CN111024018A

CN111024018A - Measuring device for municipal communication cable

Info

Publication number: CN111024018A
Application number: CN201911253799.4A
Authority: CN
Inventors: 刘洋; 王金金
Original assignee: Individual
Current assignee: Shaanxi Telecommunications And Designing Institute Co ltd
Priority date: 2019-12-09
Filing date: 2019-12-09
Publication date: 2020-04-17
Anticipated expiration: 2039-12-09
Also published as: CN111024018B

Abstract

The invention discloses a measuring device for municipal communication cables, which comprises a square operating box, wherein fixed seats connected with a fixed building are respectively arranged on the front side wall and the rear side wall of the square operating box, and a cable inlet and a cable outlet which correspond to each other are respectively arranged at the central positions of the front side wall and the rear side wall of the square operating box; the left side wall and the right side wall of the square operation box are both provided with transversely-through inserting grooves, blocking pieces are inserted in the inserting grooves, and the blocking pieces are both provided with diameter limiting holes corresponding to a cable inlet and a cable outlet; a plurality of limiting supporting columns are arranged in the square operating box at intervals along the length direction of the square operating box, U-shaped wire grooves are formed in the upper ends of the limiting supporting columns, and the U-shaped wire grooves of the limiting supporting columns, a cable inlet and a cable outlet are located on the same horizontal line. The invention solves the problems of cable management and length measurement of the communication cable before laying in the prior art, and simultaneously improves the progress of cable construction.

Description

Measuring device for municipal communication cable

Technical Field

The invention relates to the technical field of communication engineering, in particular to a measuring device for a municipal communication cable.

Background

The communication cable is a general name of various conducting wires for transmitting electric signals or optical signals, mainly comprises a covered wire, an overhead open wire, a communication cable and a communication optical cable, and can be divided into an audio (low frequency) cable, a digital cable and a carrier frequency (high frequency) cable, and the general communication cable is wrapped by insulating materials, is tensile and wear-resistant, and is convenient to receive, release and use repeatedly. Along with the continuous development of science and technology, communication engineering is more and more important, need use measuring equipment to carry out length measurement with different communication cables in the laying process of communication cable for the construction can be laid at suitable length range to the communication cable.

In the field construction process, if the length of cable is overlength or too short, need carry out the secondary shearing processing to the cable during overlength, caused the waste of cable, need carry out the wiring operation during the too short time, a large amount of manpower and materials of wiring operation waste equally, and then influence whole cable construction progress. Meanwhile, in the cable construction process, the coiled cable needs to be subjected to wire arrangement operation, so that the coiled cable is flat and straight and is convenient to construct and install.

Therefore, in the field of communication engineering, it is urgently needed to develop a device having both the cable length measurement and the cable arrangement functions, so as to improve the cable laying construction operation speed, and solve the problems that the cable is easy to tangle, knot or even break and the material is wasted greatly.

Disclosure of Invention

In view of the defects of the prior art, the invention aims to provide a measuring device for municipal communication cables, which solves the problems of cable management and length measurement of the communication cables before laying in the prior art and improves the progress of cable construction.

In order to achieve the purpose, the invention adopts the following technical scheme:

a measuring device for municipal communication cables comprises a square operating box, wherein fixed seats connected with a fixed building are respectively arranged on the front side wall and the rear side wall of the square operating box, and a cable inlet and a cable outlet which correspond to each other are respectively arranged at the central positions of the front side wall and the rear side wall of the square operating box; the left side wall and the right side wall of the square operation box are both provided with transversely-through inserting grooves, blocking pieces are inserted in the inserting grooves, and the blocking pieces are both provided with diameter limiting holes corresponding to a cable inlet and a cable outlet; a plurality of limiting struts are arranged in the square operating box at intervals along the length direction of the square operating box, U-shaped wire grooves are formed in the upper ends of the limiting struts, the U-shaped wire grooves of the limiting struts, a cable inlet and a cable outlet are located on the same horizontal line, the lower ends of the limiting struts are fixed on the lower side wall of the square operating box, and a cable to be measured sequentially penetrates through the cable inlet, the U-shaped wire grooves of the limiting struts and the cable outlet; a driven gear and a driving gear are arranged in the square operating box, the driving gear and the driven gear are respectively rotatably arranged on a fixed shaft, two ends of the fixed shaft are fixed on the left side wall and the right side wall of the square operating box, the driving gear is close to a cable outlet and is positioned above a cable to be measured, the driven gear is an electric conductor, the lower part of the driven gear is in transmission engagement with the upper part of the driving gear, the bottom of the driving gear is pressed on the cable to be measured, and the cable to be measured which moves linearly drives the driving gear to rotate and drives the driven gear to synchronously rotate; an elastic conductive shifting sheet fixed on the inner wall of the square operating box is arranged above the driven gear, the elastic conductive shifting sheet is in clearance electrical contact with each gear tooth of the driven gear, a conductive sheet is in sliding electrical contact with the side face of the driven gear, the other ends of the elastic conductive shifting sheet and the conductive sheet are respectively and electrically connected with an electronic counter, the counting result of the electronic counter shows that the number is K, the diameter of the driving gear is D1, the diameter of the driven gear is D2, the pitch between two adjacent gear teeth of the driven gear is H, and the length of the cable to be measured is L, namely L = D2. K. H/D1.

Furthermore, a plurality of wire arranging grooved wheels are arranged on the upper side wall of the square operation box at intervals along the length direction of the square operation box, the circumferential grooves of the wire arranging grooved wheels are matched with the wire diameter of the cable to be measured, the wire arranging grooved wheels are positioned on the same straight line with the cable inlet and the cable outlet, and the cable to be measured sequentially bypasses the circumferential grooves at the upper parts and the lower parts of the two adjacent wire arranging grooved wheels.

Furthermore, a guide grooved wheel is arranged on the front side wall of the square operation box above the cable inlet, and the cable to be measured sequentially passes through the plurality of whole wire grooved wheels, the guide grooved wheel, the cable inlet, the plurality of U-shaped wire grooves of the limiting support columns and the cable outlet.

Furthermore, the gear teeth of the driving gear are coated with hard insulating sleeves.

Furthermore, the hard insulating sleeve is made of a plastic material, a silica gel material or a rubber material.

Furthermore, the lower end of the limiting support column penetrates through the lower side wall of the square operation box, a limiting nut is in threaded connection with the lower end of the limiting support column, a limiting table is arranged above the limiting nut, a pre-tightening spring is sleeved on the limiting support column, two ends of the pre-tightening spring respectively abut against the limiting table and the lower side wall of the square operation box, and the limiting nut abuts against the lower side wall of the square operation box.

Furthermore, the separation blade includes half separation blade on the left side, half separation blade on the right side, and the medial extremity of half separation blade on the left side, half separation blade on the right side is equipped with inserted sheet, slot of pegging graft each other respectively.

Furthermore, the inner side ends of the left half blocking piece and the right half blocking piece are respectively provided with half diameter limiting holes which are matched with each other.

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

(1) after the bundled finished communication cable is led out, the cable to be measured sequentially passes through the circumferential grooves of the whole line grooved wheels, the guide grooved wheels, the cable inlets, the U-shaped wire grooves of the limiting supports and the cable outlets, and the cable arranging and length measuring operation is completed. The to-be-measured cable sequentially bypasses the circumferential grooves at the upper part and the lower part of the two adjacent whole-line grooved wheels, and the to-be-measured cable is leveled and straightened to finish the cable arranging operation, so that the cable is wound and knotted in the square operation box in the measuring and laying process of the cable, and the progress of cable construction is improved.

(2) The separation blade comprises a left half separation blade and a right half separation blade, wherein the inner side ends of the left half separation blade and the right half separation blade are respectively provided with an insertion piece and a slot which are mutually inserted, a diameter limiting hole for penetrating through a cable to be measured is formed by the half diameter limiting holes at the inner side ends of the left half separation blade and the right half separation blade, and the size of the diameter limiting hole is adjusted by adjusting the inserting matching depth between the left half separation blade and the right half separation blade, so that the use requirements of cables with different diameters are met, the cable to be measured can stably and linearly move in a square operation box, the phenomenon of winding or loosening is avoided, and the stability of length measurement is ensured.

(3) The invention leads the cable after finishing arranging the wire into the cable entrance by the guiding function of the guiding grooved wheel, the U-shaped wire groove at the upper end of the spacing pillar is elastically jacked under the cable to be measured by the function of the pre-tightening spring, the cable to be measured moves linearly along the U-shaped wire grooves at the upper end of the spacing pillars and drives the driving gear to rotate synchronously, the driving gear drives the driven gear which is engaged with the driving gear to rotate synchronously, each gear tooth of the driven gear is in intermittent electric contact with the conductive elastic plectrum, the side surface of the driven gear is in sliding electric contact with the conductive sheet, the other ends of the elastic conductive plectrum and the conductive sheet are respectively and electrically connected with the electronic counter, one gear tooth of the driven gear is in electric contact with the conductive elastic plectrum each time to generate a pulse signal, the electronic counter collects the pulse signal and accumulates the counting result and, the length of the cable to be measured is L = D2 K.K.H/D1, the counting result of the electronic counter shows that the number is K, the diameter of the driving gear is D1, the diameter of the driven gear is D2, and the tooth pitch between two adjacent teeth of the driven gear is H. The length measurement problem of the cable to be measured is solved, the shearing operation of the cable in later-stage construction is avoided, and therefore the progress of cable construction is improved.

Drawings

FIG. 1 is a schematic view of the internal structure of the present invention;

FIG. 2 is a schematic view of the overall structure of the present invention;

fig. 3 is a schematic structural view of the baffle plate of the present invention.

The reference numbers in the figures are: 1. a square operation box; 11. a cable entry; 12. a cable outlet; 13. a front side wall; 14. a rear sidewall; 15. a left side wall; 16. a right side wall; 17. a fixed seat; 18. inserting grooves; 2. a driving gear; 3. a driven gear; 4. a limiting strut; 41. a limit nut; 42. a limiting table; 43. pre-tightening the spring; 44. a U-shaped wire groove; 5. a baffle plate; 51. a left half baffle plate; 52. a right half baffle plate; 53. inserting sheets; 54. a slot; 55. a radius limiting hole; 6. a cable to be measured; 7. a whole wire grooved pulley; 8. a guide sheave; 9. an electronic counter; 91. an elastic conductive pick; 92. a conductive sheet; 10. and fixing the shaft.

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 and 2, the invention discloses a measuring device for municipal communication cables, which comprises a square operating box 1, wherein fixing seats 17 connected with a fixed building are respectively arranged on the front side wall 13 and the rear side wall 14 of the square operating box 1, and the center positions of the front side wall 13 and the rear side wall 14 of the square operating box 1 are respectively provided with a corresponding cable inlet 11 and a corresponding cable outlet 12; the left side wall 15 and the right side wall 16 of the square operation box 1 are both provided with a transversely through inserting groove 18, a baffle 5 is inserted in the inserting groove 18, and the baffle 5 is both provided with diameter limiting holes corresponding to the cable inlet 11 and the cable outlet 12; a plurality of limiting struts 4 are arranged in the square operation box 1 at intervals along the length direction of the square operation box, U-shaped wire grooves 44 are formed in the upper ends of the limiting struts 4, the U-shaped wire grooves 44 of the limiting struts 4, a cable inlet 11 and a cable outlet 12 are located on the same horizontal line, the lower ends of the limiting struts 4 are fixed on the lower side wall of the square operation box 1, and a cable 6 to be measured sequentially penetrates through the cable inlet 11, the U-shaped wire grooves 44 of the limiting struts 4 and the cable outlet 12; a driven gear 3 and a driving gear 2 are installed in the square operating box 1, the driving gear 2 and the driven gear 3 are respectively installed on a fixed shaft 10 in a rotating mode, two ends of the fixed shaft 10 are fixed to left and

right side walls

15 and 16 of the square operating box 1, the driving gear 2 is close to a cable outlet 12 and is located above a cable 6 to be measured, the driven gear 3 is an electric conductor, the lower portion of the driven gear 3 is in transmission engagement with the upper portion of the driving gear 2, the bottom of the driving gear 2 is pressed on the cable 6 to be measured, and the cable 6 to be measured which moves linearly drives the driving gear 2 to rotate and drives the driven gear 3 to rotate synchronously; an elastic conductive shifting sheet 91 fixed on the inner wall of the square operating box 1 is arranged above the driven gear 3, the elastic conductive shifting sheet 91 is in clearance electrical contact with each gear tooth of the driven gear 3, a conductive sheet 92 is in sliding electrical contact with the side surface of the driven gear 3, the other ends of the elastic conductive shifting sheet 91 and the conductive sheet 92 are respectively electrically connected with an electronic counter 9, the counting result of the electronic counter 9 shows that the number is K, the diameter of the driving gear 2 is D1, the diameter of the driven gear 3 is D2, the tooth pitch between two adjacent gear teeth of the driven gear 3 is H, the length of the cable 6 to be measured is L, namely L = D2. K.H/D1.

All the cladding has the insulating cover of stereoplasm on the teeth of a cogwheel of driving gear 2, and the insulating cover of stereoplasm is made by plastics material, silica gel material or rubber material. The lower end of the limiting support column 4 penetrates through the lower side wall of the square operation box 1, the lower end of the limiting support column 4 is in threaded connection with a limiting nut 41, a limiting table 42 is arranged above the limiting nut 41, a pre-tightening spring 43 is sleeved on the limiting support column 4, two ends of the pre-tightening spring 43 respectively abut against the limiting table 42 and the lower side wall of the square operation box 1, and the limiting nut 41 abuts against the lower side wall of the square operation box 1.

As shown in fig. 1, a plurality of linear grooved pulleys 7 are arranged on the upper side wall of the square operation box 1 at intervals along the length direction, the circumferential grooves of the linear grooved pulleys 7 are matched with the line diameter of the cable 6 to be measured, the linear grooved pulleys 7 are all positioned on the same straight line with the cable inlet 11 and the cable outlet 12, and the cable 6 to be measured sequentially winds around the circumferential grooves on the upper part and the lower part of two adjacent linear grooved pulleys 7. The front side wall 13 of the square operation box 1 above the cable inlet 11 is provided with a guide sheave 8, and the cable 6 to be measured sequentially passes through the plurality of whole line sheaves 7, the guide sheave 8, the cable inlet 11, the plurality of U-shaped wire grooves 44 of the limiting support 4 and the cable outlet 12.

As shown in fig. 3, the blocking sheet 5 includes a left blocking sheet 515 and a right blocking sheet 525, wherein the inner ends of the left blocking sheet 515 and the right blocking sheet 525 are respectively provided with an insertion sheet 53 and an insertion slot 54 which are inserted into each other, and the inner ends of the left blocking sheet 515 and the right blocking sheet 525 are respectively provided with a radius limiting hole 55 which are matched with each other.

The working principle of the embodiment is as follows: after the bundled finished communication cables are led out, the cables 6 to be measured sequentially pass through the circumferential grooves of the whole wire grooved wheels 7, the guide grooved wheels 8, the cable inlets 11, the U-shaped wire grooves 44 of the limiting supports 4 and the cable outlets 12, and the wire arranging and length measuring operation of the cables is completed. The cable 6 to be measured sequentially winds the circumferential grooves on the upper part and the lower part of the two adjacent whole line grooved wheels 7, and the cable 6 to be measured is leveled and straightened to finish the cable arranging operation; the cable after finishing arranging the wire is led into the cable inlet 11 by the guiding action of the guiding grooved wheel 8, the U-shaped wire groove 44 at the upper end of the limiting support 4 is elastically arranged below the cable 6 to be measured by the action of the pre-tightening spring 43, the cable 6 to be measured moves linearly along the U-shaped wire grooves 44 at the upper ends of the limiting support 4 and drives the driving gear 2 to rotate synchronously, the driving gear 2 drives the driven gear 3 which is in meshing transmission with the driving gear to rotate synchronously, each gear tooth of the driven gear 3 is in intermittent electrical contact with the conductive elastic plectrum, the side surface of the driven gear 3 is in sliding electrical contact with the conductive sheet 92, the other ends of the elastic conductive plectrum 91 and the conductive sheet 92 are respectively and electrically connected with the electronic counter 9, a pulse signal is generated once when one gear tooth of the driven gear 3 is in electrical contact with the conductive elastic plectrum every time, and converting the length data into length data of the cable 6 to be measured, wherein the length of the cable 6 to be measured is L = D2. K.H/D1, the counting result of the electronic counter 9 shows that the number is K, the diameter of the driving gear 2 is D1, the diameter of the driven gear 3 is D2, and the tooth pitch between two adjacent teeth of the driven gear 3 is H.

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.

Claims

1. The utility model provides a measuring device for municipal administration communication cable, includes square control box (1), all installs fixing base (17) be connected with fixed building on preceding, the back lateral wall (13), (14) of square control box (1), its characterized in that: the center positions of the front side wall (13) and the rear side wall (14) of the square operation box (1) are respectively provided with a corresponding cable inlet (11) and a corresponding cable outlet (12); the left side wall (15) and the right side wall (16) of the square operation box (1) are respectively provided with a transversely-through insertion groove (18), a baffle plate (5) is inserted in the insertion grooves (18), and the baffle plate (5) is respectively provided with a diameter limiting hole corresponding to the cable inlet (11) and the cable outlet (12); a plurality of limiting struts (4) are arranged in the square operation box (1) at intervals along the length direction of the square operation box, U-shaped wire grooves (44) are formed in the upper ends of the limiting struts (4), the U-shaped wire grooves (44) of the limiting struts (4), a cable inlet (11) and a cable outlet (12) are located on the same horizontal line, the lower ends of the limiting struts (4) are fixed on the lower side wall of the square operation box (1), and a cable (6) to be measured sequentially penetrates through the cable inlet (11), the U-shaped wire grooves (44) of the limiting struts (4) and the cable outlet (12); a driven gear (3) and a driving gear (2) are installed in the square operating box (1), the driving gear (2) and the driven gear (3) are respectively rotatably installed on a fixed shaft (10), two ends of the fixed shaft (10) are respectively fixed on the left side wall and the right side wall (15) and (16) of the square operating box (1), the driving gear (2) is close to a cable outlet (12) and is positioned above a cable (6) to be measured, the driven gear (3) is an electric conductor, the lower part of the driven gear (3) is in transmission engagement with the upper part of the driving gear (2), the bottom of the driving gear (2) is pressed on the cable (6) to be measured, and the cable (6) to be measured which moves linearly drives the driving gear (2) to rotate and drives the driven gear (3); an elastic conductive shifting sheet (91) fixed on the inner wall of the square operating box (1) is arranged above the driven gear (3), the elastic conductive shifting sheet (91) is in clearance electrical contact with each gear tooth of the driven gear (3), a conductive sheet (92) is in sliding electrical contact with the side face of the driven gear (3), the other ends of the elastic conductive shifting sheet (91) and the conductive sheet (92) are respectively and electrically connected with an electronic counter (9), the counting result of the electronic counter (9) shows that the number is K, the diameter of the driving gear (2) is D1, the diameter of the driven gear (3) is D2, the tooth pitch between two adjacent gear teeth of the driven gear (3) is H, and the length of the cable (6) to be measured is L, namely L = D2. K.H/D1.

2. The measurement device for municipal communication cables according to claim 1, wherein: the upper side wall of the square operation box (1) is provided with a plurality of line-shaping grooved wheels (7) at intervals along the length direction, the circumferential grooves of the line-shaping grooved wheels (7) are matched with the line diameters of the cables (6) to be measured, the line-shaping grooved wheels (7) are all positioned on the same straight line with the cable inlet (11) and the cable outlet (12), and the cables (6) to be measured sequentially bypass the circumferential grooves at the upper parts and the lower parts of the adjacent two line-shaping grooved wheels (7).

3. The measurement device for municipal communication cables according to claim 2, wherein: the front side wall (13) of the square operation box (1) above the cable inlet (11) is provided with a guide grooved wheel (8), and a cable (6) to be measured sequentially passes through the U-shaped wire guide grooves (44) of the plurality of whole wire grooved wheels (7), the guide grooved wheel (8), the cable inlet (11), the plurality of limiting support columns (4) and the cable outlet (12).

4. The measurement device for municipal communication cables according to claim 1, wherein: the gear teeth of the driving gear (2) are coated with hard insulating sleeves.

5. The measurement device for municipal communication cables according to claim 4, wherein: the hard insulating sleeve is made of a plastic material, a silica gel material or a rubber material.

6. The measurement device for municipal communication cables according to claim 1, wherein: the lower extreme of spacing pillar (4) runs through in the lower lateral wall of square control box (1), and the lower extreme threaded connection of spacing pillar (4) has stop nut (41), and the top of stop nut (41) is equipped with spacing platform (42), and the cover is equipped with pretension spring (43) on spacing pillar (4), and pretension spring (43) both ends are supported respectively in the lower lateral wall of spacing platform (42), square control box (1), and stop nut (41) top is supported in the lower lateral wall of square control box (1).

7. The measurement device for municipal communication cables according to claim 1, wherein: the separation blade (5) includes half separation blade (51) on the left side, half separation blade (52) on the right side, and the medial extremity of half separation blade (51) on the left side, half separation blade (52) on the right side is equipped with inserted sheet (53), slot (54) of pegging graft each other respectively.

8. The measurement device for municipal communication cables according to claim 7, wherein: and the inner side ends of the left half baffle plate (51) and the right half baffle plate (52) are respectively provided with a radius limiting hole (55) which are matched with each other.