CN209589304U - A kind of integral structure of bridge cable magnetic stress sensor - Google Patents

Abstract

The utility model discloses a kind of integral structures of bridge cable magnetic stress sensor, cylinder including the radial direction setting circular hollow along bridge cable, it is arranged in the circular hollow of the cylinder, and it is wound with the coil rack of the measuring coil of the variable quantity of measurement cable magnetic conductivity, correspond the outer surface edge for being set in bridge cable, positioned at the both ends of cylinder, and it is inserted into the circular hollow of cylinder and is bonded the inner end cap of the coil rack, it is arranged through any inner end cap, and annular uniform intervals are perpendicular to the radial direction of bridge cable, for adjusting cylinder, inner end cap, at least three inner end cap that measuring coil and the concentric shafts of bridge cable are overlapped adjusts bolt, it is fixed on cylinder, for acquiring the data acquisition box of the variable quantity of cable magnetic conductivity, and it is connected to the biography between data acquisition box and measuring coil Sensor cable.Through the above scheme, the utility model has many advantages, such as that structure is simple, measurement accuracy is high, protects in place.

Description

A kind of integral structure of bridge cable magnetic stress sensor

Technical field

The utility model relates to bridge cable stress detection field, especially a kind of bridge cable magnetic stress sensor Integral structure.

Background technique

Bridge cable as described herein include parallel steel wire rope, parallel steel stranded wire rope, closed wirerope, parallel rebar rope, The bridge cable of the ferromagnetic materials such as spiral steel strand wires.Wherein, the magnetic that the magnetoelasticity principle based on ferromagnetic material is made is answered Force snesor is using measured steel component composition sensor, and when the stress that it bears changes, magnetic conductivity is simultaneously It changes, by measuring the variable quantity of the magnetic conductivity, and obtains the stress intensity of bridge cable.Bridge cable described herein Rope includes containing cable sheath tube and without two kinds of forms of cable sheath tube.

Currently, existing bridge cable magnetic stress sensor is mostly split type structure, except sensor body, need to match Sets of data collecting cassette uses cable connection between magnetic stress sensor and data acquisition box.In the prior art, bridge cable measures It is to recycle single-ended or both-end clip and cable positioning to fix, data acquisition by the way that sensor body to be set on cable Box is mounted on the position for being suitble to artificial acquisition or field wiring, it is generally the case that data acquisition box and sensor body are apart from several Ten meters are differed to rice up to a hundred, i.e., sensor body and data acquisition box take separate structure mode.Since existing magnetic stress passes Transmission cable between sensor ontology and data acquisition box is longer, on the one hand introduces cable resistance, influences the measurement of sensor Precision；On the other hand make work progress relatively complicated, and long-term operation increases system failure rate.

Therefore, be badly in need of proposing a kind of structure is simple, measurement is more accurate, protection in place, the low magnetic stress of maintenance workload passes Sensor.

Utility model content

In view of the above-mentioned problems, the purpose of this utility model is to provide a kind of integrations of bridge cable magnetic stress sensor Structure, the technical solution adopted in the utility model are as follows:

A kind of integral structure of bridge cable magnetic stress sensor is arranged round including the radial direction along bridge cable Hollow cylinder is arranged in the circular hollow of the cylinder and is wound with the measurement line of the variable quantity of measurement cable magnetic conductivity The coil rack of circle corresponds the outer surface edge for being set in bridge cable, the both ends positioned at cylinder and the insertion cylinder Circular hollow in and be bonded the inner end cap of the coil rack, through any inner end cap setting and annular uniform intervals It is overlapped perpendicular to radial direction, the concentric shafts for adjusting cylinder, inner end cap, measuring coil and bridge cable of bridge cable At least three inner end cap adjust bolt, be fixed on the cylinder, the data acquisition box of variable quantity for acquiring magnetic conductivity, And it is connected to the sensor cable between data acquisition box and measuring coil.

Preferably, the inner wall of any inner end cap and far from cylinder side be equipped with a step.

Further, the integral structure of the bridge cable magnetic stress sensor further includes the inner wall along the step It is arranged, adjusts the surface for being extruded in bridge cable after being bolted and rotating the inner end cap adjusting bolt with the inner end cap The inner end cap cushion block at edge.

Preferably, the inner end cap cushion block is metal or nylon material.

Further, the integral structure of the bridge cable magnetic stress sensor further includes being set in the bridge cable The outer end cap that Suo Shang, one end are detachably connected with the inner end cap and the cable sheath tube of the other end and bridge cable is connect, with And uniform intervals are provided with the edge of the outer end cap and the outer end cap are fixed in the inner end cap using bolt Outer end cap fixedly connected hole.

Further, the integral structure of the bridge cable magnetic stress sensor further includes being set in the bridge cable Suo Shang and the sealing ring being placed between the inner end cap and outer end cap.

Further, the integral structure of the bridge cable magnetic stress sensor further includes being fixed on the cylinder Rigid connector, and be arranged between the rigid connector and data acquisition box, for being mentioned to the data acquisition box For supporting the collecting cassette gasket with waterproof sealing.

Further, the integral structure of the bridge cable magnetic stress sensor further includes being connected to the data Collecting cassette waterproof connector between collecting cassette and sensor cable.

Further, the integral structure of the bridge cable magnetic stress sensor, the inner end cap depend on the one of cylinder Hold tapered or straight tube shape.

Preferably, cone angle of the inner end cap by one end of cylinder is 15 °~90 °.

Compared with prior art, the utility model has the following beneficial effects:

(1) inner end cap is dexterously arranged in the utility model, and the radial direction perpendicular to bridge cable is arranged in inner end cap The inner end cap in direction adjusts bolt, and the concentric shafts of the concentric shafts and bridge cable that make cylinder, inner end cap and measuring coil are completely heavy It closes, in this way, which the measuring accuracy of strain gauge just can be improved.

(2) the utility model is equally applicable to the bridge cable with cable sheath tube, by setting sealing ring and outside End cap guarantees the measurement component protection of the variable quantity of magnetic conductivity in place；In addition, the utility model is in the bottom of data acquisition box Collecting cassette gasket is set, guarantees data acquisition box protection in place；It is designed in this way, not only can be reduced maintenance workload, but also can extend Service life.

(3) the magnetic stress sensor body of the utility model and the connection of data acquisition box take integrated structure to set Meter, design is advantageous in that, overcomes the problems, such as that conventional two-piece structure causes measurement error；Simultaneously, moreover it is possible to increase convenient construction Property, reduce system cost, reduce long-term operation during failure rate.In conclusion the utility model has, structure is simple, measures More accurately, the advantages that protecting in place has very high practical value and promotional value in bridge cable stress detection field.

Detailed description of the invention

In order to illustrate more clearly of the technical solution of the utility model embodiment, will use below required in embodiment Attached drawing is briefly described, it should be understood that the following drawings illustrates only some embodiments of the utility model, therefore is not to be seen as It is the restriction to protection scope, it to those skilled in the art, without creative efforts, can be with root Other relevant attached drawings are obtained according to these attached drawings.

Fig. 1 is the longitudinal profile schematic diagram of the utility model.

Fig. 2 is the transverse sectional view of the utility model.

Fig. 3 is the scheme of installation of the utility model.

Fig. 4 is transversely mounted schematic diagram for the utility model.

In above-mentioned attached drawing, the corresponding component names of appended drawing reference are as follows:

1- cylinder, 2- inner end cap, 3- inner end cap cushion block, 4- inner end cap adjust bolt, 5- sealing ring, 6- outer end cap, outside 7- End cap fixedly connected hole, 8- bridge cable, 9- cable sheath tube, 10- data acquisition box, 11- rigid connector, 12- collecting cassette Gasket, 13- collecting cassette waterproof connector, 14- sensor cable, 15- collecting cassette fixing bolt.

Specific embodiment

It is practical to this with reference to the accompanying drawings and examples to keep the purposes, technical schemes and advantages of the application apparent Novel to be described further, the embodiments of the present invention includes but is not limited to the following example.Based on the reality in the application Apply example, those of ordinary skill in the art's every other embodiment obtained without making creative work, all Belong to the range of the application protection.

Embodiment

As shown in Figures 1 to 4, a kind of integral structure of bridge cable magnetic stress sensor is present embodiments provided, is needed It is noted that the directionalities term such as " outer edge ", " top ", " bottom ", " upper end ", " lower end " described in the present embodiment is base Illustrate in attached drawing.The present embodiment is illustrated by taking the bridge cable 8 with cable sheath tube 9 as an example:

In the present embodiment, the integral structure of the bridge cable magnetic stress sensor, wherein magnetic stress sensor body Including along bridge cable radial direction setting circular hollow cylinder 1, be arranged in the circular hollow of the cylinder 1 and around It is formed with the coil rack of the measuring coil of the variable quantity of measurement cable magnetic conductivity, corresponds the outer surface for being set in bridge cable In the circular hollow at edge, the both ends positioned at cylinder 1 and the insertion cylinder 1 and it is bonded the inner end cap 2 of the coil rack, The inner wall of any inner end cap 2 and the step far from 1 side of cylinder are set, through any inner end cap 2 setting and Annular uniform intervals perpendicular to the radial direction of bridge cable, for adjusting cylinder 1, inner end cap 2, measuring coil and bridge cable 3 inner end caps being overlapped of concentric shafts adjust bolt 4, adjust bolt 4 along the inner wall setting of the step, with the inner end cap Connection and the rotation inner end cap adjust the interior of the metal or nylon material that the marginal surface of bridge cable is extruded in after bolt 4 End cap cushion block 3 is set on the bridge cable, one end and the inner end cap 2 are detachably connected and the other end and bridge cable Cable sheath tube connection outer end cap 6, uniform intervals are provided with the edge of the outer end cap 6 and using bolt by institute The outer end cap fixedly connected hole 7 that outer end cap 6 is fixed in the inner end cap 2 is stated, and is set on the bridge cable and sets Sealing ring 5 between the inner end cap 2 and outer end cap 6.In the present embodiment, inner end cap is a hollow plug, in cone Shape or straight tube shape, cone angle is in the range of 15 °~90 °.The step depth L of inner end cap is made of L1 and two sections of L2, depth L1 In the range of 0~L, depth L2 is in the range of 0~L.In addition, the present embodiment, inner end cap cushion block is preferably set up 3, and Its circumference for being distributed in stepped inner walls, inner end cap adjusts bolt and jacks up inner end cap cushion block, by the coil rack of magnetic stress sensor Coil and cylinder to be measured are non-contact to be fixed on cable, and the present embodiment, which adjusts bolt by adjusting inner end cap, makes sensor body Concentricity is kept with cable, outer end cap is installed again after the concentricity of complete sensor sheet to be regulated.

In addition, the magnetic stress sensor body of the present embodiment and the connection of data acquisition box take integrated structure to set Meter, wherein data acquisition box include be fixed on the cylinder 1, the data acquisition box 10 of variable quantity for acquiring magnetic conductivity, The sensor cable 14 being connected between data acquisition box 10 and measuring coil, the rigid connector being fixed on the cylinder 1 11, be arranged between the rigid connector 11 and data acquisition box 10, for the data acquisition box 10 provide support and The collecting cassette gasket 12 of waterproof sealing, and the collecting cassette being connected between the data acquisition box 10 and sensor cable 14 Waterproof connector 13.

It is briefly described as follows the installation process of the present apparatus:

Before factory: coil rack (winding has measuring coil on skeleton) being inserted in cylinder, using bolt by inner end cap (under), inner end cap (on) be fixed on cylinder；And use collecting cassette fixing bolt 15 by the data acquisition box, rigid connection Part and collecting cassette gasket are fixed on the cylinder；Finally, utilizing collecting cassette waterproof connector, sensor cable connection measurement Coil and data acquisition box.

In-site installation: by outer end cap (under), sealing ring (under), cylinder (with coil rack, inner end cap, data acquisition box, Rigid connector and collecting cassette gasket), sealing ring (on) and outer end cap (on) be successively inserted in bridge cable designated mounting position. Before being inserted in, it is necessary to assure the space among 3 inner end cap cushion blocks is enough to penetrate bridge cable.Finally, using bolt by outer end Lid (under), sealing ring (under), sealing ring (on) and outer end cap (on) be fixed on the cylinder, and by outer end cap (under), outer end Lid (on) connect with cable sheath tube 9, to realize the installation of bridge cable magnetic stress sensor.

In conclusion the utility model not only can guarantee the installation concentricity of magnetic stress sensor, but also transmission cable can be reduced Line loss, promote the measurement accuracy of sensor-based system.Moreover, the utility model also can increase convenience for construction, reduction system Failure rate during cost, the long-term operation of reduction.It can be said that compared with prior art, the utility model has essence outstanding Property feature and significant progress, there is very high practical value and promotional value in bridge cable stress detection field.

Above-described embodiment is only the preferred embodiment of the utility model, is not intended to limit the scope of the present invention, In every case the design principle of the utility model is used, and carries out the non-creative variation worked and made on this basis, it should all Belong within the protection scope of the utility model.

Claims (10)

1. a kind of integral structure of bridge cable magnetic stress sensor, including along the radial direction of bridge cable setting circle Empty cylinder (1) is arranged in the circular hollow of the cylinder (1) and is wound with the survey of the variable quantity of measurement cable magnetic conductivity Measure the coil rack of coil, which is characterized in that further include corresponding be set in the outer surface edge of bridge cable, be located at cylinder (1) circular hollow at both ends and the insertion cylinder (1) is interior and is bonded the inner end cap (2) of the coil rack, through any The inner end cap (2) setting and annular uniform intervals perpendicular to the radial direction of bridge cable, for adjusting cylinder (1), inner end At least three inner end cap that the concentric shafts of lid (2), measuring coil and bridge cable are overlapped adjusts bolt (4), is fixed on the cylinder The data acquisition box (10) of variable quantity on body (1), for acquiring magnetic conductivity, and it is connected to data acquisition box (10) and measurement Sensor cable (14) between coil.

2. a kind of integral structure of bridge cable magnetic stress sensor according to claim 1, which is characterized in that any The inner wall of the inner end cap (2) and far from cylinder (1) side be equipped with a step.

3. a kind of integral structure of bridge cable magnetic stress sensor according to claim 2, which is characterized in that also wrap The inner wall setting along the step is included, is connect with inner end cap adjusting bolt (4) and rotates the inner end cap adjusting bolt (4) the inner end cap cushion block (3) of the marginal surface of bridge cable is extruded in after.

4. a kind of integral structure of bridge cable magnetic stress sensor according to claim 3, which is characterized in that described Inner end cap cushion block (3) is metal or nylon material.

5. a kind of integral structure of bridge cable magnetic stress sensor according to claim 1, which is characterized in that also wrap Include be set on the bridge cable, one end and the inner end cap (2) are detachably connected and the cable of the other end and bridge cable The outer end cap (6) and uniform intervals of protecting pipe connection are provided with the edge of the outer end cap (6) and will using bolt The outer end cap (6) is fixed on the outer end cap fixedly connected hole (7) on the inner end cap (2).

6. a kind of integral structure of bridge cable magnetic stress sensor according to claim 5, which is characterized in that also wrap Include the sealing ring (5) for being set on the bridge cable and being placed between the inner end cap (2) and outer end cap (6).

7. a kind of integral structure of bridge cable magnetic stress sensor according to claim 1, which is characterized in that also wrap The rigid connector (11) being fixed on the cylinder (1) is included, and setting is acquired in the rigid connector (11) and data Between box (10), for providing the collecting cassette gasket (12) of support and waterproof sealing to the data acquisition box (10).

8. a kind of integral structure of bridge cable magnetic stress sensor according to claim 1 or claim 7, which is characterized in that It further include the collecting cassette waterproof connector (13) being connected between the data acquisition box (10) and sensor cable (14).

9. a kind of integral structure of bridge cable magnetic stress sensor according to claim 1, which is characterized in that described Inner end cap (2) leans on the one end of cylinder (1) tapered or straight tube shape.

10. a kind of integral structure of bridge cable magnetic stress sensor according to claim 8, which is characterized in that institute Stating the cone angle of inner end cap (2) by the one end of cylinder (1) is 15 °~90 °.