Abstract: The present application relates to the technical field of sensors, and particularly relates to a lightning-proof piezoelectric acceleration sensor which comprises a housing, a core assembly, an insulation sheet, a shielding cover, a lightning-proof circuit board and a heat-shrinkable sleeve, the core assembly is provided inside the housing, the insulation sheet has one end fixedly connected to the core assembly and the other end fixedly connected to an inner wall of the housing, the shielding cover is sleeved outside the core assembly and has an open end oriented towards the insulation sheet, the lightning-proof circuit board is fixedly provided on an upper end of the shielding cover and is electrically connected to an external connector and the core assembly respectively, the heat-shrinkable sleeve is sleeved outside the shielding cover and has a lower end connected to the housing and an upper end situated higher than the shielding cover.

Abstract: A pressure sensor and a packaging method thereof. The pressure sensor comprises: a sensitive chip, which comprises a thin-wall part and a supporting part connected to the periphery of the thin-wall part, the supporting part being provided with an electrode; a sealing element, which is fitted over the sensitive chip and partially surrounds together with the sensitive chip to form a sealing cavity, the sealing element being provided with a through hole corresponding to the electrode; a conductive component, which is provided in the through hole in a sealed mode and electrically connected to the electrode, the conductive component and the sealing element being arranged in an insulating mode, and the conductive component comprising a filling part and a leading-out part embedded in the filling part.

Abstract: The present application provides a pressure sensor including: an upper cover plate having a first cover plate surface, wherein the upper cover plate has a cover plate through hole formed on the first cover plate surface; a pressure-sensitive film having a first pressure-sensitive surface and a second pressure-sensitive surface opposite to each other, wherein the first pressure-sensitive surface is attached to the first cover plate surface, a first electrode is formed on the second pressure-sensitive surface, and at least a portion of the first electrode corresponds to the cover plate through hole; and a substrate having a first surface joined to the second pressure-sensitive surface, wherein a concave cavity is formed on the first surface at a position corresponding to the cover plate through hole, a second electrode is formed at a wall portion of the concave cavity, and the first and second electrodes constitute two electrodes of a capacitor.

Abstract: The disclosure relates to a piezoelectric acceleration sensor. The piezoelectric acceleration sensor includes: a charge output member comprising a base, a piezoelectric element disposed on the base and a mass, wherein the base includes a supporting portion and a connecting portion disposed on the supporting portion and extending in a first direction, and the piezoelectric element and the mass are sleeved on the connecting portion; a shielding cover sleeved on the connecting portion, wherein the shielding cover is connected to the connecting portion and the supporting portion, the shielding cover forms a shielding space outside a periphery of the connecting portion and above the supporting portion, and the piezoelectric element and the mass are arranged in the shielding space; and a housing coupled with the supporting portion, wherein the housing and the supporting portion form an accommodating space for accommodating the charge output member and the shielding cover.

Abstract: The application relates to the technical field of sensors, in particular to a lightning proof sensor comprising a sensor housing, a signal generation assembly, a PIN needle and a shielding case. The sensor housing has a cavity; a signal generation assembly is disposed in the cavity and forms insulation contact with an inner wall of the sensor housing; a PIN needle is disposed on the connector on one end of the sensor, and electrically connected with the signal generation assembly; and the shielding case is installed between the signal generation assembly and the sensor housing and covers the signal generation assembly, and the shielding case forms insulation contact with the signal generation assembly and the sensor housing. The sensor provided by the application has better lightning proof performance, and can simultaneously detect two parameters comprising temperature and acceleration speed, so that it has better environmental adaptability.

Abstract: The present invention discloses a device and method for detecting fluid transparency. The detection device comprises: a detection pipeline, which allows a beam to be incident on and emergent from a fluid therein; a laser tube, used for outputting the incident beam; and a photoelectric detector, used for detecting the emergent beam from the fluid, wherein the photoelectric detector comprises a scatter detector and a transmission detector; and the detection method comprises obtaining a scattered background noise value and a transmission background noise value of a device, obtaining the scattered light intensity Iscatter obtained by the scatter detector and the transmission light intensity Itransmission obtained by the transmission detector, and calculating the particle-absorbed light intensity Iabsorb; obtaining the total light intensity Itotal of a laser; and obtaining a fluid transparency T.

Abstract: A three-axis piezoelectric accelerometer, comprising: a housing, three charge output elements arranged inside the housing, and a connector electrically connected to the three charge output elements, wherein the three charge output elements are respectively used for detecting vibrations in directions along X-axis, Y-axis and Z-axis which are perpendicular to each other in pairs. The charge output element comprises: a support comprising a connecting part; a piezoelectric element being an annular structural body, wherein the piezoelectric element is connected to the connecting part in a sheathed manner and is provided with a first deformation groove penetrating a side wall of the piezoelectric element to disconnect the piezoelectric element in a circumferential direction; and a mass block being an annular structural body, wherein the mass block is connected to the piezoelectric element in the sheathed manner, and the piezoelectric element is in interference fit with the connecting part and the mass block.

Abstract: The present application discloses a vibration table, comprising a magnetic circuit device for generating a magnetic field; a moving coil skeleton, disposed in the magnetic circuit device, moving up and down in the magnetic field and having a placement groove; an adapter, disposed in the placement groove; an excitation coil, radially winding along an outer peripheral wall of the moving coil skeleton and located in the magnetic field generated by the magnetic circuit device; wherein, the moving coil skeleton is provided with a cut-off groove. The vibration table provided in the present application uses a metal beryllium as a material for a moving coil skeleton and an accelerometer adapter. The large specific stiffness of the metal beryllium is used to increase the axial natural frequency of the moving coil skeleton, thereby increasing the effective working frequency range of the vibration table.

Abstract: A calibration method and system for a lubrication oil metal debris sensor includes applying an excitation to the lubrication oil metal debris sensor to be calibrated, obtaining a second output signal from the lubrication oil metal debris sensor to be calibrated based on a test metal ball with a known diameter, and determining a sensitivity characteristic parameter of the lubrication oil metal debris sensor to be calibrated according to the diameter of the test metal ball with the known diameter, the second output signal, and a preset data processing model. Large particulate metal balls with large diameter are used as calibration particles. The calibration performed by the combination of the particulate metal ball and the data processing model helps when the signal processing circuit cannot be matched with the actual performance of the sensor and avoids an underestimation of the monitoring capability of the lubrication oil metal debris sensor.

Abstract: The present invention discloses a system for detecting the concentration of non-metal particles in a fluid and detection method thereof. The detection system comprises a particle morphology detection device, a metal particle detection device, and a detection pipeline, the particle morphology detection device and the metal particle detection device being connected to each other and wound around the detection pipeline. The detection method comprises: S1, detecting the concentration of fluid particles; S2, detecting the concentration of fluid metal particles; and S3, detecting concentration of fluid non-metal particles. By means of the detection system and the detection method, the concentration of non-metal particles in a fluid can be more accurately detected, and the detection accuracy is improved.

Abstract: A method for detecting the concentration of particles in a fluid is disclosed. The method comprises the steps of: S1: introducing a pure fluid into a detection device to obtain a scatter background noise value U noise output by the detection device; S2: introducing a fluid to be detected into the detection device, obtaining scatter signals output by the detection device, and obtaining voltage signals of standard particles; S3: sampling signals of the fluid in a certain period of time, extracting effective signals, carrying out threshold value analysis on the effective signals Ux obtained by sampling, and obtaining the number of particles present in the period of time; and S4: obtaining the concentration of the particles in the fluid according to the number of particles in S3. According to this method, the accuracy in calculation of the concentration of particles in a fluid can be effectively improved.

Abstract: The disclosure provides a piezoelectric acceleration sensor including a charge output element, a casing, a cable assembly and a connector. The casing is snap-fitted to a supporting portion of a base of the charge output element, and forms a receiving space for receiving the charge output element, the piezoelectric, and the mass block with the supporting portion. The cable assembly is connected to the supporting portion. The connector is connected to an end of the cable assembly facing away from the supporting portion, and is insulated from the cable assembly. One end of either of a first lead and a second lead of the cable assembly is electrically connected to the piezoelectric element, while the other end of the first lead is electrically connected to a conductive terminal of the connector and the other end of the second lead is electrically connected to a housing of the connector.

Abstract: A piezoelectric acceleration sensor provided by the present invention comprises: a housing, wherein the housing is internally molded with an installation chamber, and one side face of the housing is provided with a cable connector; an adjustment structure, configured to adjustably connect the housing position to a to-be-measured object, so as to adjust the relative position between the to-be-measured object and the cable connector; and a charge output structure, installed in the installation chamber and configured to induce vibration and output electric signals, wherein the charge output structure is electrically connected with the cable connector. Through the adjustment structure, the housing position can be adjustably connected to the to-be-measured object, such that the cable connector keeps away from the position of obstacles, and the position of the cable connector can be flexibly adjusted, thereby facilitating installation.

Abstract: The present disclosure relates to a piezoelectric sensor, and the piezoelectric sensor includes a support including a connecting member and a supporting member connected to one end of the connecting member; a piezoelectric element, formed as an annular member and disposed surrounding the connecting member; a mass, formed as an annular member and disposed surrounding the piezoelectric element; a first circuit board, disposed on the mass away from the supporting member and provided with a first circuit on a surface close to the mass; and a second circuit board, disposed on the first circuit board away from the supporting member and provided with a second circuit on a surface facing away from the first circuit board.

Abstract: A manufacturing method for an electrode of a high-temperature piezoelectric element, comprises: coating traditional conductive slurry on surfaces of a molded piezoelectric material (1); then polarizing the piezoelectric material (1); and then removing the coating of conductive slurry (2) on the surfaces there of, and connecting the piezoelectric material to outside electrode lead wires (3) to output a signal generated by piezoelectric effect thereof. A structure of a high-temperature piezoelectric element, comprises polarized piezoelectric material (1), wherein the coating of metallic conductive slurry (2) is removed from the surfaces of the polarized piezoelectric material (1) and the surfaces of the polarized piezoelectric material (1) is connected to electrode lead wires (3) to output a signal generated by piezoelectric effect thereof.

Abstract: The application relates to the technical field of temperature measurement, in particular to a temperature measuring device and an electric power system. The temperature measuring device is used for measuring a temperature of a heat generating member provided with a convex portion or a groove portion, and comprises a heat conducting block 1 for receiving the convex portion or extending into the groove portion, being connected with the convex portion or the groove portion; and a thermo-sensitive element 2 connected with the heating conducting block 1. The temperature measuring device of the present application has advantages of high sensitivity and being installed and disassembled without power failure.

Abstract: The application relates to the technical field of sensors, in particular to a lightning proof sensor comprising a sensor housing, a signal generation assembly, a PIN needle and a shielding case. The sensor housing has a cavity; a signal generation assembly is disposed in the cavity and forms insulation contact with an inner wall of the sensor housing; a PIN needle is disposed on the connector on one end of the sensor, and electrically connected with the signal generation assembly; and the shielding case is installed between the signal generation assembly and the sensor housing and covers the signal generation assembly, and the shielding case forms insulation contact with the signal generation assembly and the sensor housing. The sensor provided by the application has better lightning proof performance, and can simultaneously detect two parameters comprising temperature and acceleration speed, so that it has better environmental adaptability.

Abstract: The present application relates to a piezoelectric acceleration sensor, comprising a base member that comprises a supporting part provided with a mounting hole extending along an axis thereof and a columnar connection part located on the connection part; a piezoelectric member, sleeved outside the connection part, and defining with the connection part an annular clearance therebetween; a mass block member, sleeved outside the piezoelectric member in a gapless manner; a pre-tightening member, being a wedge block with a thinner end near the supporting part and inserted into the annular clearance; a locking member that comprises an interconnected columnar part and stopping part; wherein, the columnar part is fitted with the mounting hole for locking the above members, and the stopping part is arranged to press the first end; the columnar part and the mounting hole are provided with fastening glue arranged between.