CN217560626U - Bridge settlement monitoring device - Google Patents

Abstract

The utility model discloses a bridge settlement monitoring device, including the response monitoring subassembly, the warning subassembly, be used for installing on the bridge and along with the synchronous adhesion assembly who subsides of bridge and be used for setting up the supporting component in the bridge side direction, the response monitoring subassembly is connected with the warning subassembly electricity, the response monitoring subassembly is including the first inductor and the second inductor of mutual matching, first inductor is fixed to be located on the adhesion assembly, the second inductor is fixed to be located on the supporting component, first inductor and/or second inductor are connected with the warning subassembly electricity, and then send alarm signal to the warning subassembly after first inductor and second inductor dislocation, the warning subassembly is used for responding alarm signal and sends out the warning. The utility model discloses a bridge settlement monitoring device takes place to subside at the bridge and in time sends alarm signal suggestion bridge monitoring personnel, has solved current bridge monitoring personnel and can't in time acquire bridge settlement information, and unable very first time takes safety measure's technical problem.

Description

Bridge settlement monitoring device

Technical Field

The utility model relates to a bridge settlement monitoring facilities technical field especially relates to a bridge settlement monitoring device.

Background

Traditional building equipment generally can all set up the ground that plays bearing guard action in the building bottom, especially bridge building, the support nature of bridge is directly influenced to the firm of its ground, and the bridge etc. have the building of outer wall all can have the settlement point, need monitor the dynamic change of bridge settlement point constantly for preventing that the bridge from collapsing, and probably produce the building of differential settlement, just need set up "settlement observation point", this settlement observation point can be made with iron system box, put the outer wall face at the building, generally highly all is below a meter, there is a prominent arch inside to put the observation location mark of "levelling rod", be used for observing the elevation of this department and use.

Among the prior art, when this bridge monitoring devices based on settlement point was made in the design, most of designers can regard the mark characteristic of design device self for device equipment installs and can have obvious change if take place the ground settlement when monitoring for a long time again behind the bridge outer wall, the convenient observation, but when monitoring the settlement point, can't send the early warning of subsiding when having obvious mark characteristic on the device, make the staff can't take safety measure the very first time, thereby reduce the practicality of device.

In view of the above, there is a need for a bridge settlement monitoring device that solves or at least alleviates the above-mentioned drawbacks.

SUMMERY OF THE UTILITY MODEL

The utility model provides a bridge settlement monitoring device has solved current subside the back at the wall roof beam, can't in time send out the police dispatch newspaper, lead to the technical problem that can't in time monitor the bridge and subside.

In order to achieve the above object, the utility model adopts the following technical scheme:

the utility model provides a bridge settlement monitoring device, a settlement monitoring for the bridge, including the response monitoring subassembly, the warning subassembly, be used for installing on the bridge and along with the bridge synchronous settlement's attached component and be used for setting up the supporting component in the bridge side direction, the response monitoring subassembly is connected with the warning subassembly electricity, the response monitoring subassembly is including the first inductor and the second inductor that match each other, first inductor is fixed to be located on the attached component, the second inductor is fixed to be located on the supporting component, first inductor and/or second inductor are connected with the warning subassembly electricity, and then send alarm signal to the warning subassembly after first inductor and second inductor dislocation, the warning subassembly is used for responding alarm signal and sends out the warning.

Furthermore, the first end of the attachment assembly is used for being connected with a bridge, and the second end of the attachment assembly is movably arranged on the support assembly along the vertical direction.

Furtherly, the supporting component includes the base, along vertical bracing piece of locating on the base and the support section of thick bamboo of cover on locating the bracing piece, and the second pot head of attaching to the subassembly is located on the support section of thick bamboo and is set up along vertical movably, and the fixed top of locating the support section of thick bamboo of second inductor, the internal face of supporting a section of thick bamboo is equipped with the internal thread, and the outer wall of bracing piece is equipped with the external screw thread, and the support section of thick bamboo passes through screw-thread fit with the bracing piece and is connected.

Furthermore, a dial gauge or a dial groove is arranged on the outer wall surface of the supporting cylinder.

Furthermore, the attachment assembly comprises a connecting buckle, a support plate and a connecting cylinder which are connected in sequence, the connecting buckle and the connecting cylinder are arranged on two sides of the support plate relatively, the first sensor is arranged on the support plate, and the connecting cylinder is sleeved on the support assembly and is arranged in a sliding mode along the vertical direction.

Furthermore, the connecting buckle is an external thread connecting rod which is arranged on the support plate in an overhanging mode.

Furthermore, the first inductor is provided with a threaded connection section, the top of the support plate is provided with a threaded connection hole, and the support plate is in threaded fit connection with the threaded connection hole through the threaded connection section so as to adjust the installation height of the first inductor and position the first inductor.

Furthermore, the device also comprises a power supply assembly, and the power supply assembly is electrically connected with the induction monitoring assembly and the alarm assembly respectively.

Furthermore, the top of the second inductor is provided with an arc waterproof strip protruding from the side surface of the second inductor.

Furthermore, the first sensor adopts a positioning ball, the second sensor adopts a monitor, and the monitor sends an alarm signal to the alarm component when the positioning ball is dislocated with the monitor and is separated from a monitoring center of the monitor.

The utility model discloses following beneficial effect has:

the utility model discloses a bridge settlement monitoring device, including response monitoring subassembly, warning subassembly, attachment means and supporting component, the response monitoring subassembly is including the first inductor and the second inductor that match each other. The first inductor is fixedly arranged on the attachment component, the attachment component is arranged on the bridge and synchronously subsides along with the bridge, the second inductor is fixedly arranged on the support component, and the support component is fixedly arranged on one side of the bridge; because the quality of supporting component and second inductor is little, can not take place to subside after fixing one side of bridge, can drive adhesion assembly and first inductor synchronous settlement when the bridge subsides, can take place the dislocation with the second inductor that matches each other after the first inductor subsides, the second inductor can alert subassembly of attorney sends alarm signal and sends the warning suggestion bridge monitoring staff through alarm assembly this moment, the utility model discloses a bridge settlement monitoring device in time sends alarm signal suggestion bridge monitoring personnel after the bridge takes place to subside, has solved current bridge monitoring personnel and can't in time acquire bridge settlement information, the technical problem of safety measure can't be taken the very first time.

In addition to the above-described objects, features and advantages, the present invention has other objects, features and advantages. The present invention will be described in further detail with reference to the drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. In the drawings:

fig. 1 is a schematic structural view of a bridge settlement monitoring device according to a preferred embodiment of the present invention;

FIG. 2 is one of the schematic partial block diagrams of FIG. 1;

fig. 3 is a second schematic view of a portion of the structure of fig. 1.

Illustration of the drawings:

100. a bridge settlement monitoring device; 10. an inductive monitoring component; 11. a first inductor; 12. a second inductor; 121. an arc-shaped waterproof strip; 30. an attachment assembly; 31. a connecting buckle; 32. a support plate; 33. a connecting cylinder; 40. a support assembly; 41. a base; 42. a support bar; 43. a support cylinder; 431. a scale groove.

Detailed Description

The embodiments of the invention will be described in detail hereinafter with reference to the drawings, but the invention can be implemented in many different ways, which will be defined and covered hereinafter.

As shown in fig. 1, 2 and 3, the bridge settlement monitoring device 100 of the present embodiment includes a sensing monitoring component 10, an alarm component, an attachment component 30 for being installed on a bridge and synchronously settling along with the bridge, and a support component 40 for being disposed at a side of the bridge, the sensing monitoring component 10 is electrically connected to the alarm component, the sensing monitoring component 10 includes a first sensor 11 and a second sensor 12 that are matched with each other, the first sensor 11 is fixedly disposed on the attachment component 30, the second sensor 12 is fixedly disposed on the support component 40, the first sensor 11 and/or the second sensor 12 is electrically connected to the alarm component, and then the alarm component sends an alarm signal to the alarm component after the first sensor 11 and the second sensor 12, and the alarm component is configured to send out a dislocation alarm in response to a clasping signal.

The utility model discloses a bridge settlement monitoring device 100, including response monitoring subassembly 10, warning subassembly, attachment means 30 and supporting component 40, response monitoring subassembly 10 is including the first inductor 11 and the second inductor 12 that match each other. The first inductor 11 is fixedly arranged on the attachment component 30, the attachment component 30 is arranged on the bridge and settles synchronously with the bridge, the second inductor 12 is fixedly arranged on the support component 40, and the support component 40 is fixedly arranged on one side of the bridge; because the quality of supporting component 40 and second inductor 12 is little, can not take place to subside after fixing one side of bridge, can drive attachment component 30 and first inductor 11 and subside in step when the bridge subsides, can take place the dislocation with the second inductor 12 that matches each other after first inductor 11 subsides, response monitoring subassembly 10 can send alarm signal and send the warning suggestion bridge monitoring staff through alarm component to alarm component this moment, the utility model discloses a bridge settlement monitoring device 100 in time sends alarm signal suggestion bridge monitoring personnel after the bridge takes place to subside, has solved current bridge monitoring personnel and can't in time obtain bridge settlement information, the technical problem that safety measure can't be taken the very first time.

It can be understood that the sensing and monitoring assembly 10 is a sensing and monitoring device existing in the prior art, the sensing and monitoring assembly 10 sends out a monitoring signal when the two first sensors 11 and the second sensors 12 which are mutually matched (relatively arranged), and the sensing and monitoring assembly 10 sends out an alarm signal when the two first sensors 11 and the second sensors 12 which are mutually matched are not matched (relatively dislocated), (which can be a concentrated point irradiation sensing technology, and can also be an infrared reflection technology). Alternatively, the first inductor 11 may be an infrared emitter, and the second inductor 12 may be an infrared reflection plate; the first inductor 11 may be an infrared reflection plate, and the second inductor 12 may be an infrared emitter; the first sensor 11 may be a location ball and the second sensor 12 may be a monitor; the first sensor 11 may be a monitor and the second sensor 12 may be a location ball.

It is understood that the alarm component may be an alarm indicator light, or may be a mobile device (e.g., a mobile phone, a palm computer, etc.). The sensing monitoring component 10 is electrically connected with the alarm component, the sensing monitoring component 10 can be electrically connected with the alarm component through a cable, or the sensing monitoring component 10 can be electrically connected with the alarm component in a wireless communication manner.

It can be understood that the utility model discloses can also monitor the bridge slope, after the slope takes place to make first inductor 11 and second inductor 12 take place the dislocation as the bridge, response monitoring subassembly 10 can send alarm signal and send the warning suggestion bridge monitoring staff through the warning subassembly to the warning subassembly.

Further, in order to enable the attachment assembly 30 to move only vertically relative to the support assembly 40, so as to accurately monitor bridge settlement, a first end of the attachment assembly 30 is used for connecting with the bridge, and a second end of the attachment assembly 30 is movably disposed on the support assembly 40 vertically. Alternatively, the second end of the attachment member 30 may be sleeved on the support member 40, or the second end of the attachment accessory may be disposed on the support member 40 by a guide rail and a slider.

Further, the supporting component 40 includes a base 41, a supporting rod 42 vertically disposed on the base 41, and a supporting cylinder 43 sleeved on the supporting rod 42, the second end of the attachment component 30 is sleeved on the supporting cylinder 43 and movably disposed vertically, the second sensor 12 is fixedly disposed at the top of the supporting cylinder 43, an inner thread is disposed on an inner wall surface of the supporting cylinder 43, an outer thread is disposed on an outer wall surface of the supporting rod 42, and the supporting cylinder 43 is connected with the supporting rod 42 through a thread fit. The utility model discloses in, locate the top of a support section of thick bamboo 43 through the second inductor 12 is fixed, the internal face of a support section of thick bamboo 43 is equipped with the internal thread, the outer wall of bracing piece 42 is equipped with the external screw thread, a support section of thick bamboo 43 passes through screw-thread fit with bracing piece 42 and is connected, be convenient for with the mutual back of installing of supporting component 40 and attachment means 30, the initial position of the relative first inductor 11 of accurate regulation second inductor 12, specifically, can adjust the initial mounting height of second inductor 12 through making a support section of thick bamboo 43 and bracing piece 42 relative rotation.

Further, in order to facilitate observation of the actual settling amount, a scale or a scale groove 431 is provided on the outer wall surface of the support cylinder 43. Alternatively, the scale groove 431 is provided at the upper end of the support cylinder 43.

Further, the attachment assembly 30 includes a connecting buckle 31, a support plate 32 and a connecting cylinder 33 connected in sequence, the connecting buckle 31 and the connecting cylinder 33 are oppositely disposed on two sides of the support plate 32, the first sensor 11 is disposed on the support plate 32, and the connecting cylinder 33 is sleeved on the support assembly 40 and is vertically slidably disposed. Alternatively, the connecting tube 33 is disposed on the centerline of the strip 32, the connecting tube 33 and the strip 32 are combined to form a T-shaped structure, and the connecting buckle 31 is disposed on the side of the strip 32 away from the supporting tube 43.

Further, the connecting buckle 31 is an externally threaded connecting rod cantilevered on the support plate 32. The utility model discloses in, the screw thread end through the external screw thread connecting rod and the outer wall settlement point cooperation of bridge are so that attachment assembly 30 installs on the bridge.

Further, in order to adjust the initial relative position of first inductor 11 and second inductor 12 more accurately and conveniently, be equipped with the threaded connection section on first inductor 11, the top of extension board 32 is equipped with the threaded connection hole, is connected through threaded connection section and threaded connection hole screw-thread fit to adjust the mounting height of first inductor 11 and fix a position first inductor 11.

Furthermore, the device also comprises a power supply component which is respectively and electrically connected with the induction monitoring component 10 and the alarm component.

Further, in order to avoid the second sensor 12 from being washed by rain and snow and improve the monitoring efficiency, an arc-shaped waterproof strip 121 protruding from the side surface of the second sensor 12 is disposed at the top of the second sensor 12.

Further, the utility model discloses a technique of response is shone to the concentration point, will disperse and then send alarm signal on shining the arm body of wall roof beam. The first sensor 11 adopts a positioning ball, the second sensor 12 adopts a monitor, and the monitor sends an alarm signal to the alarm component when the positioning ball is dislocated with the monitor and is separated from a monitoring center of the monitor.

The working principle of the novel bridge settlement monitoring device 100 is as follows: when the bridge settlement monitoring device 100 is installed, the supporting cylinder 43 of the supporting component 40 is firstly assembled on the connecting cylinder 33 of the attaching component 30, and then the relative positions of the first inductor 11 and the second inductor 12 are adjusted, so that the bridge settlement monitoring device can perform real-time monitoring of the settlement height during monitoring. When the bridge settlement monitoring device is used, the supporting cylinder 43 is in penetrating sliding connection with the through hole of the connecting cylinder 33, the connecting buckle 31 of the attachment assembly 30 is clamped on an outer wall settlement point of a bridge, the bridge is settled, the first sensor 11 on the attachment assembly 30 descends along with the assembly 30, the first sensor 11 is separated from the monitoring center of the second sensor 12, the sensing monitoring assembly 10 sends out an alarm signal, and the scale groove 431 on the surface of the supporting cylinder 43 is changed, so that the settlement height of the bridge can be conveniently observed; the support rod 42 is fixed on the ground through the base 41, so that the deviation is not easy to occur, the quality of settlement monitoring is improved, and the practicability of the device is improved.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A bridge settlement monitoring device is used for monitoring the settlement of a bridge and is characterized in that,

comprises an induction monitoring component, an alarm component, an attachment component which is arranged on a bridge and can synchronously settle along with the bridge, and a support component which is arranged on the lateral side of the bridge, wherein the induction monitoring component is electrically connected with the alarm component,

the induction monitoring assembly comprises a first inductor and a second inductor which are matched with each other, the first inductor is fixedly arranged on the attachment assembly, the second inductor is fixedly arranged on the supporting assembly, the first inductor and/or the second inductor are electrically connected with the alarm assembly, and then the first inductor and the second inductor are staggered and then send alarm signals to the alarm assembly, and the alarm assembly is used for responding to the alarm signals and sending alarms.

2. The bridge settlement monitoring device of claim 1,

the first end of the attachment component is used for being connected with a bridge, and the second end of the attachment component is movably arranged on the supporting component along the vertical direction.

3. The bridge settlement monitoring device of claim 2,

the supporting component comprises a base, a supporting rod vertically arranged on the base and a supporting cylinder sleeved on the supporting rod, the second end of the attachment component is sleeved on the supporting cylinder and movably arranged along the vertical direction, the second sensor is fixedly arranged at the top of the supporting cylinder,

the inner wall surface of the supporting cylinder is provided with internal threads, the outer wall surface of the supporting rod is provided with external threads, and the supporting cylinder is connected with the supporting rod in a threaded fit mode.

4. The bridge settlement monitoring device of claim 3,

and a dial gauge or a scale groove is arranged on the outer wall surface of the supporting cylinder.

5. The bridge settlement monitoring device of claim 2,

the attachment component comprises a connecting buckle, a support plate and a connecting cylinder which are connected in sequence, the connecting buckle and the connecting cylinder are oppositely arranged on two sides of the support plate, the first inductor is arranged on the support plate,

the connecting cylinder is sleeved on the supporting component and is arranged in a vertically slidable mode.

6. The bridge settlement monitoring device of claim 5,

the connecting buckle is an external thread connecting rod which is arranged on the supporting plate in a cantilever mode.

7. The bridge settlement monitoring device of claim 5,

the first inductor is provided with a threaded connection section, the top of the support plate is provided with a threaded connection hole, and the threaded connection section is in threaded fit connection with the threaded connection hole so as to adjust the installation height of the first inductor and position the first inductor.

8. The bridge settlement monitoring device of claim 2,

the power supply assembly is electrically connected with the induction monitoring assembly and the alarm assembly respectively.

9. The bridge settlement monitoring device of claim 2,

the top of the second inductor is provided with an arc waterproof strip which protrudes out of the side face of the second inductor and is arranged.

10. The bridge settlement monitoring device of claim 2,

the first sensor adopts a positioning ball, the second sensor adopts a monitor, and when the positioning ball is dislocated with the monitor and is separated from a monitoring center of the monitor, the monitor sends an alarm signal to the alarm component.

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