uniformly distributed on the circumference.

As a further embodiment, the front end face of the front driving ring and the rear end face of the temporary ring are respectively provided with driving racks uniformly distributed on the circumference.

As a further embodiment, the front opening, the temporary circular ring, the sliding sleeve, the stable circular ring and the rear opening have the same inner diameter;

The inner diameters of the first convex ring and the second convex ring are consistent;

The inner diameters of the front ring groove, the middle ring groove and the rear ring groove are consistent;

the inner diameter of the front opening is smaller than that of the first convex ring, and the inner diameter of the first convex ring is smaller than that of the front annular groove.

As a further embodiment, the left end and the right end of the rotating mandrel are respectively provided with a rotating shaft handle.

The beneficial effects are that:

According to the adjustable cable installation line frame assembly, cables with different diameters can be clamped through the adjustable line clamp, and the temporary clamping and the stable clamping are provided, so that two clamping modes of temporary clamping and long-term stable clamping are realized.

According to the adjustable cable installation frame assembly, the plurality of adjustable wire clamps can be synchronously adjusted through the rotating shaft assembly, and meanwhile clamping and fixing of a plurality of cables are achieved.

The adjustable cable installation line frame assembly can be in transmission connection with a temporary clamp so as to achieve temporary clamping, can be connected with a stable clamp so as to achieve stable clamping, and can be placed in a vacancy, namely is not connected with any clamp, so that misoperation of the rotating shaft assembly is avoided, and the clamping gesture is prevented from being damaged.

Drawings

FIG. 1 is a front view of one embodiment of the wire frame assembly.

FIG. 2 is a cross-sectional view of one embodiment of the spool assembly.

Fig. 3 is a side view of one embodiment of the spool assembly.

Fig. 4 is a cross-sectional view of one embodiment of the adjustable clamp.

Fig. 5 is a cross-sectional view of yet another embodiment of the adjustable clamp.

Fig. 6 is a cross-sectional view of one embodiment of a wire clamp housing.

FIG. 7 is a cross-sectional view of one embodiment of section A-A of FIG. 4.

Fig. 8 is a cross-sectional view of another embodiment of section A-A of fig. 4.

FIG. 9 is a partial cross-sectional view of one embodiment of section B-B of FIG. 4.

FIG. 10 is a cross-sectional view of one embodiment of section C-C of FIG. 4.

FIG. 11 is a cross-sectional view of one embodiment of section D-D of FIG. 4.

Fig. 12 is a sectional view of another embodiment of section D-D of fig. 4.

Fig. 13 is an enlarged schematic view of the portion E in fig. 5.

Fig. 14 is an enlarged schematic view of the portion F in fig. 5.

In the figure:

m, a cable;

1. a wire frame foundation;

2. the rotary shaft assembly 21, the bearing 22, the rotary mandrel 23, the driving worm 24 and the rotary shaft handle;

3. An adjustable wire clip;

31. The wire clamp comprises a wire clamp shell 31a, a wire clamp base 31b, a front opening 31c, a front annular groove 31d, a first convex ring 31e, a middle annular groove 31f, a second convex ring 31g, a rear annular groove 31h, a rear opening 31i, a worm transverse groove 31j and connecting lugs;

32. Temporary clamp, 32a, hinged mandrel, 32b, hinged clamp arm, 32c, driven jack, 32d, temporary ring, 32e, driving plug handle;

33. The device comprises a stabilizing clamp 33a, a hole inserting lug 33b, a stabilizing mandrel 33c, a limiting retainer ring 33d, a driven bevel gear 33e, an externally threaded rod 33f, a clamping baffle 33g, a rotation stopping shaft hole 33h, a rotation stopping plug 33i, a stabilizing circular ring 33j and an annular bevel gear;

34. The transmission assembly 34a, the annular worm gear 34b, the transmission plug key 34c, the sliding sleeve 34d, the transmission key slot 34e, the rear transmission ring 34f, the front transmission ring 34g, the toggle ring 34h, the toggle handle 34i and the upper window;

34j, inclined through holes, 34k, wide diameter circular cavities, 34l, internally threaded tubes, 34m, post terminals, 34n, driven screws, 34o, side bosses, 34p, axial side holes.

Detailed Description

An adjustable cable installation wire frame assembly comprises a wire frame base 1, a rotating shaft assembly 2 and an adjustable wire clamp 3, wherein the wire frame base 1 is installed on an operation plane, the rotating shaft assembly 2 is arranged on the wire frame base 1, and the adjustable wire clamp 3 is arranged on the wire frame base 1 and is adjusted by the rotating shaft assembly 2;

The rotating shaft assembly 2 comprises:

The left and right sides of the upper end surface of the wire frame foundation 1 are respectively provided with a bearing 21;

a rotating mandrel 22 rotatably disposed in the two bearings 21;

The driving worm 23 is formed on the outer wall of the rotating mandrel 22;

Further, a rotating shaft handle 24 is respectively provided at the left and right ends of the rotating mandrel 22.

The adjustable fastener 3 is equipped with two at least, adjustable fastener 3 includes:

A wire clamp housing 31 connected to the wire frame base 1;

a temporary clamp 32 provided at the front end of the wire clamp housing 31;

a stabilizing clamp 33 provided at the rear end of the wire clamp housing 31;

And the transmission assembly 34 is arranged in the middle of the wire clamp shell 31 and meshed with the driving worm 23, and the transmission assembly 34 is in transmission connection with the temporary clamp 32 or the stable clamp 33.

As a further embodiment:

The wire clamp shell 31 comprises a wire clamp base 31a, wherein the wire clamp base 31a is sequentially provided with a front opening 31b, a front annular groove 31c, a first convex ring 31d, a middle annular groove 31e, a second convex ring 31f, a rear annular groove 31g and a rear opening 31h from front to back, the lower end surface of the wire clamp base 31a is provided with a worm transverse groove 31i communicated with the middle annular groove 31e in a left-right direction, and the front end surface and the rear end surface of the wire clamp base 31a are respectively provided with a connecting lug 31j fixedly connected with the wire clamp base 1;

further, the clip base 31a is formed in a shape of a lower part of an upper circle.

Still further, the front opening 31b, the temporary ring 32d, the sliding sleeve 34c, the stabilizing ring 33i, and the rear opening 31h have the same inner diameter;

The inner diameters of the first convex ring 31d and the second convex ring 31f are consistent;

The inner diameters of the front ring groove 31c, the middle ring groove 31e and the rear ring groove 31g are consistent;

the inner diameter of the front opening 31b is smaller than that of the first convex ring 31d, and the inner diameter of the first convex ring 31d is smaller than that of the front ring groove 31 c.

As a further embodiment:

The temporary clamp 32 comprises hinge mandrels 32a circumferentially and uniformly distributed at the front end of the front ring groove 31c, hinge clamp arms 32b rotatably arranged on the corresponding hinge mandrels 32a, driven insertion holes 32c radially arranged at the outer end of the hinge mandrels 32a, temporary rings 32d rotatably arranged in the front ring groove 31c, and driving insertion handles 32e circumferentially and uniformly distributed at the front ends of the temporary rings 32d and in one-to-one insertion correspondence with the driven insertion holes 32 c;

As a further embodiment:

the stabilizing clamp 33 comprises a perforated insert lug 33a circumferentially and uniformly distributed on the rear end surface of the rear annular groove 31g, a stabilizing mandrel 33b rotatably arranged in the perforated insert lug 33a, a limiting retainer ring 33c formed on the inner side of the stabilizing mandrel 33b, a driven bevel gear 33d formed on the outer side of the stabilizing mandrel 33b, an internally threaded hole and a threaded rod 33e are formed on the inner side of the stabilizing mandrel 33b and the limiting retainer ring 33c, a clamping baffle 33f is arranged on the inner side of the threaded rod 33e, a rotation stopping shaft hole 33g is formed on the side wall of the threaded rod 33e and the clamping baffle 33f along the axial direction, rotation stopping plugs 33h in insertion fit with the corresponding rotation stopping shaft holes 33g are circumferentially and uniformly distributed on the rear end of the rear annular groove 31g, and the stabilizing clamp 33 further comprises a stabilizing ring 33i rotatably arranged on the front half part of the rear annular groove 31g, and an annular bevel gear 33j formed on the outer edge of the stabilizing ring 33i and meshed with the driven bevel gear 33 d;

The transmission assembly 34 comprises an annular worm wheel 34a rotatably arranged in the central annular groove 31e and meshed with the driving worm 23, a transmission inserting key 34b arranged on the inner wall of the annular worm wheel 34a, a sliding sleeve 34c slidably arranged in the annular worm wheel 34a, a transmission key slot 34d axially formed on the outer wall of the sliding sleeve 34c and in inserted fit with the transmission inserting key 34b, a rear transmission ring 34e formed on the rear end face of the sliding sleeve 34c and in transmission connection with the stable ring 33i, and a front transmission ring 34f formed on the front end face of the sliding sleeve 34c and in transmission connection with the temporary ring 32d, wherein an annular groove is formed on the outer wall of the front transmission ring 34f and is rotatably provided with a stirring ring 34g, the transmission assembly 34 further comprises a stirring handle 34h arranged above the stirring ring 34g, and an upper window 34i for accommodating front and rear sliding of the stirring handle 34h is further arranged above the wire clamp base 31 a.

As a further embodiment, the transmission assembly 34 further includes an inclined through hole 34j formed in the toggle handle 34h in an inclined manner, a wide-diameter circular cavity 34k formed in the middle of the inclined through hole 34j, a rotatable internally threaded tube 34l formed in the wide-diameter circular cavity 34k, a columnar terminal 34m formed above the internally threaded tube 34l and passing through the inclined through hole 34j, a driven screw 34n formed in the lower half of the inclined through hole 34j and screwed with the internally threaded tube 34l, a side projection 34o formed at the lower end of the inclined through hole 34j, and an axial side hole 34p formed in the outer wall of the driven screw 34n and in plug-in engagement with the side projection 34 o.

As a further embodiment, the driving key inserts 34b are equally spaced along the circumferential direction on the inner wall of the annular worm wheel 34a, and the driving key grooves 34d are equally spaced along the circumferential direction on the outer wall of the sliding sleeve 34c and are in one-to-one correspondence with the driving key inserts 34 b.

As a further embodiment, the rear end face of the rear driving ring 34e and the front end face of the stabilizing ring 33i are provided with driving racks uniformly distributed circumferentially.

As a further embodiment, the front end face of the front driving ring 34f and the rear end face of the temporary ring 32d are provided with driving racks uniformly distributed circumferentially.

The scheme also discloses a method for clamping the cable, which comprises the following steps:

step 1, threading a cable m:

The cable m passes through the corresponding adjustable wire clamp 3 on the wire frame foundation 1;

repeating the steps until all the cables m are inserted into the adjustable wire clamps 3;

step 2, temporary clamping:

The poking handle 34h is poked to drive the poking circular ring 34g, the front driving ring 34f, the sliding sleeve 34c and the rear driving ring 34e to move forwards, so that the front driving ring 34f is in driving connection with the temporary circular ring 32 d;

the rotation driving worm 23 drives the annular worm wheel 34a to rotate, so as to drive the transmission inserting key 34b, the transmission key slot 34d, the sliding sleeve 34c and the front transmission ring 34f to rotate;

the front driving ring 34f drives the temporary ring 32d and the driving inserting handle 32e to rotate;

The temporary circular ring 32d acts on the driven jack 32c to drive the hinged clamping arm 32b to rotate around the hinged mandrel 32 a;

the swing of the articulated arm 32b can temporarily clamp the corresponding cable m;

step 3, stable clamping:

Referring to fig. 3 of the specification, temporary clamping is sequentially performed according to the sequence of P1-P2-P3 in the cable laying process, after the cable rack assembly at the position of P3 is temporarily clamped, the cable rack at the position of P2 can be switched to perform stable clamping, and in the temporary clamping to stable clamping process, even if the clamping force is temporarily interrupted, the cable m is still clamped by the cable rack assemblies at the positions of P1 and P3, so that the cable m cannot excessively sag under the action of gravity;

The poking handle 34h is poked to drive the poking circular ring 34g, the front driving ring 34f, the sliding sleeve 34c and the rear driving ring 34e to move backwards, so that the rear driving ring 34e is in driving connection with the stable circular ring 33 i;

the rotation driving worm 23 drives the annular worm wheel 34a to rotate, so as to drive the transmission inserting key 34b, the transmission key slot 34d, the sliding sleeve 34c and the rear transmission ring 34e to rotate;

The rear driving ring 34e rotates to drive the stable ring 33i and the annular bevel gear 33j to rotate;

the ring bevel gear 33j rotates to drive the driven bevel gear 33d and the stabilizing mandrel 33b to rotate, and the stabilizing mandrel 33b rotates to drive the externally threaded rod 33e and the clamping baffle 33f to move inwards;

The inwards movement of the rotation stopping shaft hole 33g can stably clamp the cable m;

Step 4, the drive assembly 34 releases the drive connection:

The toggle handle 34h is toggled to drive the toggle ring 34g, the front driving ring 34f, the sliding sleeve 34c and the rear driving ring 34e to move, so that the driving assembly 34 is located at the middle position and is not in driving connection with the temporary clamp 32 or the stable clamp 33.

After the transmission connection of the transmission unit 34 is released, the posture of the temporary jig 32 or the stable jig 33 is not changed even if the driving worm 23 is erroneously operated, and the stability can be maintained for a long period of time. At this time, even if the driving worm 23 is rotated, the temporary clamp 32 or the stabilizing clamp 33 cannot be driven, the temporary clamp 32 loses the clamping force on the cable m, and the stabilizing clamp 33 continues to stably clamp the cable m.

As a further embodiment, further comprising step 5, fixing the attitude of the toggle handle 34 h:

The columnar terminal 34m and the internal threaded tube 34l are rotated to drive the driven screw 34n and the axial side hole 34p to move, and the driven screw 34n is abutted with the upper window 34i so as to realize locking;

the toggle handle rotation stop plug 34h is stable in posture and cannot move in the front-rear direction.

Claims (8)

1. An adjustable cable installation line frame assembly, its characterized in that: the wire frame comprises a wire frame base (1) arranged on an operation plane, a rotating shaft assembly (2) arranged on the wire frame base (1), and an adjustable wire clamp (3) arranged on the wire frame base (1) and adjusted by the rotating shaft assembly (2);

The rotating shaft assembly (2) comprises:

the left side and the right side of the upper end face of the wire frame foundation (1) are respectively provided with a bearing (21);

A rotary mandrel (22) rotatably arranged in the two bearings (21);

The driving worm (23) is formed on the outer wall of the rotating mandrel (22);

the adjustable fastener (3) is equipped with two at least, adjustable fastener (3) include:

the wire clamp shell (31) is connected with the wire frame foundation (1);

a temporary clamp (32) arranged at the front end of the wire clamp shell (31);

the stabilizing clamp (33) is arranged at the rear end of the wire clamp shell (31);

The transmission assembly (34) is arranged in the middle of the wire clamp shell (31) and meshed with the driving worm (23), and the transmission assembly (34) is in transmission connection with the temporary clamp (32) or the stable clamp (33);

The wire clamp shell (31) comprises a wire clamp base (31 a), a front opening (31 b), a front annular groove (31 c), a first convex ring (31 d), a middle annular groove (31 e), a second convex ring (31 f), a rear annular groove (31 g) and a rear opening (31 h) are sequentially arranged on the wire clamp base (31 a) from front to back, worm transverse grooves (31 i) communicated with the middle annular groove (31 e) are formed in the left-right direction on the lower end face of the wire clamp base (31 a), and connecting lugs (31 j) fixedly connected with the wire clamp base (1) are respectively formed on the front end face and the rear end face of the wire clamp base (31 a);

The temporary clamp (32) comprises hinge mandrels (32 a) circumferentially and uniformly distributed at the front end of the front ring groove (31 c), hinge clamp arms (32 b) rotatably arranged on the corresponding hinge mandrels (32 a), driven insertion holes (32 c) radially arranged at the outer ends of the hinge mandrels (32 a), a temporary ring (32 d) rotatably arranged in the front ring groove (31 c), and driving insertion handles (32 e) circumferentially and uniformly distributed at the front end of the temporary ring (32 d) and in one-to-one insertion correspondence with the driven insertion holes (32 c);

the stabilizing clamp (33) comprises a perforated insert lug (33 a) circumferentially and uniformly distributed on the rear end face of the rear annular groove (31 g), a stabilizing mandrel (33 b) rotatably arranged in the perforated insert lug (33 a), a limiting check ring (33 c) formed on the inner side of the stabilizing mandrel (33 b) and a driven bevel gear (33 d) formed on the outer side of the stabilizing mandrel (33 b), an inner threaded hole is formed on the inner side of the stabilizing mandrel (33 b) and is screwed with an outer threaded rod (33 e), a clamping baffle (33 f) is arranged on the inner side of the outer threaded rod (33 e), a rotation stopping shaft hole (33 g) is formed in the side wall of the outer threaded rod (33 e) and is axially arranged on the side wall of the clamping baffle (33 f), rotation stopping plugs (33 h) in plug-in fit with the corresponding rotation stopping shaft holes (33 g) are circumferentially and uniformly distributed at the rear end of the rear annular groove (31 g), and the stabilizing clamp (33) further comprises a stabilizing ring (33 i) rotatably arranged on the front half part of the rear annular groove (31), and a ring (33 j) is formed on the outer side of the stabilizing ring (33 j) and meshed with the driven bevel gear (33 j);

the transmission assembly (34) comprises an annular worm wheel (34 a) rotatably arranged in a central annular groove (31 e) and meshed with the driving worm (23), a transmission inserting key (34 b) arranged on the inner wall of the annular worm wheel (34 a), a sliding sleeve (34 c) slidably arranged in the annular worm wheel (34 a), a transmission key groove (34 d) axially formed on the outer wall of the sliding sleeve (34 c) and in plug-in fit with the transmission inserting key (34 b), a rear transmission ring (34 e) formed on the rear end face of the sliding sleeve (34 c) and in transmission connection with the stable ring (33 i), and a front transmission ring (34 f) formed on the front end face of the sliding sleeve (34 c) and in transmission connection with the temporary ring (32 d), wherein an annular groove is formed on the outer wall of the front transmission ring (34 f) and a stirring ring (34 g) is rotatably arranged, the transmission assembly (34) further comprises a stirring handle (34 h) axially formed above the stirring handle (34 h), and a rear window (34 i) for containing the stirring handle (34 h) is arranged above the wire clamp base (31 a).

2. The adjustable cable mounting rack assembly of claim 1, wherein:

the transmission assembly (34) further comprises an inclined through hole (34 j) obliquely arranged in the toggle handle (34 h), a wide-diameter round cavity (34 k) formed in the middle of the inclined through hole (34 j), an inner threaded tube (34 l) rotatably arranged in the wide-diameter round cavity (34 k), a columnar terminal (34 m) arranged above the inner threaded tube (34 l) and penetrating through the inclined through hole (34 j), a driven screw (34 n) arranged on the lower half part of the inclined through hole (34 j) and in threaded connection with the inner threaded tube (34 l), a side protruding block (34 o) arranged at the lower end of the inclined through hole (34 j), and an axial side hole (34 p) formed on the outer wall of the driven screw (34 n) and in plug-in connection with the side protruding block (34 o).

3. The adjustable cable mounting rack assembly of claim 2, wherein:

the wire clamp base (31 a) is formed in a shape of being round at the upper part and round at the lower part.

4. An adjustable cable mounting bracket assembly according to claim 3, wherein:

The transmission inserting keys (34 b) are distributed on the inner wall of the annular worm wheel (34 a) at equal intervals along the circumferential direction, and the transmission key grooves (34 d) are distributed on the outer wall of the sliding sleeve (34 c) at equal intervals along the circumferential direction and are in one-to-one correspondence with the transmission inserting keys (34 b).

5. The adjustable cable mounting rack assembly of claim 4, wherein:

The rear end face of the rear transmission ring (34 e) and the front end face of the stabilizing ring (33 i) are provided with transmission racks uniformly distributed on the circumference.

6. The adjustable cable mounting rack assembly of claim 5, wherein:

The front end face of the front driving ring (34 f) and the rear end face of the temporary ring (32 d) are respectively provided with driving racks uniformly distributed on the circumference.

7. The adjustable cable mounting rack assembly of any one of claims 4-6, wherein:

the inner diameters of the front opening (31 b), the temporary circular ring (32 d), the sliding sleeve (34 c), the stable circular ring (33 i) and the rear opening (31 h) are consistent;

the inner diameters of the first convex ring (31 d) and the second convex ring (31 f) are consistent;

The inner diameters of the front ring groove (31 c), the middle ring groove (31 e) and the rear ring groove (31 g) are consistent;

the inner diameter of the front opening (31 b) is smaller than that of the first convex ring (31 d), and the inner diameter of the first convex ring (31 d) is smaller than that of the front ring groove (31 c).

8. The adjustable cable mounting rack assembly of claim 7, wherein:

the left end and the right end of the rotating mandrel (22) are respectively provided with a rotating shaft handle (24).