CN209673089U - Contact hydrostatic level, relative settlement monitor system - Google Patents

Abstract

The utility model discloses contact hydrostatic level, relative settlements to monitor system；Contact hydrostatic level includes stay wire displacement sensor, data acquisition module, piston block, Hooke type elastic component and cylinder, the distance that stay wire displacement sensor is used to measure piston block to stay wire displacement sensor, the bottom wall of both ends the connection piston block and inner cavity of Hooke type elastic component；It includes liquid storage container, contact hydrostatic level, tidal data recovering device and data processing centre that relative settlement, which monitors system, and liquid storage container connects to form linker with contact hydrostatic level；The reading of front and back stay wire displacement sensor is settled by test point, calculates sedimentation front and back relative to the liquid level difference of liquid storage container and then calculates the relative settlement amount between monitoring point.The utility model is converted into the sedimentation of monitoring point the elastic deformation of Hooke type elastic component, and its deformation quantity calculates settling amount, guarantees that energy level is high-precision while, it can be achieved that larger range.

Description

Contact hydrostatic level, relative settlement monitor system

Technical field

The utility model belongs to engineering Inspection Technique field, and in particular to contact hydrostatic level, relative settlement monitoring System.

Background technique

Hydrostatic level is a kind of level measuring instrument, for monitoring the relative settlement amount of multiple spot, i.e., each measuring point it is vertical It is displaced the variation relative to datum mark, with the relative settlement amount of each measuring point of this accurate calculation.Application includes building, Such as Hydroelectric Plant, dam, high-rise, nuclear power station, water-control project, each measuring point such as railway, subway, high-speed rail unevenly sinks The measurement of drop.

The hydrostatic level of existing condenser type, inductance type and photo-electric is by floating on the float of liquid level in Vertical Square To stroke measure the sedimentation of measuring point, so the range of this kind of hydrostatic levels is smaller, be usually no more than 50mm, and pacify Reload request is high, it is desirable that sensor internal liquid level is parallel with sensor base mounting surface after installation.

Existing differential hydrostatic level is mainly by using the variation of diffusion silicon core measurement sensor pressure, to calculate The eustasy of each measuring point relative level basic point.Diffusion silicon full accuracy only has 0.1%FS, differential quiet under most of range High-precision requirement is not achieved in power level sensor.

Therefore, it is necessary to a kind of new technology with solve in the prior art hydrostatic level installation requirement is higher, range is lower, The lower problem of precision.

Utility model content

To solve the above problem in the prior art, the utility model provides contact hydrostatic level, relative settlement Monitoring system, it is easy for installation, range is larger, measurement accuracy is higher.

The utility model uses following technical scheme:

Contact hydrostatic level, including stay wire displacement sensor, data acquisition module, piston block, Hooke type elastic component With the cylinder for being equipped with inner cavity；

The piston block is mounted in the inner cavity and can be bonded relative to the side wall of the inner cavity and slides；The Hooke Type elastic component is located at the lower section of the piston block, and the both ends of the Hooke type elastic component are solid with the bottom wall of piston block, inner cavity respectively Fixed connection；

The stay wire displacement sensor and the data acquisition module are mounted on the upside of the inner cavity, and the bracing wire displacement passes The distance that sensor is used to measure the piston block to the stay wire displacement sensor, the stay wire displacement sensor and the data Acquisition module electrical connection；

Blow vent and fluid-through port are provided on the side wall of the cylinder, the upper of the fluid-through port is arranged in the blow vent Side, the piston block are slidably arranged between the blow vent and fluid-through port.

It is further used as the improvement of technical solutions of the utility model, the inner cavity is divided into the electricity of upside by a lateral partitions The liquid flow cavity of air cavity and downside；The stay wire displacement sensor and the data acquisition module are mounted in the electrical cavity, The lateral partitions correspond to the stay wire displacement sensor equipped with cable-through hole；The piston block, Hooke type elastic component are mounted on institute It states in liquid flow cavity.

It is further used as the improvement of technical solutions of the utility model, temperature sensor is additionally provided in the piston block, it is described Temperature sensor is electrically connected with the data acquisition module.

Relative settlement monitors system, is filled based on the contact hydrostatic level, including liquid storage container, tidal data recovering It sets, data processing centre and more than two contact hydrostatic levels；

Each contact hydrostatic level is separately mounted to scheduled monitoring point, each contact hydrostatic level Fluid-through port connect with the liquid storage container and is formed linker, the blow vent of each contact hydrostatic level by fluid-through tube It is connect by snorkel with the liquid storage container, each contact hydrostatic level is electrically connected with the tidal data recovering device；

The tidal data recovering device and the data processing centre communicate to connect, and the tidal data recovering device is used for each institute The measurement data for stating data acquisition module is sent to the data processing centre；

The data processing centre is used for the collected each contact hydrostatic level of the tidal data recovering device Measurement data calculate the relative settlement amount of each monitoring point.

It is further used as the improvement of technical solutions of the utility model, further includes wireless communication module, the tidal data recovering dress It sets and is communicated to connect by the wireless communication module and the data processing centre.

It is further used as the improvement of technical solutions of the utility model, the data processing centre is Cloud Server.

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

The utility model has the advantages of convenient installation, and the sedimentation of traditional float measurement liquid level is replaced using piston block, holds without leveling Liquid level in device；The range of the utility model is larger, and precision is higher, and the sedimentation of monitoring point is converted into Hooke type elastic component Elastic deformation, and using the deformation quantity of stay wire displacement sensor measurement Hooke type elastic component, guarantee energy level high-precision While, it can be achieved that larger range.

Detailed description of the invention

The technology of the utility model is described in further detail with reference to the accompanying drawings and detailed description:

Fig. 1 is the schematic diagram of internal structure of the contact hydrostatic level of the utility model；

Fig. 2 is the schematic diagram of the relative settlement monitoring system of the utility model.

Appended drawing reference:

1- contact hydrostatic level；11- stay wire displacement sensor；12- cylinder；The inner cavity 121-；The electrical chamber of 1211-； 1212- liquid flow cavity；122- fluid-through port；123- blow vent；124- partition；125- electric interfaces；13- piston block；14- Hooke type bullet Property part；2- liquid storage container；3- tidal data recovering device；4- data processing centre；5- wireless communication module；6- fluid-through tube；7- ventilation Pipe；8- data line.

Specific embodiment

It is carried out below with reference to technical effect of the embodiment and attached drawing to the design of the utility model, specific structure and generation Clear, complete description, to be completely understood by the purpose of this utility model, scheme and effect.It should be noted that not conflicting In the case where, the features in the embodiments and the embodiments of the present application can be combined with each other.What is used everywhere in attached drawing is identical Appended drawing reference indicates the same or similar part.

It should be noted that unless otherwise specified, when a certain feature referred to as " fixation ", " connection " are in another feature, It can directly fix, be connected to another feature, and can also fix, be connected to another feature indirectly.In addition, this The descriptions such as upper and lower, left and right used in utility model are only the phase relative to each component part of the utility model in attached drawing For mutual positional relationship.

Referring to Fig.1, the utility model provides contact hydrostatic level 1, including stay wire displacement sensor 11, data are adopted Collect module (not shown), piston block 13, Hooke type elastic component 14 and the cylinder 12 equipped with inner cavity 121.

Wherein, the inner cavity 121 is divided into the electrical chamber 1211 of upside and the liquid flow cavity of downside by a lateral partitions 124 1212.The cylinder 12 is equipped with the fluid-through port 122 and blow vent 123 being connected to the inner cavity 121, and fluid-through port 122 is in liquid stream The downside of chamber 1212, for blow vent 123 in the upside of liquid flow cavity 1212, piston block 13 is slidably arranged in ventilation 123 mouthfuls and fluid-through port Between 122.

The piston block 13, Hooke type elastic component 14 are mounted in the liquid flow cavity 1212.The piston block 13 being capable of phase Sliding is bonded for the side wall of the inner cavity 121；The Hooke type elastic component 14 is located at the lower section of the piston block 13, the Hu The both ends of gram type elastic component 14 are fixedly connected with the bottom wall of piston block 13, inner cavity 121 respectively.Electrical chamber is also corresponded on cylinder 12 1211 are equipped with electric interfaces 125, and power supply source line, data line are in communication with the outside.Wherein, Hooke type elastic component 14 is accurate linear type Spring.

In use, cylinder 12 is mounted on monitoring point, the fluid-through port 122 of cylinder 12 is connect with external container, forms connection Device, the gravity of piston block 13, the active force of Hooke type elastic component 14 and hydraulic coupling form balance at this time；

When monitoring point settles, reach new balance, the hydraulic pressure difference of cylinder 12 and external container changes, hydraulic coupling hair Changing, the length of Hooke type elastic component 14 and active force are also changed at this time, can calculate Hooke by Hooke's law The active force of type elastic component 14, and then calculate settling amount.

Therefore, in order to measure Hooke type elastic component 14 length variable quantity, be provided with stay wire displacement sensor 11, bracing wire Displacement sensor 11 specifically can be high-precision stay wire displacement sensor, to reach higher measurement accuracy.The bracing wire displacement Sensor 11 and the data acquisition module are mounted on the upside of the inner cavity 121, i.e., in described 1211 body of electrical chamber；The transverse direction The corresponding stay wire displacement sensor 11 of partition 124 is equipped with cable-through hole.The stay wire displacement sensor 11 is for measuring the work Chock 13 arrives the distance of the stay wire displacement sensor 11, and the stay wire displacement sensor 11 and the data acquisition module are electrically connected It connects.Data acquisition module can store the measurement data of sedimentation front and back stay wire displacement sensor 11, that is, read.Data acquisition module Including microcontroller and memory, memory and microcontroller electrical connection, microcontroller are electrically connected with stay wire displacement sensor 11.

When sedimentation occurs for monitoring point so that the length of Hooke type elastic component 14 changes, then piston block 13 arrives bracing wire displacement sensing The distance of device 11 also changes, and is also changed by the reading of stay wire displacement sensor 11, variable quantity, that is, Hooke of reading The deformation quantity of type elastic component 14, then above-mentioned calculating is carried out by Hooke's law.

As preferred embodiment, temperature sensor (not shown), the temperature are additionally provided in the piston block 13 Degree sensor is electrically connected with the data acquisition module.Through the variation of temperature sensor measurement temperature, when calculating settling amount Exclude temperature bring deviation.

Based on the above structure of this contact hydrostatic level 1, the sedimentation of monitoring point is converted into Hooke type elastic component 14 Elastic deformation, and measure using stay wire displacement sensor 11 deformation quantity of Hooke type elastic component 14, guarantee high-precision same When, it can be achieved that larger range；The sedimentation that traditional float measurement liquid level is replaced using piston block 13, without leveling liquid in cylinder 12 Face is horizontal, easier for installation；Piston block 13 is supported using Hooke type elastic component 14, so that the reading of stay wire displacement sensor 11 It is more stable, and 12 body of cylinder on while installing each measuring point is without being mounted near same horizontal line, it can be in range ability It layouts, installation requirement is lower；Corresponding temperature is all directed to when reading every time to compensate, and ensure that the high-precision of measurement.

The utility model additionally provides relative settlement monitoring system, referring to Figures 1 and 2, based on above-mentioned contact static(al) Level 1, including liquid storage container 2, tidal data recovering device 3, data processing centre 4 and more than two contact static(al) water Quasi- instrument 1, the data processing centre 4 can be local server or Cloud Server, preferably, selection Cloud Server.

Each contact hydrostatic level 1 is separately mounted to scheduled monitoring point, each contact hydrostatic level 1 Fluid-through port 122 with the liquid storage container 2 connect and formed linker, each contact hydrostatic level 1 by fluid-through tube 6 Blow vent 123 connect with the liquid storage container 2 by snorkel 7, each contact hydrostatic level 1 and data remittance Acquisition means 3 are electrically connected by data line 8.

The tidal data recovering device 3 is communicated to connect with the data processing centre 4, and the tidal data recovering device 3 is used for will The measurement data of each data acquisition module is sent to the data processing centre 4.Tidal data recovering device 3 can store each The measurement data for the stay wire displacement sensor 11 that data acquisition module records in contact hydrostatic level 1, then will be pooled to Measurement data is sent to data processing centre 4.

Tidal data recovering device 3 is the high-speed data acquiring device based on RS485 bus, and RS485 bus is a kind of technical grade Bus system, be usually applied to be acquired multipoint data in industry spot, generally use RS485 bus, use a master tape Mostly from communication mode, this kind of martingale is convenient only to need two shielded cables, and the remote maximum of communication distance can be supported 1500m adds repeater that can also extend communication distance, good using differential signal mode electromagnetism interference.It uses principal and subordinate's question and answer Mode acquires the data of each subelement, i.e. master unit successively accesses each subelement, which unit is accessed, which unit uploads number According to the right to use of bus is distributed by master unit completely, and each subelement cannot capture bus without authorization.Therefore tidal data recovering device 3 can Successively to access the corresponding data acquisition module in each monitoring point, to collect the data of each data acquisition module.This technology It is technology commonly used in the art, details are not described herein.

In the present embodiment, it further includes wireless communication module 5 that this relative settlement, which monitors system, and the tidal data recovering device 3 is logical The wireless communication module 5 is crossed to communicate to connect with the data processing centre 4.Wireless communication module 5 include WiFi module or GPRS module.

The data processing centre 4 is used for the collected each contact static level of the tidal data recovering device 3 The measurement data of instrument 1 calculates the relative settlement amount of each monitoring point.

Contact hydrostatic level 1 is mounted on monitoring point relative to liquid before the sedimentation of liquid storage container 2 before first calculating sedimentation Face is poor, then calculate sedimentation after sedimentation after liquid level it is poor；Liquid level difference before liquid level difference after sedimentation and sedimentation, which is subtracted each other, can obtain monitoring point phase For the settling amount of liquid storage container 2；One monitoring point of reselection is as datum mark, by other monitoring points relative to liquid storage container 2 Settling amount of the settling amount with the datum mark relative to liquid storage container 2 subtract each other, other monitoring points can be obtained relative to the datum mark Settling amount.

The utility model additionally provides the relative settlement monitoring method based on above-mentioned relative settlement monitoring system, including following Step:

S1. each contact hydrostatic level 1 is mounted on corresponding monitoring point, the cylinder 12 of each measuring point requires to pacify In the range ability of cylinder 12, and connect the relative settlement monitoring system.

If the contact hydrostatic level 1 is h, the weight of the piston block 13 with the liquid level difference in the liquid storage container 2 Power is G, and the pulling force of the stay wire displacement sensor is T, and the cross-sectional area of the inner cavity 121 is S；The Hooke type elastic component 14 The reading of the stay wire displacement sensor 11 is a when not deformation；The coefficient of elasticity of the Hooke type elastic component 14 is k；Linker The density of middle connection liquid is ρ, and the reading of stay wire displacement sensor 11 is x when measurement.

When piston block 13, which is in, to be stablized, it is known that, the hydraulic pressure difference active force that piston block 13 is subject to are as follows:

N=S ρ gh (1)

Active force of the Hooke type elastic component 14 to piston block 13 known to Hooke's law are as follows:

F=| a-x | k (2)

If in the inner cavity 121 without connection liquid and when piston block 13 is under equilibrium state, the stay wire displacement sensor 11 reading is a₀。

Then as reading x > a of stay wire displacement sensor 11₀When, Hooke type elastic component 14 is pressurized, piston block 13 in inner cavity 121 Have when in equilibrium state:

G=F+N+T (3)

When the reading of stay wire displacement sensor 11 works as x≤a₀When, 14 tension of Hooke type elastic component, piston block in inner cavity 121 13 have when being in equilibrium state:

N+T=F+G (4)

Pass through above-mentioned (1), (2), (3), (4) four formula, it is known that, work as x > a₀When, the contact static level of monitoring point The liquid level of instrument 1 and liquid storage container 2 is poor are as follows:

As x≤a₀When, the contact hydrostatic level 1 of monitoring point and the liquid level of liquid storage container 2 are poor are as follows:

Therefore formula is selected according to the size of the reading x of the corresponding contact hydrostatic level 1 in each monitoring point before sedimentation (5) or before (6) calculating sedimentation each monitoring point is poor relative to liquid level before the sedimentation of the liquid storage container 2.

Such as assume there are tri- monitoring points A, B, C, by settling the corresponding contact hydrostatic level 1 in first three monitoring point Reading calculate separately out, the respectively h poor relative to liquid level before the sedimentation of the liquid storage container 2 that settle first three monitoring point_A0、 h_B0And h_C0。

S2. after settling, pass through liquid level according to each monitoring point collected data of corresponding contact hydrostatic level 1 It is poor relative to liquid level after the sedimentation of the liquid storage container 2 that poor calculation formula calculates separately each contact hydrostatic level 1.

Such as it is calculated after tri- monitoring points above-mentioned A, B, C settle by formula (5) or (6) relative to the liquid storage container Liquid level difference is respectively h after 2 sedimentation_A1、h_B1And h_C1。

S3. after before each monitoring point sedimentation computed above relative to the liquid level difference of liquid storage container 2, the two difference is calculated, Settling amount of the monitoring point relative to liquid storage container 2, i.e. settling amount calculation formula can be calculated are as follows:

Δ h=h₁-h₀ (7)

Wherein, Δ h is settling amount of the monitoring point relative to the liquid storage container 2；The h₀To settle the preceding monitoring point Corresponding contact hydrostatic level 1 and the liquid level in the liquid storage container 2 are poor；The h₁It is corresponding for the monitoring point after sedimentation Contact hydrostatic level 1 and the liquid level in the liquid storage container 2 it is poor.

For monitoring point A, according to formula (7), the settling amount relative to liquid storage container 2 is Δ h_A=h_A1-h_A0；Monitoring point The settling amount relative to liquid storage container 2 of B and C similarly calculates to obtain Δ h_B=h_B1-h_B0With Δ h_C=h_C1-h_C0。

S4. above-mentioned calculated value is settling amount of the monitoring point relative to liquid storage container 2, is next calculated between monitoring point Relative settlement amount.Point on the basis of a monitoring point is selected, the settling amount and the base by other monitoring points relative to liquid storage container 2 The settling amount relative to liquid storage container 2 subtracts each other on schedule, can obtain relative settlement amount of other monitoring points relative to the datum mark, it may be assumed that

Δ H=Δ h_X-Δh₀ (8)

Wherein, Δ h₀Settling amount for the datum mark relative to the liquid storage container 2；Δh_XIt is opposite for other monitoring points In the settling amount of the liquid storage container 2, Δ H is settling amount of other monitoring points relative to the datum mark.

Such as using above-mentioned monitoring point A as datum mark, according to formula (8), then monitoring point B is relative to the heavy of monitoring point A Drop amount is Δ H_BA=Δ h_B-Δh_A, monitoring point c is Δ H relative to the settling amount of monitoring point A_CA=Δ h_C-Δh_A。

So far, relative settlement amount of each monitoring point relative to the datum mark is calculated by aforementioned four step, works as monitoring When the value of the relative settlement amount of point is greater than 0, which sinks relative to benchmark；When the value of relative settlement amount is less than 0, the prison Measuring point rises relative to benchmark.

Contact hydrostatic level described in the utility model, relative settlement monitoring system other contents referring to existing skill Art, details are not described herein.

The above descriptions are merely preferred embodiments of the present invention, not makees in any form to the utility model Limitation, therefore it is all without departing from the content of the technical scheme of the utility model, implement according to the technical essence of the utility model to above Any modification, equivalent variations and modification, are still within the scope of the technical solutions of the present invention made by example.

Claims (6)

1. contact hydrostatic level, it is characterised in that: including stay wire displacement sensor, data acquisition module, piston block, Hooke Type elastic component and cylinder equipped with inner cavity；

The piston block is mounted in the inner cavity and can be bonded relative to the side wall of the inner cavity and slides；The Hooke type bullet Property part be located at the lower section of the piston block, the both ends of the Hooke type elastic component respectively with the bottom wall of piston block, inner cavity is fixed connects It connects；

The stay wire displacement sensor and the data acquisition module are mounted on the upside of the inner cavity, the stay wire displacement sensor Test side be fixedly connected with the piston block, the stay wire displacement sensor and the data acquisition module electrical connection；

Blow vent and fluid-through port are provided on the side wall of the cylinder, the top of the fluid-through port, institute is arranged in the blow vent Piston block is stated to be slidably arranged between the blow vent and fluid-through port.

2. contact hydrostatic level according to claim 1, it is characterised in that: the inner cavity is separated by a lateral partitions For the electrical chamber of upside and the liquid flow cavity of downside；The stay wire displacement sensor and the data acquisition module are mounted on the electricity In air cavity, the lateral partitions correspond to the stay wire displacement sensor equipped with cable-through hole；The piston block, Hooke type elastic component It is mounted in the liquid flow cavity.

3. contact hydrostatic level according to claim 1, it is characterised in that: be additionally provided with temperature biography in the piston block Sensor, the temperature sensor are electrically connected with the data acquisition module.

4. relative settlement monitors system, based on contact hydrostatic level, feature described in any one of claims 1 to 3 It is: including liquid storage container, tidal data recovering device, data processing centre and more than two contact hydrostatic levels；

Each contact hydrostatic level is separately mounted to scheduled monitoring point, the logical liquid of each contact hydrostatic level Mouth connect with the liquid storage container and is formed linker by fluid-through tube, and the blow vent of each contact hydrostatic level passes through Snorkel is connect with the liquid storage container, and each contact hydrostatic level is electrically connected with the tidal data recovering device；

The tidal data recovering device and the data processing centre communicate to connect, and the tidal data recovering device is used for each number The data processing centre is sent to according to the measurement data of acquisition module；

The data processing centre is used for the survey of the collected each contact hydrostatic level of the tidal data recovering device Amount data calculate the relative settlement amount of each monitoring point.

5. relative settlement according to claim 4 monitors system, it is characterised in that: it further include wireless communication module, it is described Tidal data recovering device is communicated to connect by the wireless communication module and the data processing centre.

6. relative settlement according to claim 4 monitors system, it is characterised in that: the data processing centre is cloud service Device.