CN114069543A - Reducing adaptive type non-consumption self-cleaning cable pipe penetrating device for communication engineering - Google Patents

Abstract

The invention discloses a reducing adaptive type non-consumption self-cleaning cable pipe penetrating device for communication engineering. The invention belongs to the technical field of communication cable pipe penetrating, and particularly relates to a reducing adaptive type consumption-free self-cleaning type cable pipe penetrating device for communication engineering.

Description

Reducing adaptive type non-consumption self-cleaning cable pipe penetrating device for communication engineering

Technical Field

The invention belongs to the technical field of communication cable pipe penetration, and particularly relates to a reducing adaptive type consumption-free self-cleaning type cable pipe penetration device for communication engineering.

Background

At present, in the construction of communication engineering, the urban overhead line with huge cobweb dense distribution destroys the urban appearance landscape to a great extent, destroys the traditional and modern building vertical faces with scale-to-grade ratio, causes serious visual pollution, beautifies the urban environment in order to avoid the visual pollution, and can keep the urban road space pure, so that people can see to generate a comfortable aesthetic feeling. When a cable enters the ground, the cable needs to be threaded into a pipe, and the existing pipe threading mode is as follows: wear the iron wire in the pipe earlier, with the pipe pre-buried in soil again, prick the iron wire at the electric wire end at last, wear the electric wire intraductal, its shortcoming: intensity of labour is big, in case the electric wire is got rid of by card or iron wire and electric wire, people will chisel out and be got stuck the department, destroy original structure, also have at present to adopt high-pressure draught to make the pipeline stopper drive the electric wire in the pipe and move forward, and its shortcoming is that the pipeline stopper diameter must with the pipeline internal diameter phase-match, the commonality is relatively poor, and in the crooked place of pipe, more difficult construction, not only so, still should keep the dry cleanness of pipeline inner wall, improve the life of cable.

Disclosure of Invention

Aiming at the situation and overcoming the defects of the prior art, the invention provides a variable-diameter adaptive type consumption-free self-cleaning type cable pipe penetrating device for communication engineering, which adopts a mode of combining dynamic adjustment and self-adaptation according to the characteristic that the inner diameters of pipelines to be penetrated by cables are inconsistent, thereby realizing the technical effect of perfectly matching the inner diameters of different pipelines, realizing the technical effect of cleaning and drying the inner wall of the pipeline only by a smart limiting clamping structure under the condition of no energy consumption, and realizing the technical effect of clamping and conveying the cables in a lossless manner by adopting a mode of combining pre-fixing and follow-up lossless clamping according to the technical problem that the cables are easy to fall off during the pipe penetrating of the cables.

The technical scheme adopted by the invention is as follows: the invention provides a reducing adaptive type non-consumption self-cleaning cable pipe penetrating device for communication engineering, which comprises a reducing pipeline adapting mechanism, an advancing unpowered rotary cleaning and adsorbing mechanism, a connecting hanging ring and a gasbag nondestructive cable clamping mechanism, wherein the advancing unpowered rotary cleaning and adsorbing mechanism is arranged on the reducing pipeline adapting mechanism, the connecting hanging ring is arranged on the side wall of the reducing pipeline adapting mechanism, and the gasbag nondestructive cable clamping mechanism is connected with the connecting hanging ring; the traveling unpowered rotary cleaning and adsorbing mechanism comprises a fixed inner frame, a rotary outer frame, a clamping limiting type rotating device, a unpowered rotary cleaning and adsorbing device and a traveling motor, wherein the fixed inner frame is arranged on the reducing pipeline adapting mechanism, the traveling motor is arranged on the fixed inner frame, the rotary outer frame is connected with the output end of the traveling motor, the clamping limiting type rotating device is rotatably arranged on the rotary outer frame, and the unpowered rotary cleaning and adsorbing device is connected with the clamping limiting type rotating device.

Furthermore, the unpowered rotary cleaning and adsorbing device comprises a cleaning and adsorbing cavity, a cleaning layer, cleaning and adsorbing holes, a suction pump and a filtering and pressure-releasing assembly, wherein the cleaning and adsorbing cavity is connected with the clamping limiting type rotary device, the cleaning layer is arranged on the outer side wall of the cleaning cavity, the cleaning and adsorbing holes are uniformly arranged on the outer side wall of the cleaning and adsorbing cavity at intervals, the filtering and pressure-releasing assembly is arranged in the cleaning and adsorbing cavity, the suction pump is arranged on the filtering and pressure-releasing assembly, and a cleaning door is arranged on the cleaning and adsorbing cavity; the suction pump work, in the dust through clean adsorption hole suction clean absorption cavity in with the pipeline, and then transmit and filter the pressure release in filtering the pressure release subassembly.

Preferably, the filtering and pressure relief assembly comprises a filtering cavity, a filtering layer and a pressure relief pipe, the filtering cavity is arranged in the cleaning and adsorbing cavity, the filtering layer is arranged in the filtering cavity, and the pressure relief pipe is arranged on the filtering cavity and the cleaning and adsorbing cavity in a penetrating manner.

Further, fixed inside casing includes fixed frame, V-arrangement block groove, limiting plate and L shape fixed plate, on reducing formula pipeline adaptation mechanism was located to fixed frame, fixed frame was the cylindrical cavity setting of one end open-ended, V-arrangement block groove was located on fixed frame, on fixed frame was located to the one end of L shape fixed plate, the limiting plate was located on the other end of L shape fixed plate, the limiting plate was on same vertical face with V-arrangement block groove.

The clamping limiting type rotating device comprises an arc-shaped rotating plate and a clamping sliding column, the arc-shaped rotating plate is rotatably arranged on the rotating outer frame, the clamping sliding columns are symmetrically arranged on the inner concave wall of the arc-shaped rotating plate, the clamping sliding columns are arranged in the V-shaped clamping groove in a clamping and sliding mode, and the cleaning adsorption cavity is connected with the arc-shaped rotating plate.

Furthermore, the reducing type pipeline adapting mechanism comprises an adapting disc, a reducing groove, a reducing expansion piece and a reducing driving device, wherein the reducing groove is formed in the adapting disc, the reducing expansion piece is clamped and slidably arranged in the reducing groove, and the reducing driving device is arranged on the adapting disc.

As a further preferred aspect of the present invention, the reducing expansion piece includes an expansion link, a locking post, an arc support plate, and a support rod, the expansion link is slidably engaged with the reducing groove, the locking post is disposed on the expansion link, the arc support plate is disposed on the expansion link, and the support rod is disposed on the arc support plate.

Furthermore, the reducing driving device comprises a reducing wheel, a driving wheel and a driving motor, the reducing wheel is rotatably arranged on the adaptive disc, the driving wheel is rotatably arranged on the adaptive disc, the reducing wheel is meshed with the driving wheel and connected, the driving motor is arranged on the adaptive disc, the output end of the driving motor is connected with the driving wheel, an arc-shaped clamping groove is formed in the reducing wheel, and the clamping column is slidably arranged in the arc-shaped clamping groove.

The airbag lossless cable clamping mechanism comprises a lower fixing plate, an upper clamping plate, a sunken bearing type airbag, a linkage assembly, a pull rope and a moving roller, wherein the linkage assembly is arranged on the lower fixing plate in a rotating mode, the upper clamping plate is arranged on the linkage assembly in a rotating mode, the sunken bearing type airbag is arranged on the upper clamping plate and the lower fixing plate at uniform intervals, a groove is formed in the sunken bearing type airbag, the pull rope is arranged on the linkage assembly, and the moving roller is arranged on the lower fixing plate in a rotating mode.

Furthermore, the linkage assembly comprises a first linkage plate, a second linkage plate and a pulling plate, one end of the first linkage plate is rotatably arranged on the lower fixing plate, the pulling plate is rotatably connected with the other end of the first linkage plate, one end of the second linkage plate is rotatably arranged on the lower fixing plate, the pulling plate is rotatably connected with the other end of the second linkage plate, and the pull rope is rotatably arranged on the pulling plate.

The utility model provides a pair of reducing is fit for type does not have consumption self-cleaning formula cable poling device for communication engineering, beneficial effect as follows:

(1) according to the characteristic that the inner diameters of pipelines to be penetrated by the cables are inconsistent, the technical effect of perfectly matching the inner diameters of different pipelines is achieved by adopting a mode of combining dynamic adjustment and self-adaption.

(2) The reducing type pipeline adapting mechanism adopts a mode of combining rotary engagement and clamping limiting expansion, realizes the technical effect of reducing self-adaptive adjustment on the inner wall of the pipeline, and can be perfectly matched with different pipelines for use.

(3) Under the condition of no energy consumption, the technical effect of cleaning and drying the inner wall of the pipeline is realized only by the ingenious limiting clamping structure.

(4) The technical effect of wiping, absorbing moisture and removing dust on the inner wall of the pipeline is achieved by means of the advancing force by adopting the design of integrating the cleaning and adsorbing device with the advancing device.

(5) According to the technical problem that a cable is easy to fall off when the cable is threaded, the technical effect of lossless clamping and conveying of the cable is achieved by adopting a mode of combining pre-fixing and follow-up lossless clamping.

(6) The pull rope is pulled in a forward moving mode and combined with the linkage assembly, so that the technical effect of clamping along with walking is achieved, and the cable is prevented from falling off.

(7) The technical effect of clamping and fixing the cable in a nondestructive mode is achieved by adopting a bearing mode combining the sunken bearing type air bag and the groove.

Drawings

FIG. 1 is a schematic view of an overall structure of a diameter-variable adaptive type non-consumption self-cleaning cable-threading device for communication engineering according to the present invention;

FIG. 2 is a schematic diagram of a rear structure of a diameter-variable adaptive type non-consumption self-cleaning cable-threading device for communication engineering according to the present invention;

FIG. 3 is a left side view of a diameter-variable adaptive type non-consumption self-cleaning cable-threading device for communication engineering according to the present invention;

FIG. 4 is a schematic view of the overall structure of the variable diameter pipeline adapting mechanism;

FIG. 5 is a schematic diagram of the rear structure of the variable diameter pipe adapter;

FIG. 6 is a schematic view of the overall structure of the traveling unpowered rotary cleaning adsorption mechanism;

FIG. 7 is a schematic view of the internal structure of the traveling unpowered rotary cleaning adsorption mechanism;

FIG. 8 is a cross-sectional view of the traveling unpowered rotary cleaning suction mechanism 1;

FIG. 9 is a cross-sectional view of the traveling unpowered rotary cleaning suction mechanism 2;

fig. 10 is a schematic view of the overall structure of the air bag lossless cable clamping mechanism.

The device comprises a variable-diameter pipeline adapting mechanism, a traveling unpowered rotary cleaning adsorption mechanism, a connecting hanging ring, an air bag lossless cable clamping mechanism, an adapting disc, a variable-diameter groove, a variable-diameter telescopic piece, a variable-diameter driving device, a telescopic rod, a clamping column, 11, an arc-shaped supporting plate, a supporting rod, a variable-diameter wheel, a driving motor, a driving plate, a driving motor, a driving plate, an arc-shaped clamping groove, a driving plate, a fixing inner frame, an arc-shaped clamping groove, a driving plate, a driving inner frame, a rotating outer frame, a driving wheel, a driving motor, an arc-shaped clamping sliding column, a driving motor, an arc-shaped clamping limiting type rotating device, a driving motor, a driving an L-type driving motor, a driving inner frame, a driving motor, a driving an L-shaped inner frame, a driving motor, a driving wheel, a driving shaft, a driving an L-shaped fixing frame, a driving wheel, a driving motor, a driving wheel, a driving frame, a driving wheel, a driving, The device comprises a filtering pressure relief assembly 33, a cleaning door 34, a filtering cavity 35, a filtering layer 36, a pressure relief pipe 37, a lower fixing plate 38, an upper clamping plate 39, a concave bearing type air bag 40, a linkage assembly 41, a pull rope 42, a moving roller 43, a groove 44, a linkage plate I and 45, a linkage plate II and 46 and a pull plate.

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

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.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present invention.

As shown in fig. 1 and 2, the invention provides a reducing adaptive type consumption-free self-cleaning cable pipe penetrating device for communication engineering, which comprises a reducing pipeline adapting mechanism 1, an advancing unpowered rotary cleaning and adsorbing mechanism 2, a connecting hanging ring 3 and a gasbag lossless type cable clamping mechanism 4, wherein the advancing unpowered rotary cleaning and adsorbing mechanism 2 is arranged on the reducing pipeline adapting mechanism 1, the connecting hanging ring 3 is arranged on the side wall of the reducing pipeline adapting mechanism 1, and the gasbag lossless type cable clamping mechanism 4 is connected with the connecting hanging ring 3.

As shown in fig. 1, 2, 3, 4 and 5, the variable diameter pipeline adapting mechanism 1 comprises an adapting disc 5, a variable diameter groove 6, a variable diameter expansion piece 7 and a variable diameter driving device 8, wherein the variable diameter groove 6 is arranged on the adapting disc 5, the variable diameter expansion piece 7 is clamped and slidably arranged in the variable diameter groove 6, and the variable diameter driving device 8 is arranged on the adapting disc 5; the reducing telescopic part 7 comprises a telescopic rod 9, a clamping column 10, an arc-shaped supporting plate 11 and a supporting rod 12, the telescopic rod 9 is clamped and slidably arranged in the reducing groove 6, the clamping column 10 is arranged on the telescopic rod 9, the arc-shaped supporting plate 11 is arranged on the telescopic rod 9, and the supporting rod 12 is arranged on the arc-shaped supporting plate 11; the reducing driving device 8 comprises a reducing wheel 13, a driving wheel 14 and a driving motor 15, the reducing wheel 13 is rotatably arranged on the adapter disc 5, the driving wheel 14 is rotatably arranged on the adapter disc 5, the reducing wheel 13 is meshed with the driving wheel 14 and connected, the driving motor 15 is arranged on the adapter disc 5, the output end of the driving motor 15 is connected with the driving wheel 14, an arc-shaped clamping groove 16 is formed in the reducing wheel 13, and the clamping column 10 is clamped and slidably arranged in the arc-shaped clamping groove 16.

As shown in fig. 1, 6, 7, 8 and 9, the traveling unpowered rotary cleaning adsorption mechanism 2 comprises a fixed inner frame 17, a rotary outer frame 18, a clamping limiting type rotary device 19, a unpowered rotary cleaning adsorption device 20 and a traveling motor 21, wherein the fixed inner frame 17 is arranged on the variable diameter type pipeline adapting mechanism 1, the traveling motor 21 is arranged on the fixed inner frame 17, the rotary outer frame 18 is connected with the output end of the traveling motor 21, the clamping limiting type rotary device 19 is rotatably arranged on the rotary outer frame 18, and the unpowered rotary cleaning adsorption device 20 is connected with the clamping limiting type rotary device 19; the fixed inner frame 17 comprises a fixed frame 22, a V-shaped clamping groove 23, a limiting plate 24 and an L-shaped fixed plate 25, the fixed frame 22 is arranged on the variable diameter type pipeline adapting mechanism 1, the fixed frame 22 is arranged in a cylindrical cavity with one open end, the V-shaped clamping groove 23 is arranged on the fixed frame 22, one end of the L-shaped fixed plate 25 is arranged on the fixed frame 22, the limiting plate 24 is arranged on the other end of the L-shaped fixed plate 25, and the limiting plate 24 and the V-shaped clamping groove 23 are arranged on the same vertical plane; the clamping limiting type rotating device 19 comprises an arc-shaped rotating plate 26 and a clamping sliding column 27, the arc-shaped rotating plate 26 is rotatably arranged on the rotating outer frame 18, the clamping sliding columns 27 are symmetrically arranged on the inner concave wall of the arc-shaped rotating plate 26, the clamping sliding column 27 is clamped and slidably arranged in the V-shaped clamping groove 23, and the cleaning adsorption cavity 28 is connected with the arc-shaped rotating plate 26; the unpowered rotary cleaning and adsorbing device 20 comprises a cleaning and adsorbing cavity 28, a cleaning layer 29, a cleaning and adsorbing hole 30, a suction pump 31 and a filtering and pressure-releasing component 32, wherein the cleaning and adsorbing cavity 28 is connected with the clamping limiting type rotating device 19, the cleaning layer 29 is arranged on the outer side wall of the cleaning cavity, the cleaning and adsorbing holes 30 are uniformly arranged on the outer side wall of the cleaning and adsorbing cavity 28 at intervals, the filtering and pressure-releasing component 32 is arranged in the cleaning and adsorbing cavity 28, the suction pump 31 is arranged on the filtering and pressure-releasing component 32, and a cleaning door 33 is arranged on the cleaning and adsorbing cavity 28; the suction pump 31 works to suck the dust in the pipeline into the cleaning adsorption cavity 28 through the cleaning adsorption hole 30, and then the dust is transmitted to the filtering pressure relief assembly 32 for filtering pressure relief; the filtering pressure relief assembly 32 comprises a filtering cavity 34, a filtering layer 35 and a pressure relief pipe 36, wherein the filtering cavity 34 is arranged in the cleaning adsorption cavity 28, the filtering layer 35 is arranged in the filtering cavity 34, and the pressure relief pipe 36 is arranged on the filtering cavity 34 and the cleaning adsorption cavity 28 in a penetrating manner.

As shown in fig. 1 and 10, the airbag nondestructive cable clamping mechanism 4 includes a lower fixing plate 37, an upper clamping plate 38, a recessed support airbag 39, a linkage assembly 40, a pulling rope 41 and a moving roller 42, wherein the linkage assembly 40 is rotatably disposed on the lower fixing plate 37, the upper clamping plate 38 is rotatably disposed on the linkage assembly 40, the recessed support airbags 39 are uniformly arranged on the upper clamping plate 38 and the lower fixing plate 37 at intervals, a groove 43 is disposed on the recessed support airbag 39, the pulling rope 41 is disposed on the linkage assembly 40, and the moving roller 42 is rotatably disposed on the lower fixing plate 37; the linkage assembly 40 comprises a first linkage plate 44, a second linkage plate 45 and a pulling plate 46, one end of the first linkage plate 44 is rotatably arranged on the lower fixed plate 37, the pulling plate 46 is rotatably connected with the other end of the first linkage plate 44, one end of the second linkage plate 45 is rotatably arranged on the lower fixed plate 37, the pulling plate 46 is rotatably connected with the other end of the second linkage plate 45, and the pull rope 41 is rotatably arranged on the pulling plate 46.

When the pipeline diameter adjusting device is used specifically, the diameter of the diameter-changing type pipeline adapting mechanism 1 is adjusted according to the inner diameter of a pipeline, the driving motor 15 is started, the driving motor 15 rotates to drive the driving wheel 14 to rotate, the driving wheel 14 rotates to drive the diameter-changing wheel 13 to rotate, the diameter-changing wheel 13 rotates to drive the diameter-changing groove 6 to rotate, the diameter-changing groove 6 rotates to drive the clamping column 10 to move, the clamping column 10 moves to drive the telescopic rod 9 to move, the telescopic rod 9 moves to drive the arc-shaped supporting plate 11 to move, the arc-shaped supporting plate 11 moves to drive the supporting rod 12 to move, the supporting rod 12 moves to drive the advancing type unpowered rotary cleaning and adsorbing mechanism 2 to move until the advancing type unpowered rotary cleaning and adsorbing mechanism 2 clings to the inner wall of the pipeline, the pull rope 41 is hung on the connecting and hanging ring 3, one end of the cable is fixed on the connecting and hanging ring 3 and is placed in the groove 43, the advancing motor 21 is started, the advancing motor 21 rotates to drive the rotary outer frame 18 to rotate, the rotating outer frame 18 rotates to drive the cleaning adsorption cavity 28 to rotate, forward movement of the device is achieved, meanwhile, the rotating outer frame 18 rotates to drive the arc-shaped rotating plate 26 to rotate, when the arc-shaped rotating plate 26 rotates into the V-shaped clamping groove 23, rotation is achieved under the limiting effect of the V-shaped clamping groove 23, the cleaning adsorption cavity 28 is driven to rotate, the cleaning adsorption cavity 28 rotates to drive the cleaning layer 29 to rotate, the technical effect of cleaning the inner wall of the pipeline by rotary wiping is achieved while the pipeline moves, the suction pump 31 is started, dust generated by wiping is sucked into the filter cavity 34 through the cleaning adsorption hole 30 when the suction pump 31 works, the dust is filtered by the filter layer 35 and then is discharged through the pressure relief pipe 36, the connecting hanging ring 3 moves forward to drive the pulling plate 46 to move, the pulling plate 46 moves to drive the first linkage plate 44 and the second linkage plate 45 to rotate, the second linkage rod rotates to drive the upper clamping plate 38 to move and clamp the cable in the groove 43, the nondestructive flexible clamping movement of the cable is realized, the pipe penetrating operation of the cable is realized, after the pipe penetrating is completed, the cleaning door 33 can be opened, the filter layer 35 and the cleaning adsorption cavity 28 are cleaned, the specific working process is realized, and the steps are repeated when the cable is used next time.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a diameter-changing is fit for type does not have consumption self-cleaning formula cable poling device for communication engineering which characterized in that: the device comprises a variable-diameter pipeline adapting mechanism (1), an advancing unpowered rotary cleaning and adsorbing mechanism (2), a connecting hanging ring (3) and an airbag lossless cable clamping mechanism (4), wherein the advancing unpowered rotary cleaning and adsorbing mechanism (2) is arranged on the variable-diameter pipeline adapting mechanism (1), the connecting hanging ring (3) is arranged on the side wall of the variable-diameter pipeline adapting mechanism (1), and the airbag lossless cable clamping mechanism (4) is connected with the connecting hanging ring (3); the movable unpowered rotary cleaning adsorption mechanism (2) comprises a fixed inner frame (17), a rotary outer frame (18), a clamping limiting type rotating device (19), a unpowered rotary cleaning adsorption device (20) and a movable motor (21), wherein the fixed inner frame (17) is arranged on the variable diameter type pipeline adapting mechanism (1), the movable motor (21) is arranged on the fixed inner frame (17), the rotary outer frame (18) is connected with the output end of the movable motor (21), the clamping limiting type rotating device (19) is arranged on the rotary outer frame (18) in a rotating mode, and the unpowered rotary cleaning adsorption device (20) is connected with the clamping limiting type rotating device (19).

2. The diameter-variable adaptive type non-consumption self-cleaning cable threading device for communication engineering according to claim 1, wherein: unpowered rotatory clean adsorption equipment (20) is including clean absorption chamber (28), clean layer (29), clean absorption hole (30), suction pump (31) and filtration pressure release subassembly (32), clean absorption chamber (28) link to each other with spacing formula rotary device of block (19), clean layer (29) are located on the clean chamber lateral wall, clean absorption hole (30) uniform spacing is arranged and is located on clean absorption chamber (28) lateral wall, filter pressure release subassembly (32) and locate in clean absorption chamber (28), suction pump (31) are located and are filtered on pressure release subassembly (32), be equipped with clearance door (33) on clean absorption chamber (28).

3. The diameter-variable adaptive type non-consumption self-cleaning cable threading device for communication engineering according to claim 2, wherein: the filtering and pressure releasing assembly (32) comprises a filtering cavity (34), a filtering layer (35) and a pressure releasing pipe (36), the filtering cavity (34) is arranged in the cleaning and adsorbing cavity (28), the filtering layer (35) is arranged in the filtering cavity (34), and the pressure releasing pipe (36) is communicated with the filtering cavity (34) and the cleaning and adsorbing cavity (28).

4. The diameter-variable adaptive type non-consumption self-cleaning cable threading device for communication engineering according to claim 3, wherein: fixed inside casing (17) are including fixed frame (22), V-arrangement block groove (23), limiting plate (24) and L shape fixed plate (25), fixed frame (22) are located on reducing formula pipeline adapter mechanism (1), fixed frame (22) are the cylindrical cavity setting of one end open-ended, V-arrangement block groove (23) are located on fixed frame (22), the one end of L shape fixed plate (25) is located on fixed frame (22), on the other end of L shape fixed plate (25) is located in limiting plate (24), limiting plate (24) and V-arrangement block groove (23) are on same vertical face.

5. The diameter-variable adaptive type non-consumption self-cleaning cable threading device for communication engineering according to claim 4, wherein: the clamping limiting type rotating device (19) comprises an arc-shaped rotating plate (26) and clamping sliding columns (27), the arc-shaped rotating plate (26) is rotatably arranged on the rotating outer frame (18), the clamping sliding columns (27) are symmetrically arranged on the inner concave wall of the arc-shaped rotating plate (26), the clamping sliding columns (27) are clamped and slidably arranged in the V-shaped clamping grooves (23), and the cleaning adsorption cavity (28) is connected with the arc-shaped rotating plate (26).

6. The diameter-variable adaptive type non-consumption self-cleaning cable threading device for communication engineering according to claim 5, wherein: reducing formula pipeline adaptation mechanism (1) is including fitting dish (5), reducing groove (6), reducing extensible member (7) and reducing drive arrangement (8), on fitting dish (5) is located in reducing groove (6), reducing extensible member (7) block slides locates in reducing groove (6), reducing drive arrangement (8) are located on fitting dish (5).

7. The diameter-variable adaptive type non-consumption self-cleaning cable threading device for communication engineering according to claim 6, wherein: reducing extensible member (7) include telescopic link (9), block post (10), arc backup pad (11) and bracing piece (12), telescopic link (9) block slides and locates in reducing groove (6), on telescopic link (9) is located in block post (10), on telescopic link (9) is located in arc backup pad (11), arc backup pad (11) are located on telescopic link (9), on arc backup pad (11) is located in bracing piece (12).

8. The diameter-variable adaptive type non-consumption self-cleaning cable threading device for communication engineering according to claim 7, wherein: reducing drive arrangement (8) are including reducing wheel (13), drive wheel (14) and driving motor (15), reducing wheel (13) rotate locate on adaptation dish (5), drive wheel (14) rotate locate on adaptation dish (5), reducing wheel (13) link to each other with drive wheel (14) meshing, driving motor (15) are located on adaptation dish (5), the output of driving motor (15) links to each other with drive wheel (14), be equipped with arc block groove (16) on reducing wheel (13), block post (10) block slides and locates in arc block groove (16).

9. The diameter-variable adaptive type non-consumption self-cleaning cable threading device for communication engineering according to claim 8, wherein: the lossless cable clamping mechanism (4) of the airbag comprises a lower fixing plate (37), an upper clamping plate (38), a sunken bearing type airbag (39), a linkage assembly (40), a pull rope (41) and a moving roller (42), wherein the linkage assembly (40) is rotatably arranged on the lower fixing plate (37), the upper clamping plate (38) is rotatably arranged on the linkage assembly (40), the sunken bearing type airbag (39) is uniformly arranged on the upper clamping plate (38) and the lower fixing plate (37) at intervals, a groove (43) is formed in the sunken bearing type airbag (39), the pull rope (41) is arranged on the linkage assembly (40), and the moving roller (42) is rotatably arranged on the lower fixing plate (37).

10. The diameter-variable adaptive type non-consumption self-cleaning cable threading device for communication engineering according to claim 9, wherein: linkage subassembly (40) are including linkage board (44), linkage board two (45) and pulling plate (46), the one end of linkage board one (44) is rotated and is located on bottom plate (37), pulling plate (46) rotate with the other end of linkage board one (44) and link to each other, the one end of linkage board two (45) is rotated and is located on bottom plate (37), pulling plate (46) rotate with the other end of linkage board two (45) and link to each other, stay cord (41) rotate and locate on pulling plate (46).

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