CN214540052U - Bridge safety parameter measurement analytical equipment based on big dipper location - Google Patents

Abstract

The utility model discloses a bridge safety parameter determination and analysis device based on Beidou positioning, which comprises a measuring component, a lifting determination component, a thread knob, a Beidou positioning module and a computer terminal, wherein the lower end of the measuring component is slidably provided with the lifting determination component, the measuring component and the lifting determination component are movably connected through the thread knob, an operator clamps a fixed clamping block on a bridge floor, and the lifting determination component moves upwards through the thread knob, so that the lifting determination component moves to the bottom surface of the bridge, one side of a square chute is provided with scales, the thickness of the bridge can be read through a positioning block, the operation is fast and convenient, the accuracy of a measuring result is high, two sides of two ends of a U-shaped mounting block main body are respectively provided with a pair of small balls, and the small balls are arranged in a semicircular chute, the arrangement reduces the abrasion between the U-shaped mounting block and a measuring plate, the service life of the device is prolonged.

Description

Bridge safety parameter measurement analytical equipment based on big dipper location

Technical Field

The utility model relates to a big dipper satellite technology field specifically is a bridge safety parameter survey analytical equipment based on big dipper location.

Background

The Beidou satellite navigation system is a global satellite navigation system developed by China and is also a third mature satellite navigation system following GPS and GLONASS, at present, a lot of devices work based on Beidou satellites, and comprise slope detection devices, and a bridge safety parameter determination and analysis device is used for determining, collecting and separating parameters such as thickness of a bridge.

The thickness of the existing bridge is generally measured by an operator directly by using a ruler, so that the accuracy of a measuring result is low, and the recording of the measuring position is troublesome.

To above problem, improve current device, provided a bridge safety parameter survey analytical equipment based on big dipper location.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a bridge safety parameter surveys analytical equipment based on big dipper location adopts this device to work to it all is that the operator directly goes to measure with the ruler to have solved bridge thickness in the above-mentioned background generally, and not only measuring result's the degree of accuracy is low, gets up also more troublesome problem to measured position record simultaneously.

In order to achieve the above object, the utility model provides a following technical scheme: a bridge safety parameter determination and analysis device based on Beidou positioning comprises a measuring component, a lifting determining component, a threaded knob, a Beidou positioning module and a computer terminal, wherein the lifting determining component is slidably mounted at the lower end of the measuring component, the measuring component and the lifting determining component are movably connected through the threaded knob, the lifting determining component is electrically connected with the Beidou positioning module, the Beidou positioning module is electrically connected with the computer terminal, the measuring component comprises a measuring plate and a lifting handle, the upper end of the measuring plate is movably provided with the lifting handle, and two ends of the lifting handle are respectively movably riveted on the outer walls of two sides of the measuring plate;

the lifting measurement assembly comprises a U-shaped mounting block, a positioning block, a pressure sensing mechanism, a central processing unit and a signal sending module, wherein two ends of the U-shaped mounting block are fixedly mounted on the outer wall of one side of the positioning block, the pressure sensing mechanism is movably mounted on the top surface of the positioning block, the central processing unit and the signal sending module are respectively arranged in the pressure sensing mechanism, and the central processing unit and the signal sending module are electrically connected with each other.

Furthermore, the measuring plate comprises a measuring plate main body, a fixing clamping block and a bearing mounting block, the fixing clamping block and the bearing mounting block are respectively and fixedly mounted on two sides of the upper end of the measuring plate main body, and the positioning block is arranged on the fixing clamping block.

Further, a pair of square sliding grooves are formed in the surface of the measuring plate main body, scales are arranged on one sides of the square sliding grooves, the scales are arranged on the surface of the measuring plate main body, and a pair of semicircular sliding grooves are formed in the inner walls of the two ends of each square sliding groove respectively.

Further, the bearing is fixedly embedded in the middle of the bearing mounting block, and the outer wall at the upper end of the threaded knob is fixedly mounted on the inner wall of the bearing.

Further, U type installation piece includes U type installation piece main part, little ball and screw hole, and the middle part of U type installation piece main part is provided with the screw hole, and the both ends both sides of U type installation piece main part are provided with a pair of little ball respectively, and little ball setting in the semicircle spout, and threaded knob's lower extreme passes through threaded connection in the screw hole.

Furthermore, an induction mounting groove is formed in the top face of the middle of the positioning block.

Further, the pressure sensing mechanism comprises a pressing plate, a pressure sensor and a spring, the lower end of the pressing plate is arranged in the sensing mounting groove, the upper end of the pressing plate is arranged at the upper end of the sensing mounting groove, the pressure sensor is fixedly mounted on the top surface of the pressing plate, two ends of the bottom surface of the pressing plate are respectively fixedly mounted on the spring, the lower end of the spring is fixedly mounted on the bottom surface of the inner cavity of the sensing mounting groove, and the pressure sensor is electrically connected with the central processing unit.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the utility model provides a bridge safety parameter surveys analytical equipment based on big dipper location, measuring component's lower extreme slidable mounting has the lift survey subassembly, and carry out swing joint through the screw thread knob between measuring component and the lift survey subassembly, the operator fixes the clamp splice card on the bridge floor, through knob screw thread knob, thereby make lift survey subassembly rebound, make the lift survey subassembly remove to the bottom surface of bridge on, one side of square spout is provided with the scale, can read the thickness of bridge through the locating piece, not only operate swiftly convenient, also make the measuring result degree of accuracy high simultaneously.

2. The utility model provides a bridge safety parameter determination analytical equipment based on big dipper location, the both ends both sides of U type installation piece main part are provided with a pair of little ball respectively, and little ball setting in the semicircle spout, and this kind of setting has reduced U type installation piece and has measured the wearing and tearing between the board, has increased the life of device.

3. The utility model provides a bridge safety parameter survey analytical equipment based on big dipper location carries out electric connection between pressure sensor and the central processing unit, carries out electric connection between central processing unit and the signaling module, carries out electric connection between lift survey subassembly and the big dipper orientation module, carries out electric connection between big dipper orientation module and the computer terminal, and this kind of setting makes the measuring place can be conveyed on the computer terminal in real time, has made things convenient for the real-time recording to measuring the place.

Drawings

Fig. 1 is a schematic view of the overall three-dimensional structure of the present invention;

fig. 2 is a schematic perspective view of the measuring assembly of the present invention;

FIG. 3 is a schematic perspective view of the lift measurement assembly of the present invention;

FIG. 4 is a cross-sectional view of the positioning block of the present invention;

fig. 5 is a flow chart of the present invention.

In the figure: 1. a measurement assembly; 11. measuring a plate; 111. a measuring plate main body; 1111. a square chute; 1112. calibration; 1113. a semicircular chute; 112. fixing the clamping block; 113. a bearing mounting block; 1131. a bearing; 12. lifting the handle; 2. a lift measurement assembly; 21. a U-shaped mounting block; 211. a U-shaped mounting block main body; 212. a small ball; 213. a threaded hole; 22. positioning blocks; 221. an induction mounting groove; 23. a pressure sensing mechanism; 231. pressing a plate; 232. a pressure sensor; 233. a spring; 24. a central processing unit; 25. a signal transmitting module; 3. a threaded knob; 4. a Beidou positioning module; 5. and (6) a computer terminal.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, a bridge safety parameter measurement and analysis device based on Beidou positioning comprises a measurement component 1, a lifting measurement component 2, a threaded knob 3, a Beidou positioning module 4 and a computer terminal 5, wherein the lifting measurement component 2 is slidably mounted at the lower end of the measurement component 1, the measurement component 1 and the lifting measurement component 2 are movably connected through the threaded knob 3, the lifting measurement component 2 is electrically connected with the Beidou positioning module 4, the Beidou positioning module 4 is electrically connected with the computer terminal 5, the measurement component 1 comprises a measurement plate 11 and a lifting handle 12, the lifting handle 12 is movably mounted at the upper end of the measurement plate 11, two ends of the lifting handle 12 are respectively and movably riveted on the outer walls of two sides of the measurement plate 11, and the lifting measurement component 2 comprises a U-shaped mounting block 21, a positioning block 22 and a pressure sensing mechanism 23, The measuring instrument comprises a central processing unit 24 and a signal sending module 25, two ends of a U-shaped mounting block 21 are fixedly mounted on the outer wall of one side of a positioning block 22, a pressure sensing mechanism 23 is movably mounted on the top surface of the positioning block 22, the central processing unit 24 and the signal sending module 25 are respectively arranged in the pressure sensing mechanism 23, the central processing unit 24 is electrically connected with the signal sending module 25, a measuring plate 11 comprises a measuring plate main body 111, a fixing clamping block 112 and a bearing mounting block 113, the two sides of the upper end of the measuring plate main body 111 are respectively and fixedly mounted with the fixing clamping block 112 and the bearing mounting block 113, the positioning block 22 is arranged on the fixing clamping block 112, a pair of square chutes 1111 is arranged on the surface of the measuring plate main body 111, scales 1112 are arranged on one side of the square chutes 1111, the scales 1112 are arranged on the surface of the measuring plate main body 111, a pair of semicircular chutes 1113 are respectively arranged on the inner walls of the two ends of the square chutes 1111, the middle of the bearing mounting block 113 is fixedly embedded with a bearing 1131, the outer wall of the upper end of the screw knob 3 is fixedly mounted on the inner wall of the bearing 1131, the U-shaped mounting block 21 comprises a U-shaped mounting block main body 211, small balls 212 and a screw hole 213, the screw hole 213 is arranged in the middle of the U-shaped mounting block main body 211, a pair of small balls 212 are respectively arranged on two sides of two ends of the U-shaped mounting block main body 211, the small balls 212 are arranged in the semicircular sliding groove 1113, the lower end of the screw knob 3 is connected in the screw hole 213 through a screw thread, an induction mounting groove 221 is arranged on the top surface of the middle of the positioning block 22, the pressure induction mechanism 23 comprises a pressing plate 231, a pressure sensor 232 and a spring 233, the lower end of the pressing plate 231 is arranged in the induction mounting groove 221, the upper end of the pressing plate 231 is arranged at the upper end of the induction mounting groove 221, the pressure sensor 232 is fixedly mounted on the top surface of the pressing plate 231, two ends of the bottom surface of the pressing plate 231 are respectively and fixedly mounted on the spring 233, the lower end of the spring 233 is fixedly installed on the bottom surface of the inner cavity of the sensing installation groove 221, and the pressure sensor 232 is electrically connected to the cpu 24.

The lower end of the measuring component 1 is slidably provided with a lifting measuring component 2, the measuring component 1 is movably connected with the lifting measuring component 2 through a threaded knob 3, an operator clamps a fixed clamping block 112 on the bridge floor, the lifting measuring component 2 moves upwards through the threaded knob 3, the lifting measuring component 2 moves to the bottom surface of the bridge, one side of a square sliding groove 1111 is provided with a scale 1112, the thickness of the bridge can be read through a positioning block 22, the operation is quick and convenient, the accuracy of the measuring result is high, two sides of two ends of a U-shaped mounting block main body 211 are respectively provided with a pair of small balls 212, the small balls 212 are arranged in a semicircular sliding groove 1113, the arrangement reduces the abrasion between the U-shaped mounting block 21 and the measuring plate 11, the service life of the device is prolonged, and the pressure sensor 232 is electrically connected with the central processing unit 24, carry out electric connection between central processing unit 24 and the signal transmission module 25, carry out electric connection between lift survey subassembly 2 and the big dipper orientation module 4, carry out electric connection between big dipper orientation module 4 and the computer terminal 5, this kind of setting makes the measuring place can be conveyed on computer terminal 5 in real time, has made things convenient for the real-time recording to measuring the place.

In summary, the following steps: the utility model provides a bridge safety parameter survey analytical equipment based on big dipper location, the lower extreme slidable mounting of measuring component 1 has lift survey subassembly 2, and carry out swing joint through screw thread knob 3 between measuring component 1 and the lift survey subassembly 2, the operator blocks fixed clamp splice 112 on the bridge floor, through knob screw thread knob 3, thereby make lift survey subassembly 2 move upwards, make lift survey subassembly 2 move to the bottom surface of bridge, one side of square spout 1111 is provided with scale 1112, can read the thickness of bridge through locating piece 22, not only the operation is swift convenient, also make the measuring result degree of accuracy high simultaneously, both ends both sides of U type installation piece main part 211 are provided with a pair of little ball 212 respectively, and little ball 212 sets up in semicircle spout 1113, this kind of setting has reduced the wearing and tearing between U type installation piece 21 and the measuring plate 11, the life of the device has been increased, carry out electric connection between pressure sensor 232 and the central processing unit 24, carry out electric connection between central processing unit 24 and the signalling module 25, carry out electric connection between lift survey subassembly 2 and the big dipper orientation module 4, carry out electric connection between big dipper orientation module 4 and the computer terminal 5, this kind of setting makes the measuring place can be conveyed on computer terminal 5 by real time, made things convenient for the real-time recording to measuring the place.

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.

Claims (7)

1. The utility model provides a bridge safety parameter survey analytical equipment based on big dipper location, includes measuring subassembly (1), lift survey subassembly (2), screw thread knob (3), big dipper orientation module (4) and computer terminal (5), its characterized in that: the measuring device is characterized in that a lifting measuring component (2) is slidably mounted at the lower end of the measuring component (1), the measuring component (1) and the lifting measuring component (2) are movably connected through a threaded knob (3), the lifting measuring component (2) is electrically connected with a Beidou positioning module (4), the Beidou positioning module (4) is electrically connected with a computer terminal (5), the measuring component (1) comprises a measuring plate (11) and a lifting handle (12), the upper end of the measuring plate (11) is movably mounted with the lifting handle (12), and two ends of the lifting handle (12) are respectively movably riveted on the outer walls of two sides of the measuring plate (11);

lift survey subassembly (2) are including U type installation piece (21), locating piece (22), pressure-sensitive mechanism (23), central processing unit (24) and signal transmission module (25), the both ends fixed mounting of U type installation piece (21) is on one side outer wall of locating piece (22), movable mounting has pressure-sensitive mechanism (23) on the top surface of locating piece (22), central processing unit (24) and signal transmission module (25) set up respectively in pressure-sensitive mechanism (23), carry out electric connection between central processing unit (24) and the signal transmission module (25).

2. The bridge safety parameter measurement and analysis device based on Beidou positioning according to claim 1, is characterized in that: the measuring plate (11) comprises a measuring plate main body (111), a fixing clamping block (112) and a bearing mounting block (113), the fixing clamping block (112) and the bearing mounting block (113) are respectively and fixedly mounted on two sides of the upper end of the measuring plate main body (111), and the positioning block (22) is arranged on the fixing clamping block (112).

3. The bridge safety parameter measurement and analysis device based on Beidou positioning according to claim 2, is characterized in that: the utility model discloses a measuring plate, including measuring plate main part (111), be provided with a pair of square spout (1111) on the surface of measuring plate main part (111), one side of square spout (1111) is provided with scale (1112), and scale (1112) set up the measuring plate main part (111) on the surface, be provided with a pair of semicircle spout (1113) on the both ends inner wall of square spout (1111) respectively.

4. The bridge safety parameter measurement and analysis device based on Beidou positioning according to claim 2, is characterized in that: the middle part of bearing installation piece (113) is fixed to be embedded with bearing (1131), and the outer wall fixed mounting of screw thread knob (3) upper end is on the inner wall of bearing (1131).

5. The bridge safety parameter measurement and analysis device based on Beidou positioning according to claim 1, is characterized in that: u type installation piece (21) are including U type installation piece main part (211), little ball (212) and screw hole (213), and the middle part of U type installation piece main part (211) is provided with screw hole (213), and the both ends both sides of U type installation piece main part (211) are provided with a pair of little ball (212) respectively, and little ball (212) set up in semicircle spout (1113), and threaded connection is passed through in screw hole (213) to the lower extreme of screw knob (3).

6. The bridge safety parameter measurement and analysis device based on Beidou positioning according to claim 1, is characterized in that: and an induction mounting groove (221) is formed in the top surface of the middle part of the positioning block (22).

7. The bridge safety parameter measurement and analysis device based on Beidou positioning according to claim 1, is characterized in that: pressure-sensitive mechanism (23) is including clamp plate (231), pressure sensor (232) and spring (233), the lower extreme setting of clamp plate (231) is in response mounting groove (221), the upper end setting of clamp plate (231) is in the upper end of response mounting groove (221), pressure sensor (232) fixed mounting is on the top surface of clamp plate (231), the bottom surface both ends of clamp plate (231) are fixed mounting respectively at spring (233), and the lower extreme fixed mounting of spring (233) is on the inner chamber bottom surface of response mounting groove (221), and carry out electric connection between pressure sensor (232) and central processing unit (24).

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