CN212320980U - Stratum pressure sensor based on graphene - Google Patents

Abstract

The utility model relates to a stratum pressure sensor based on graphite alkene, include: the device comprises a shell, wherein two force measuring structures are symmetrically arranged in the shell, one force measuring structure is arranged on the inner top surface of the shell, the other force measuring structure is arranged on the inner bottom surface of the shell, the force measuring structures comprise deformation transmission rods connected to the inner top surface or the inner bottom surface of the shell, elastic membranes horizontally arranged between the inner walls of the shell, the elastic membranes are in contact with the end parts of the deformation transmission rods, graphene thin films are arranged on the surfaces, departing from the end parts of the deformation transmission rods, of the elastic membranes, and electrodes are arranged on the surfaces, departing from the elastic membranes; the two ends of the elastic membrane are provided with electric signal transmission structures which are connected with the electrodes through wires, and the elastic membrane also comprises a groove which is arranged at the bottom of the shell; the retaining water permeable structure is arranged in the groove. The device can adjust the measuring range and the resolution ratio of the sensor, can simultaneously detect the total pressure of soil and water and the pressure of pore water, and is worthy of popularization.

Description

Stratum pressure sensor based on graphene

Technical Field

The utility model relates to a sensor technical field, in particular to stratum pressure sensor based on graphite alkene.

Background

The pressure sensor is a sensor commonly used in industrial practice, is widely applied to various industrial automatic control environments, and relates to a plurality of industries such as water conservancy and hydropower, railway traffic, intelligent buildings, production automatic control, aerospace, military industry, petrochemical industry, oil wells, electric power, ships, machine tools, pipelines and the like. In the fields of geotechnical and underground engineering, stratum pressure is an important parameter for design, construction, operation and maintenance, wherein the most important parameter is total soil-water pressure and pore water pressure of the stratum, and the two are measured simultaneously, so that the effective stress of a stratum soil framework can be obtained, and key information such as soil consolidation state, strength level and the like can be further judged.

In the prior art, although the pressure can be measured, no pressure sensor can simultaneously measure the total soil-water pressure and the pore water pressure of the stratum.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a stratum pressure sensor based on graphite alkene lies in the nimble regulation of the range that current sensor can not realize the sensor and minimum resolution ratio, can not record stratum soil and water total pressure and pore water pressure simultaneously.

The technical scheme of the utility model is that: a graphene-based formation pressure sensor, comprising:

a housing;

two dynamometry structures, the central symmetry along the casing sets up at the interior top surface and the interior bottom surface of casing, include:

one end of the deformation transmission rod is correspondingly connected to the inner top surface or the inner bottom surface of the shell;

the elastic membrane is horizontally arranged between the inner walls of the shell, and one surface of the elastic membrane is contacted with the end part of the deformation transmission rod departing from the inner top surface or the inner bottom surface;

the graphene film is arranged on one surface of the elastic film, which is far away from the end part of the deformation transmission rod;

the electrode is arranged on one surface of the graphene film, which is far away from the elastic film;

the electric signal transmission structure is made of conductive materials, is connected between two opposite ends of the elastic membrane and the inner wall of the shell and is connected with the electrodes through leads;

the groove is formed in the bottom of the shell;

and the soil retaining and water permeable structure is arranged in the groove and used for preventing fine particles of the stratum soil from entering the groove under the stratum pressure to extrude the bottom of the shell.

Preferably, the signal of telecommunication transmission structure includes the dead lever, and dead lever one end is connected on the inner wall of casing, and the other end and the elastic membrane of dead lever are connected, and the lateral wall that the casing was worn out to one of them dead lever one end that deviates from the elastic membrane extends outside the casing, and is provided with on the extension of dead lever and adjusts the structure, adjusts the rate of elongation that the structure is used for adjusting elastic membrane and graphite alkene film.

Preferably, the adjusting structure comprises a section of thread arranged on a fixing rod penetrating out of the shell and a nut sleeved on the fixing rod.

Preferably, the elastic membrane, the fixing rod and the graphene film are bonded through epoxy resin, and the graphene film and the electrode are also bonded through epoxy resin.

Preferably, the nut is provided with a scale.

Preferably, the soil retaining and water permeating structure comprises a plate body fixed in the groove, and a plurality of pore channels used for allowing formation pore water to pass through and preventing formation soil body particles from passing through are formed in the plate body.

The utility model has the advantages that:

1. the utility model provides a pair of stratum pressure sensor based on graphite alkene can use on a large scale.

2. The utility model provides a pair of stratum pressure sensor based on graphite alkene can change the measurement range and the resolution ratio of this device through adjusting the structure.

3. The utility model provides a pair of stratum pressure sensor based on graphite alkene, through warping the surface deformation transmission that the transmission pole leads to stratum water and soil total pressure and hole water pressure and transmitting the graphite alkene film, will record the water and soil total pressure and the hole water pressure in the stratum simultaneously through the electrode on the graphite alkene film, also can be used for the pressure measurement of conventional pressure sensor application scene, is worth promoting.

Drawings

Fig. 1 is a cross-sectional view of the overall structure of the present invention;

fig. 2 is a perspective view of the overall structure of the present invention.

Detailed Description

An embodiment of the present invention will be described in detail with reference to fig. 1 to 2, but it should be understood that the scope of the present invention is not limited by the embodiment.

Example 1

The embodiment of the utility model provides a formation pressure sensor based on graphite alkene is provided, as shown in figure 1, include: the device comprises a shell 1, wherein two force measuring structures are symmetrically arranged in the shell 1 along the center of the shell 1, one force measuring structure is arranged on the inner top surface of the shell 1, and the other force measuring structure is arranged on the inner bottom surface of the shell 1.

Wherein, dynamometry structure includes: one end of the elastic membrane 7 is correspondingly connected with a deformation transmission rod 8 on the inner top surface or the inner bottom surface of the shell 1, the elastic membrane 7 is horizontally arranged between the inner walls of the shell 1, one surface of the elastic membrane 7 is contacted with the end part, deviating from the inner top surface or the inner bottom surface, of the deformation transmission rod 8, one surface, deviating from the end part of the deformation transmission rod 8, of the elastic membrane 7 is provided with a graphene film 6, and one surface, deviating from the elastic membrane 7, of the graphene film 6 is provided with an electrode 5; the relative both ends of elasticity membrane 7 are provided with signal of telecommunication transmission structure, and signal of telecommunication transmission structure connects between elasticity membrane 7 tip and 1 inner wall of casing, and conducting material is chooseed for use to signal of telecommunication transmission structure, and signal of telecommunication transmission structure's one end is passed through the wire and is connected with electrode 5, and signal of telecommunication transmission structure's the other end and reading equipment are connected and are formed.

The groove is formed in the bottom of the shell 1; and the soil retaining and water permeable structure 4 is arranged in the groove and used for preventing fine particles of the stratum soil from entering the groove under the stratum pressure to extrude the bottom of the shell 1.

Example 2

On the basis of embodiment 1, as shown in fig. 2, the electric signal transmission structure includes a fixing rod 2, one end of the fixing rod 2 is connected to the inner wall of the housing 1, the other end of the fixing rod 2 is connected to the elastic membrane 7, one end of one of the fixing rods 2, which is away from the elastic membrane 7, penetrates through the side wall of the housing 1 and extends out of the housing 1, in order to determine the relationship between the pressure applied to the pressure sensor and the sensing data under different stretching ratios and adjust the measurement range and resolution of the device, an adjusting structure is arranged on the extending section of the fixing rod 2, and the adjusting structure is used for adjusting the stretching ratios of the elastic membrane 7 and the graphene film 6.

Wherein, adjust the structure including wear to establish one section screw thread and the suit nut 3 on dead lever 2 that sets up on the dead lever 2 of casing 1.

Wherein, in order to guarantee to connect stably between elastic membrane 7 and dead lever 2, the graphite alkene film 6, elastic membrane 7 and dead lever 2, graphite alkene film 6 all bond through epoxy, and graphite alkene film 6 also bonds through epoxy with electrode 5.

In order to accurately adjust the stretch ratios of the elastic film 7 and the graphene film 6, scales are provided on the nut 3.

Furthermore, in order to pass and prevent the formation soil body particles from influencing the measurement of the formation pore water pressure, the soil-retaining water-permeable structure 4 comprises a plate body fixed in the groove, and a plurality of pore channels used for the formation pore water to pass through and preventing the formation soil body particles from passing through are formed in the plate body.

The hole is communicated with the stratum measured outside the groove and the pressure measuring area in the groove, the size of the hole is smaller than the size of soil body particles of the measured stratum, and stratum pore water is ensured to pass through and enter the pressure measuring area in the groove without entering the soil body, so that the soil pressure of the stratum is isolated, and the stratum pore water pressure is measured by the pressure measuring area in the groove.

Principle of operation

When the device is used, the top surface and the bottom surface of the sensor are subjected to inward bending deformation under the action of outside pressure, and the deformation is transmitted to the elastic membrane through the deformation transmission rod, so that the graphene film 6 is finally subjected to bending deformation. The electrical characteristics such as resistivity and the like are changed due to the deformation of the graphene film 6, and under the electrified condition, the pressure measurement of the pressure sensor is realized by measuring the electrical characteristic parameters of the graphene film under different outside pressures.

Firstly, one end of a wire is connected with two fixed rods 2, the other end of the wire is connected with a reading device for reading a sensor, the wire of the fixed rod 2 connected with the same graphene film 6 can take a group of data, the movable rod 4 is moved by rotating the dial scale, so that the stretching rates of the elastic film 7 and the graphene film 6 are adjusted, the electrical parameters of the bending deformation micro-strain resistivity change values of the graphene films with different stretching rates are different, the corresponding pressure measurement ranges and the corresponding resolution ratios are different, the adjustment of the sensor ranges and the minimum resolution ratios are realized, the relationship between the pressure borne by the pressure sensor and the sensing data of the graphene film 6 under different stretching rates is obtained through a calibration test, and the calibration work is completed.

Under different stretching ratios of the graphene film 6, the relation P ═ f (X) between the loaded pressure P and the collected data (X) is obtained through experiments, the pressure P1 is loaded on the sensor, the reading received by the voltage amplification measuring equipment in the line is X1, the reading is substituted into P ═ f (X), the specific pressure value P1 ═ f (X1) is obtained, and the pressure is obtained, namely the pressure is measured.

During specific work, the range and the minimum resolution of the sensor are determined according to the stratum water and soil total pressure value and the pore water pressure value pre-estimation range of an application scene, the dial is rotated to correspond, the reading lead is connected, the device is placed in a measured stratum, the pressure obtained by top surface measurement is the stratum water and soil total pressure, and the pressure obtained by bottom surface measurement (with the soil-blocking water-permeable structure 3 side) is the pore water pressure.

To sum up, the embodiment of the present invention provides a formation pressure sensor based on graphene, which can change the measurement range and resolution of the device by adjusting the structure; the total soil-water pressure and the pore water pressure in the stratum can be measured simultaneously through the electrodes on the graphene film, and the graphene film can also be used for pressure measurement of a conventional pressure sensor application scene, so that the graphene film is worthy of popularization.

The above disclosure is only for a few specific embodiments of the present invention, however, the present invention is not limited to the embodiments, and any changes that can be considered by those skilled in the art shall fall within the protection scope of the present invention.

Claims (6)

1. A graphene-based formation pressure sensor, comprising:

a housing (1);

two dynamometry structures, the central symmetry along casing (1) sets up at the interior top surface and the interior bottom surface of casing (1), include:

one end of the deformation transmission rod (8) is correspondingly connected to the inner top surface or the inner bottom surface of the shell (1);

the elastic membrane (7) is horizontally arranged between the inner walls of the shell (1), and one surface of the elastic membrane is contacted with the end part of the deformation transmission rod (8) departing from the inner top surface or the inner bottom surface;

the graphene film (6) is arranged on one surface of the elastic film (7) departing from the end part of the deformation transfer rod (8);

the electrode (5) is arranged on one surface, away from the elastic membrane (7), of the graphene film (6);

the electric signal transmission structure is made of conductive materials, is connected between two opposite ends of the elastic membrane (7) and the inner wall of the shell (1), and is connected with the electrode (5) through a lead;

the groove is formed in the bottom of the shell (1);

and the soil retaining and water permeable structure (4) is arranged in the groove and used for preventing fine particles of the stratum soil from entering the groove to extrude the bottom of the shell (1) under the stratum pressure.

2. The graphene-based formation pressure sensor according to claim 1, wherein the electric signal transmission structure comprises a fixing rod (2), one end of the fixing rod (2) is connected to the inner wall of the casing (1), the other end of the fixing rod (2) is connected to the elastic membrane (7), one end of one fixing rod (2) away from the elastic membrane (7) penetrates through the side wall of the casing (1) and extends out of the casing (1), and an adjusting structure is arranged on the extending section of the fixing rod (2) and used for adjusting the stretching rate of the elastic membrane (7) and the graphene film (6).

3. The graphene-based formation pressure sensor according to claim 2, wherein the adjusting structure comprises a section of thread arranged on a fixing rod (2) penetrating the housing (1) and a nut (3) sleeved on the fixing rod (2).

4. A graphene-based formation pressure sensor according to claim 3, wherein the elastic membrane (7) and the fixing rod (2) and the graphene film (6) are bonded by epoxy resin, and the graphene film (6) and the electrode (5) are bonded by epoxy resin.

5. A graphene-based formation pressure sensor according to claim 3, wherein the nut (3) is provided with a scale.

6. The graphene-based formation pressure sensor according to claim 1, wherein the soil and water retaining structure (4) comprises a plate body fixed in the groove, and the plate body is provided with a plurality of pore channels for formation pore water to pass through and preventing formation soil particles from passing through.

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