CN117169569A - Micro data waveform analysis and acquisition device - Google Patents

Abstract

The invention relates to the technical field of waveform analysis, in particular to a micro-data waveform analysis acquisition device. The technical proposal comprises: the collecting device comprises a collecting device body, a locking mechanism, a protecting mechanism, a storing mechanism and a cooling fan, wherein a groove is formed in the upper side of the collecting device body, a roll-over stand is movably connected in the groove, the locking mechanism is arranged on one side of the groove, the locking mechanism and the roll-over stand are mutually matched, the protecting mechanisms are arranged on two sides of the collecting device body, the storing mechanism is arranged on one side of the collecting device body, a control panel is arranged on one side of the storing mechanism, a sensor probe is arranged on the control panel, and the sensor probe and the storing mechanism are mutually matched; the device influences the position of the protection plate through the transmission effect of the transmission wheel and the transmission rod, so that the protection and isolation of the periphery of the acquisition device body are realized, the high-low position of the fixing plate can be adjusted to provide protection and stability for the acquisition device, and meanwhile, the lifting operation of equipment can be realized.

Description

Micro data waveform analysis and acquisition device

Technical Field

The invention relates to the technical field of waveform analysis, in particular to a micro-data waveform analysis acquisition device.

Background

A waveform analyzer is a device for recording and analyzing the waveform of a signal. It can capture, store and display various types of waveform signals to assist researchers, engineers and technicians in performing signal analysis, fault diagnosis, performance assessment and the like. The development of waveform recording analyzers has been widely used for decades and has an important role in many fields including electronic engineering, communications, automation control, mechanical engineering, aerospace, medicine, etc. The background of the waveform recording analyzer can be traced back to early analog instruments and oscilloscopes. Taking an analog oscilloscope as an example, it displays and measures the change in voltage over time by converting an electrical signal into a visual waveform pattern. However, analog oscilloscopes can only provide transient signal display and are limited by factors such as frequency response and accuracy.

With the development of digital technology, modern waveform recording analyzers are increasingly based on digital signal processing and storage technology. The digital waveform recording analyzer can capture high-speed and complex waveform signals, and has better precision, sensitivity and flexibility. They can capture and store a large amount of waveform data and provide various analysis and processing functions such as spectrum analysis, time domain analysis, waveform presentation, and automatic fault diagnosis.

The existing waveform analysis acquisition device has some problems, in actual use, it is very important to ensure the stability, the protectiveness and the protection effect of the acquisition device, and the lack of a storage mechanism can expose relevant components of the acquisition device to the external environment and is easily affected by collision, vibration, dust or other external interference. This may lead to equipment damage, loosening of parts or failure, reduced equipment life and performance, and the lack of a better protective mechanism may result in the acquisition device being susceptible to external electromagnetic interference or other noise. This may lead to degradation of the quality of the data, affecting the accuracy and reliability of the data, and the lack of locking mechanisms, storage mechanisms and poor protection may lead to unstable data, damaged components, disturbed data and safety problems, in view of which we propose a micro data waveform analysis acquisition device to solve the existing problems.

Disclosure of Invention

The invention aims to provide a micro-data waveform analysis and acquisition device so as to solve the problems in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a little data waveform analysis collection system, includes collection system body, locking mechanism, protection machanism, deposits mechanism and radiator fan, collection system body upside is seted up flutedly, and swing joint has the roll-over stand in the recess, and recess one side is provided with locking mechanism, mutually support between locking mechanism and the roll-over stand, and one side that the roll-over stand is close to the recess is provided with the oscillography display screen, collection system body both sides are provided with protection machanism, and collection system body one side is provided with deposits mechanism, and the collection system body is provided with control panel in depositing mechanism one side, and is provided with sensor probe on the control panel, mutually support between sensor probe and the depositing mechanism.

Preferably, the locking mechanism comprises a locking frame, a bidirectional screw, a sliding block, a fixed seat, a first knob, a rotating shaft, a limiting block, a limiting clamping groove and a locking groove, wherein the locking frame is arranged on one side of the groove, the locking groove is formed in the locking frame, the fixed seat is arranged in the middle of the locking groove, the bidirectional screw is arranged on the fixed seat, the sliding block is symmetrically arranged on the bidirectional screw, and the first knob is arranged on one side of the bidirectional screw in a penetrating mode through the locking frame.

Preferably, the sliding block both sides run through the locking frame and are provided with the stopper, recess one side inner wall and roll-over stand upside surface all equidistance leave and are equipped with a plurality of spacing draw-in grooves, mutually support between spacing draw-in groove and the stopper.

Preferably, the protection mechanism comprises a transmission groove, a telescopic cylinder, a limiting frame, a guide block, a rack, a protection groove, a transmission wheel, a first transmission rod, a fixing plate, a second transmission rod, a third transmission rod, a hinge piece, a protection plate, a buffer rod and a buffer spring, wherein the transmission groove is formed in the acquisition device body, the telescopic cylinder is arranged in the transmission groove, the output end of the telescopic cylinder is fixedly connected with the rack, one side of the rack is provided with the guide block, the limiting frame is arranged in the transmission groove, and the guide block is positioned in the limiting frame.

Preferably, the protection groove is formed in the surface of the two sides of the collecting device body, a driving wheel is arranged in the driving groove, a first driving rod is arranged on one side of the driving wheel, a second driving rod is arranged on one side of the first driving rod, and a third driving rod is movably connected to one side, away from the first driving rod, of the second driving rod.

Preferably, the articulated elements are movably connected on one side of the first transmission rod and one side of the third transmission rod, the fixed plates are arranged on one side of the articulated elements, the buffer rods are arranged at four corners on one side of the fixed plates, the protection plates are arranged on one side of the buffer rods, and the buffer springs are sleeved on the buffer rods between the protection plates and the fixed plates.

Preferably, the storage mechanism comprises a second knob, a storage rack, a storage bin, a movable shaft, a U-shaped clamping plate and a threaded sleeve, wherein the storage rack is arranged on one side of the acquisition device body, the storage bin is arranged in the middle of the storage rack, the threaded sleeve is arranged on one side of the storage rack, a threaded rod is movably connected onto the threaded sleeve, the second knob is arranged on one side of the threaded rod, the movable shaft is arranged in the storage bin on one side of the threaded rod, and the U-shaped clamping plate is arranged on one side of the movable shaft.

Preferably, the U-shaped clamping plate is matched with the sensor probe, the control panel is formed by combining a signal conditioning circuit, an analog-to-digital converter, a digital signal processor, a data memory and other components, and the signal conditioning circuit, the analog-to-digital converter, the digital signal processor and the data memory are all electrically connected with the single chip microcomputer.

Preferably, the bottom of the collecting device body is equidistantly separated from the collecting device body and provided with heat dissipation through holes, and the heat dissipation through holes are provided with heat dissipation fans.

Preferably, the acquisition device body is symmetrically provided with a handle at one time, and nylon materials are wound on the surface of the handle to form cloth.

Compared with the prior art, the invention has the beneficial effects that:

1. through rotatory first knob, two-way lead screw is driven and rotates, the sliding block moves thereupon for stopper and spacing draw-in groove mutually support, when locking frame proper locking, stability and accuracy are ensured to roll-over stand and collection system body fixed connection, when needs unblock, release the locking through rotatory first knob, the sliding block outwards removes, release the cooperation of stopper and spacing draw-in groove, through the design of locking mechanism, can realize the reliable locking and unlocking operation to the roll-over stand, stability and accuracy in the waveform analysis process have been guaranteed, this helps guaranteeing that the waveform data who gathers is accurate, and provide accurate analysis result.

2. The motion of rack can be controlled in telescopic cylinder's work, through the transmission effect of drive wheel and transfer line, can influence the position of guard plate, through the position change of guard plate, can realize protection and isolation around the collection system body, simultaneously, the height adjustment of fixed plate can provide protection and the stability to collection system, and can adjust and fix as required, such design can effectively protect collection system, and provide a stable operational environment for it, in addition, the position adjustment of fixed plate also can influence the lifting operation of equipment, through the effect of telescopic cylinder in the integrated motion mechanism, rack, drive wheel and transfer line, can realize the control to guard plate and fixed plate position, the security and the stability of collection system can be ensured to such design, and adjust and the height of fixed equipment according to experiment or work demand.

3. The rotation of second knob can make the threaded rod carry out rotary motion, and threaded connection between threaded rod and the screw sleeve can lead to the axial motion of threaded rod, drives between U type splint and the sensor probe mutually supporting, and the design of depositing the mechanism makes collection system conveniently deposit or fix accessory or instrument, and the existence of U type splint can provide the protection and the fixed to the sensor probe, and control panel's function can be through signal conditioning, conversion and processing, carries out preliminary treatment and stores or analysis to the signal that gathers. These features and principles enable the acquisition device to have efficient data acquisition and processing capabilities to meet the needs of micro data waveform analysis.

4. Through the heat dissipation through-hole of seting up in the bottom, can provide ventilation and air current passage for the inside heat of collection system can release, the radiator fan that sets up on the heat dissipation through-hole can inhale ambient air, and get into inside the collection system with the air through the ventilation hole, radiator fan can accelerate the air flow through rotatory wind-force that produces, improve the radiating effect, after the air gets into inside the collection system through the heat dissipation through-hole, can blow through heat source part (such as treater, circuit board etc.), take away partial heat, later, in the hot air of being discharged by radiator fan can release external environment through other ventilation holes or passageway, whole process circulation goes on, thereby realize controlling and the heat dissipation to collection system inside temperature.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the overall operation of the present invention;

FIG. 3 is a schematic structural view of a locking mechanism according to the present invention;

FIG. 4 is a schematic view of a protection mechanism according to the present invention;

FIG. 5 is a schematic view of the structure of FIG. 4A in a partially enlarged manner;

FIG. 6 is a schematic diagram of a heat dissipating fan according to the present invention;

fig. 7 is a schematic structural view of a storage mechanism in the present invention.

In the figure: 1. a collection device body; 2. a grip; 3. a groove; 4. a roll-over stand; 5. a locking mechanism; 501. a locking frame; 502. a bidirectional screw rod; 503. a sliding block; 504. a fixing seat; 505. a first knob; 506. a rotating shaft; 507. a limiting block; 508. a limit clamping groove; 509. a locking groove; 6. a protective mechanism; 601. a transmission groove; 602. a telescopic cylinder; 603. a limiting frame; 604. a guide block; 605. a rack; 606. a protective groove; 607. a driving wheel; 608. a first transmission rod; 609. a fixing plate; 610. a second transmission rod; 611. a third transmission rod; 612. a hinge; 613. a protection plate; 614. a buffer rod; 615. a buffer spring; 7. a control panel; 8. a storage mechanism; 801. a second knob; 802. a storage rack; 803. a storage bin; 804. a movable shaft; 805. u-shaped clamping plates; 806. a threaded sleeve; 807. a threaded rod; 9. an oscillographic display screen; 10. a heat radiation fan; 11. and a heat dissipation through hole.

Detailed Description

The objects, technical solutions and advantages of the present invention will become more apparent by the following detailed description of the present invention with reference to the accompanying drawings. It should be understood that the description is only illustrative and is not intended to limit the scope of the invention. In addition, in the following description, descriptions of well-known structures and techniques are omitted so as not to unnecessarily obscure the present invention.

As shown in fig. 1-7, the micro-data waveform analysis and acquisition device provided by the invention comprises an acquisition device body 1, a locking mechanism 5, a protection mechanism 6, a storage mechanism 8 and a cooling fan 10, wherein a groove 3 is formed in the upper side of the acquisition device body 1, a roll-over stand 4 is movably connected in the groove 3, the locking mechanism 5 is arranged on one side of the groove 3, the locking mechanism 5 is mutually matched with the roll-over stand 4, an oscillography display screen 9 is arranged on one side, close to the groove 3, of the roll-over stand 4, the protection mechanisms 6 are arranged on two sides of the acquisition device body 1, the storage mechanism 8 is arranged on one side of the acquisition device body 1, a control panel 7 is arranged on one side, and a sensor probe is arranged on the control panel 7 and is mutually matched with the storage mechanism 8.

In an alternative embodiment, the locking mechanism 5 includes a locking frame 501, a bidirectional screw 502, a sliding block 503, a fixing base 504, a first knob 505, a rotating shaft 506, a limiting block 507, a limiting clamping groove 508 and a locking groove 509, one side of the groove 3 is provided with the locking frame 501, the locking groove 509 is provided in the locking frame 501, the middle part of the locking groove 509 is provided with the fixing base 504, the fixing base 504 is provided with the bidirectional screw 502, the bidirectional screw 502 is symmetrically provided with the sliding block 503, and one side of the bidirectional screw 502 is provided with the first knob 505 penetrating the locking frame 501.

In an alternative embodiment, the two sides of the sliding block 503 penetrate through the locking frame 501 to be provided with a limiting block 507, the inner wall of one side of the groove 3 and the upper surface of the roll-over stand 4 are respectively provided with a plurality of limiting clamping grooves 508 at equal intervals, the limiting clamping grooves 508 and the limiting block 507 are mutually matched, in the use process, the bidirectional screw 502 is driven to rotate by rotating the first knob 505, the sliding block 503 moves along with the sliding block, so that the limiting block 507 and the limiting clamping grooves 508 are mutually matched, when the locking frame 501 is correctly locked, the roll-over stand 4 is fixedly connected with the acquisition device body 1 to ensure stability and accuracy, when the unlocking is needed, the locking is released by rotating the first knob 505, the sliding block 503 moves outwards to release the matching of the limiting block 507 and the limiting clamping grooves 508, the reliable locking and unlocking operation of the roll-over stand 4 can be realized by the design of the locking mechanism 5, the stability and the accuracy in the waveform analysis process are ensured, and the accuracy of the acquired waveform data are ensured, and the accurate analysis result is provided.

In an alternative embodiment, the protection mechanism 6 comprises a transmission groove 601, a telescopic cylinder 602, a limiting frame 603, a guide block 604, a rack 605, a protection groove 606, a transmission wheel 607, a first transmission rod 608, a fixing plate 609, a second transmission rod 610, a third transmission rod 611, a hinge 612, a protection plate 613, a buffer rod 614 and a buffer spring 615, wherein the transmission groove 601 is formed in the acquisition device body 1, the telescopic cylinder 602 is arranged in the transmission groove 601, the output end of the telescopic cylinder 602 is fixedly connected with the rack 605, one side of the rack 605 is provided with the guide block 604, the limiting frame 603 is arranged in the transmission groove 601, and the guide block 604 is positioned in the limiting frame 603.

In an alternative embodiment, the two side surfaces of the collecting device body 1 are provided with the protection grooves 606, the transmission groove 601 is provided with the transmission wheel 607, one side of the transmission wheel 607 is provided with the first transmission rod 608, one side of the first transmission rod 608 is provided with the second transmission rod 610, and one side of the second transmission rod 610 far away from the first transmission rod 608 is movably connected with the third transmission rod 611.

In an alternative embodiment, the first transmission rod 608 and the third transmission rod 611 are movably connected with a hinge 612, a fixed plate 609 is disposed on one side of the hinge 612, a buffer rod 614 is disposed at four corners of one side of the fixed plate 609, a protection plate 613 is disposed on one side of the buffer rod 614, a buffer spring 615 is sleeved on the buffer rod 614 between the protection plate 613 and the fixed plate 609, the telescopic cylinder 602 can control the movement of the rack 605, the position of the protection plate 613 can be influenced by the transmission effect of the transmission wheel 607 and the transmission rod, the protection and isolation of the periphery of the collection device body 1 can be realized by the position change of the protection plate 613, meanwhile, the height position adjustment of the fixed plate 609 can provide protection and stability for the collection device, and can be adjusted and fixed as required, so the collection device can be effectively protected, and a stable working environment is provided for the collection device.

In an alternative embodiment, the storage mechanism 8 comprises a second knob 801, a storage rack 802, a storage bin 803, a movable shaft 804, a U-shaped clamping plate 805 and a threaded sleeve 806, wherein the storage rack 802 is arranged on one side of the collection device body 1, the storage bin 803 is arranged in the middle of the storage rack 802, the threaded sleeve 806 is arranged on one side of the storage rack 802, a threaded rod 807 is movably connected to the threaded sleeve 806, the second knob 801 is arranged on one side of the threaded rod 807, the movable shaft 804 is arranged in the storage bin 803 on one side of the threaded rod 807, and the U-shaped clamping plate 805 is arranged on one side of the movable shaft 804.

In an alternative embodiment, the U-shaped clamping plate 805 is matched with the sensor probe, the control panel 7 is formed by combining components such as a signal conditioning circuit, an analog-to-digital converter, a digital signal processor, a data memory and the like, the signal conditioning circuit, the analog-to-digital converter, the digital signal processor, the data memory and the like are all electrically connected with a single chip, the rotation of the second knob 801 can enable the threaded rod 807 to perform rotational movement, the threaded connection between the threaded rod 807 and the threaded sleeve 806 can enable the threaded rod 807 to perform axial movement, the U-shaped clamping plate 805 is driven to be matched with the sensor probe, the storage mechanism 8 is designed to enable the acquisition device to conveniently store or fix accessories or tools, the function of the control panel 7 can perform pretreatment on acquired signals through signal conditioning, conversion and processing, and storage or analysis on the acquired signals. These features and principles enable the acquisition device to have efficient data acquisition and processing capabilities to meet the needs of micro data waveform analysis.

In an alternative embodiment, the bottom of the collecting device body 1 is equidistantly separated from the collecting device body and provided with a heat dissipation through hole 11, the heat dissipation through hole 11 is provided with a heat dissipation fan 10, a ventilation and airflow channel can be provided through the heat dissipation through hole 11 formed in the bottom, so that heat in the collecting device can be released, the heat dissipation fan 10 arranged on the heat dissipation through hole 11 can suck ambient air and enable the air to enter the collecting device through the ventilation hole, the air flow of the heat dissipation fan 10 can be accelerated through wind power generated by rotation, the heat dissipation effect is improved, when the air enters the collecting device through the heat dissipation through hole 11, the air can blow through heat source components (such as a processor and a circuit board) to take away part of heat, then, the hot air exhausted by the heat dissipation fan 10 can be released into an external environment through other ventilation holes or channels, and the whole process is circulated, so that the control and the heat dissipation of the internal temperature of the collecting device are realized.

In an alternative embodiment, the collecting device body 1 is sequentially and symmetrically provided with a grip 2, and the surface of the grip 2 is wound with a cloth made of nylon material.

The working principle of the invention is as follows: when the device is used, the operation of the telescopic cylinder 602 can control the movement of the rack 605, the position of the protection plate 613 can be influenced through the transmission effect of the transmission wheel 607 and the transmission rod, the protection and isolation of the periphery of the acquisition device body 1 can be realized through the position change of the protection plate 613, meanwhile, the height position adjustment of the fixing plate 609 can provide the protection and stability of the acquisition device and can be adjusted and fixed according to the requirement, the design can effectively protect the acquisition device and provide a stable working environment for the acquisition device, in addition, the position adjustment of the fixing plate 609 can also influence the lifting operation of equipment, the control of the positions of the protection plate 613 and the fixing plate 609 can be realized through the functions of the telescopic cylinder 602, the rack 605, the transmission wheel 607 and the transmission rod in the comprehensive movement mechanism, the design can ensure the safety and the stability of the acquisition device, and the height of the equipment is adjusted and fixed according to the experiment or working requirement, after the height adjustment is finished, the bidirectional screw rod 502 is driven to rotate by rotating the first knob 505, the sliding block 503 moves along with the bidirectional screw rod, so that the limiting block 507 is matched with the limiting clamping groove 508, when the locking frame 501 is correctly locked, the turnover frame 4 is fixedly connected with the acquisition device body 1, stability and accuracy are ensured, when unlocking is required, the locking is released by rotating the first knob 505, the sliding block 503 moves outwards, the matching of the limiting block 507 and the limiting clamping groove 508 is released, through the design of the locking mechanism 5, reliable locking and unlocking operation of the turnover frame 4 can be realized, the stability and accuracy in the waveform analysis process are ensured, the accuracy of acquired waveform data is ensured, and an accurate analysis result is provided, the rotation of the second knob 801 causes the threaded rod 807 to rotate, the threaded connection between the threaded rod 807 and the threaded sleeve 806 causes the threaded rod 807 to axially move, the U-shaped clamping plate 805 is driven to be matched with the sensor probe, the storage mechanism 8 is designed to enable the acquisition device to conveniently store or fix accessories or tools, the existence of the U-shaped clamping plate 805 can provide protection and fixation of the sensor probe, and the function of the control panel 7 can be used for preprocessing acquired signals through signal conditioning, conversion and processing, and storing or analyzing the acquired signals. These features and principles enable the acquisition device to have efficient data acquisition and processing capabilities to meet the needs of micro data waveform analysis.

It is to be understood that the above-described embodiments of the present invention are intended to be illustrative or explanatory of the principles of the invention, and are not restrictive of the invention. Accordingly, any modification, equivalent replacement, improvement, etc. made without departing from the spirit and scope of the present invention should be included in the scope of the present invention. Furthermore, the appended claims are intended to cover all such changes and modifications that fall within the scope and boundary of the appended claims, or equivalents of such scope and boundary.

Claims (10)

1. The micro data waveform analysis acquisition device is characterized in that: including collection system body (1), locking mechanism (5), protection machanism (6), storage mechanism (8) and radiator fan (10), collection system body (1) upside is offered fluted (3), swing joint has roll-over stand (4) in recess (3), recess (3) one side is provided with locking mechanism (5), mutually support between locking mechanism (5) and roll-over stand (4), and roll-over stand (4) are provided with show ripples display screen (9) near one side of recess (3), collection system body (1) both sides are provided with protection machanism (6), and collection system body (1) one side is provided with storage mechanism (8), collection system body (1) are provided with control panel (7) in storage mechanism (8) one side, and are provided with sensor probe on control panel (7), mutually support between sensor probe and the storage mechanism (8).

2. The micro data waveform analysis and acquisition device of claim 1, wherein: locking mechanism (5) are including locking frame (501), two-way lead screw (502), slider (503), fixing base (504), first knob (505), axis of rotation (506), stopper (507), spacing draw-in groove (508) and locking groove (509), recess (3) one side is provided with locking frame (501), has seted up locking groove (509) in locking frame (501), and locking groove (509) middle part is provided with fixing base (504), is provided with two-way lead screw (502) on fixing base (504), and two-way lead screw (502) symmetry is provided with slider (503), and two-way lead screw (502) one side runs through locking frame (501) and is provided with first knob (505).

3. The micro data waveform analysis and acquisition device according to claim 2, wherein: the locking frame (501) is run through to slider (503) both sides are provided with stopper (507), equal equidistance in recess (3) one side inner wall and roll-over stand (4) upside surface is kept away and is equipped with a plurality of spacing draw-in grooves (508), mutually support between spacing draw-in groove (508) and the stopper (507).

4. The micro data waveform analysis and acquisition device of claim 1, wherein: protection machanism (6) are including drive groove (601), flexible cylinder (602), spacing (603), guide block (604), rack (605), protection groove (606), drive wheel (607), first transfer line (608), fixed plate (609), second transfer line (610), third transfer line (611), articulated elements (612), guard plate (613), buffer rod (614) and buffer spring (615), drive groove (601) have been seted up in collection system body (1), be provided with flexible cylinder (602) in drive groove (601), the output fixedly connected with rack (605) of flexible cylinder (602), and rack (605) one side is provided with guide block (604), be provided with spacing (603) in drive groove (601), guide block (604) are located spacing (603).

5. The micro data waveform analysis and acquisition device of claim 4, wherein: the collecting device is characterized in that protection grooves (606) are formed in the surfaces of two sides of the collecting device body (1), driving wheels (607) are arranged in the driving grooves (601), first driving rods (608) are arranged on one sides of the driving wheels (607), second driving rods (610) are arranged on one sides of the first driving rods (608), and third driving rods (611) are movably connected to one sides, far away from the first driving rods (608), of the second driving rods (610).

6. The micro data waveform analysis and acquisition device of claim 5, wherein: first transfer line (608) and third transfer line (611) one side swing joint have articulated elements (612), and articulated elements (612) one side is provided with fixed plate (609), and fixed plate (609) one side four corners is provided with buffer rod (614), and buffer rod (614) one side is provided with guard plate (613), and cover is equipped with buffer spring (615) on buffer rod (614) between guard plate (613) and fixed plate (609).

7. The micro data waveform analysis and acquisition device of claim 1, wherein: deposit mechanism (8) including second knob (801), storage rack (802), deposit storehouse (803), loose axle (804), U type splint (805) and screw sleeve (806), collection system body (1) one side is provided with storage rack (802), storage storehouse (803) have been seted up at storage rack (802) middle part, and storage rack (802) one side is provided with screw sleeve (806), swing joint has threaded rod (807) on screw sleeve (806), threaded rod (807) one side is provided with second knob (801), and threaded rod (807) one side is provided with loose axle (804) in storage storehouse (803), loose axle (804) one side is provided with U type splint (805).

8. The micro data waveform analysis and acquisition device of claim 7, wherein: the U-shaped clamping plate (805) is matched with the sensor probe, the control panel (7) is formed by combining a signal conditioning circuit, an analog-to-digital converter, a digital signal processor, a data memory and other components, and the signal conditioning circuit, the analog-to-digital converter, the digital signal processor and the data memory are all electrically connected with the single chip.

9. The micro data waveform analysis and acquisition device of claim 1, wherein: the bottom of the collecting device body (1) is equidistantly separated from the collecting device body and is provided with heat dissipation through holes (11), and the heat dissipation through holes (11) are provided with heat dissipation fans (10).

10. The micro data waveform analysis and acquisition device of claim 9, wherein: the acquisition device is characterized in that the acquisition device body (1) is symmetrically provided with the handles (2) at one time, and nylon materials are wound on the surfaces of the handles (2) to form cloth.