CN112769498B - Wireless communication analysis instrument and use method - Google Patents

Abstract

The invention discloses a wireless communication analysis instrument and a using method thereof, and the structure thereof comprises: the magnetic disk comprises an adjusting knob, a magnetic disk amplifier, a shell, a display screen, a slot plate, an integrated electric plate and an industrial control main board, wherein the display screen is arranged right above the integrated electric plate and is electrically connected with the integrated electric plate through pins, the slot plate is electrically connected with the industrial control main board through the integrated electric plate, and the slot plate and the industrial control main board are respectively arranged on the left side and the right side of the display screen and the integrated electric plate.

Description

Wireless communication analysis instrument and use method

The application is a divisional application of an analytical instrument with an anti-interference inclined disk wireless communication function, wherein the application date is 2018, 9, 26 and the application number is CN 201811126591.1.

Technical Field

The invention discloses a wireless communication analysis instrument and a using method thereof, belonging to the field of analysis instruments.

Background

The wireless communication of the analytical instrument has the functions of receiving and transmitting electric signals and collecting electronic wave bands, so that the transmission frequency of electromagnetic pulses is conveniently expanded, the effect of real-time and efficient electronic data interchange and exchange is achieved, but the work of an electromagnetic field is influenced by the coverage of an external magnetic field to cause unstable interference, and the common defects to be optimized in the prior art comprise:

the magnetic field anti-interference of the analysis instrument is an effective guarantee measure for preventing unstable receiving and sending of the electric signals, and the change anti-interference effect of the superposed magnetic field cannot be obtained around the analysis instrument in an exact constant magnetic field range, so that the electronic pulse penetrates through other large-range magnetic fields in advance before penetrating through the magnetic field and is disturbed by harmonic resonance to influence the wave band processing of the signals, and important information is omitted.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a wireless communication analysis instrument and a using method thereof, and aims to solve the problems that the magnetic field anti-interference of the analysis instrument is an effective guarantee measure for preventing unstable receiving and sending of electric signals, and the change anti-interference effect of a superposed magnetic field cannot be obtained around the analysis instrument in an exact constant magnetic field range, so that electronic pulses penetrate through other large-range magnetic fields in advance before penetrating through the magnetic field and are disturbed by harmonic resonance to influence the wave band processing of the signals, and important information is omitted.

In order to achieve the purpose, the invention is realized by the following technical scheme: a wireless communication analysis instrument and a using method thereof are disclosed, the structure of which comprises: the adjusting knob, the magnetic disc amplifier, the shell, the display screen, the slot board, the integrated electric board and the industrial control main board, wherein the display screen is arranged right above the integrated electric board, the display screen is electrically connected with the integrated electric board through pins, the slot board is electrically connected with the industrial control main board through the integrated electric board, the slot board and the industrial control main board are respectively arranged at the left side and the right side of the display screen and the integrated electric board, the magnetic disc amplifier is nested at the top end inside the shell, the adjusting knob is arranged at the right upper corner of the front side of the shell, the adjusting knob is mechanically connected with the right side of the magnetic disc amplifier, the display screen is nested at the front side of the shell, the slot board, the integrated electric board and the industrial control main board are all arranged inside the shell, the magnetic disc amplifier is provided with a threaded column groove, a magnet frame block, a large hemisphere cushion block, a laminated magnetic disc, a small hemisphere, a cushion block, a roller shaft lever and a rotating lever, the screw thread in screw thread post groove meshes with the tooth's socket of magnet frame piece mutually, magnet frame piece and bull stick swing joint, the inside of stromatolite disk is vertically run through to the roller pole, little hemisphere cushion is equipped with two and installs respectively in the upper left corner and the lower right corner of stromatolite disk, screw thread post groove, magnet frame piece, bull stick all are equipped with two and install respectively in the left and right sides of stromatolite disk, big hemisphere cushion is equipped with two and installs respectively in the lower left corner and the upper right corner of stromatolite disk, magnet frame piece and stromatolite disk swing joint, screw thread post groove and adjust knob mechanical connection.

In order to optimize the technical scheme, the method further comprises the following steps:

as a further improvement of the invention, the adjusting knob is composed of a gear and a knob cap, the display screen is provided with a kinescope, an encoder and a digital panel, the gear and the knob cap are nested into a whole, the axes of the gear and the knob cap are collinear, the gear is meshed with the thread column groove, the kinescopes are provided with two parts which are respectively inserted and embedded in the left upper corner and the right upper corner of the encoder, the kinescope is electrically connected with the digital panel through the encoder, and the bottom surface of the encoder is tightly attached to the top surface of the digital panel.

As a further improvement of the invention, the magnet frame block consists of a concave magnet block, a ball wheel buckle block and a tooth socket block, the concave magnet block is buckled with the tooth socket block through the ball wheel buckle block, and the tooth socket block and the concave magnet block are respectively arranged at the left side and the right side of the ball wheel buckle block.

As a further improvement of the invention, the ball wheel buckling block consists of two semicircular lug plates, a ball shell, T-shaped frame rods and hooks, wherein the two semicircular lug plates are embedded with the ball shell into a whole, the sharp grooves of the T-shaped frame rods are buckled with the hooks, the T-shaped frame rods and the semicircular lug plates are welded into a whole, and the hooks are movably connected with the ends of the T-shaped frame rods through rollers.

As a further improvement of the invention, the laminated magnetic disk comprises a magnetic disk body, egg-shaped shaft blocks and cambered surface sliding plates, wherein the egg-shaped shaft blocks are nested in the magnetic disk body, the axes of the egg-shaped shaft blocks are collinear, the two cambered surface sliding plates are respectively clung to the left side and the right side of the egg-shaped shaft blocks, and the egg-shaped shaft blocks are in clearance fit with the magnetic disk body through the cambered surface sliding plates.

As a further improvement of the invention, the magnetic disc body consists of a spring ball cap, a T-shaped magnetic sheet, a radial pin plate, a magnetic ring and a clamping cover disc, wherein the spring ball cap and the T-shaped magnetic sheet are nested into a whole, the T-shaped magnetic sheet is electrically connected with the radial pin plate through a copper wire, more than two spring ball caps, more than two T-shaped magnetic sheets and more than two radial pin plates are arranged and are welded into a whole around the circle center of the magnetic ring, and two clamping cover discs are arranged and are respectively tightly attached to the front side and the rear side of the magnetic ring.

As a further improvement of the invention, the egg-shaped shaft block consists of an annular slide rail block, a ball and a lead core roller, the lead core roller is arranged on the right side of the axle center in the ball, the groove surface of the annular slide rail block is movably connected with the outer surface of the ball, and the annular slide rail block is tightly attached to the cambered surface slide plate.

As a further improvement of the invention, the egg-shaped shaft block is in an egg-shaped structure with narrow upper head and narrow lower head and wide middle part and is also in a football structure, the egg-shaped shaft block is tightly attached to the cambered surface sliding plate, the center of the egg-shaped shaft block is convenient to be attached to a roller shaft rod to rotate through the special structure of the egg-shaped shaft block, the slipping condition is prevented, meanwhile, the self weight of a lead core roller pushes balls to continuously slide around the annular sliding rail block to form an outer ring rotating force, and the effect that the laminated magnetic disk is pushed by the magnetic force of the magnet frame block to guide the egg-shaped shaft block to rotate in a driven manner is achieved, and the egg-shaped shaft block rotates in a driving manner to guide the laminated magnetic disk in a driving manner.

As a further improvement of the invention, the concave magnet block of the magnet frame block is arranged on the left and right of the laminated magnetic disk and is a north-south pole opposite magnetic pole, the concave magnet block can be meshed with the tooth groove block through the rotation of the gear and can slide up and down along the rotating rod through the linkage of the T-shaped frame rod of the ball wheel buckle block, a reverse inclined plane magnetic field is formed, meanwhile, the laminated magnetic disk is pushed by magnetic force to rotate along the inclined plane, when the left lower part, the right upper part and the left lower part of the concave magnet block are crossed magnetic fields to block the release of the magnetic force, the magnetic field is reduced, when the left upper part, the right lower part and the left lower part of the concave magnet block are superposed magnetic fields to enlarge the magnetic property, and the threaded column of the threaded column groove is reversely linked through a double-rod connecting belt to drive the same-direction rotation but the threaded inclined planes are opposite, so that the magnetic field is enlarged and reduced.

As a further improvement of the invention, the magnetic ring absorbs the magnetization of the concave magnet block, transmits the magnetization to the radial guide plate and the T-shaped magnetic sheet to rotationally radiate magnetic field force, and continuously enhances the magnetic field force by increasing the rotating speed to form the external throwing expansion effect of the centrifugal magnetic field.

Advantageous effects

The invention relates to a wireless communication analytical instrument and a using method thereof.A worker rotates a knob cap of an adjusting knob by twisting a linked gear which is meshed with a threaded column groove of a disk amplifier to push a tooth groove block of a magnet frame block to be meshed with and move up and down, a concave magnet block is linked to slide along a rotating rod by a ball wheel buckle block, a threaded column of the threaded column groove winds a belt to enable a left shaft and a right shaft to rotate in the same direction, thread inclined planes of the threaded columns are opposite, so that when the magnetic field is meshed and pushed, the concave magnet block slides up and down on the left and right to reduce the magnetic field of a laminated disk, the concave magnet block slides up and down on the left and right to amplify the magnetic field of the laminated disk, wherein the magnetic field of the laminated disk supports and pads small semi-ball pads through large semi-ball pads to form an inclined plane structure, then pushes an egg-shaped shaft block to rotate by a magnetic disk body friction cambered surface sliding plate through magnetic force to link from outside to inside, and then leads balls to slide around an annular sliding rail block through the lead core roller of the egg-shaped shaft block by self weight, later stage formation is from inside to outside promotion to rotational speed, it is firm to strengthen the magnetic field, and the magnetic field release of magnetic disk body is through magnetic force ring magnetism effect of inhaling, leading-in electromagnetic force gives T type magnetic sheet rotatory inflow radiation pin board, form the radial extension magnetic field of getting rid of outward, when making radio communication send-receiver, the display screen of casing can obtain the signal of telecommunication through the encoder and pass through the picture tube and show before digital panel, integrated electroplax and industrial control mainboard analysis adjustment are switched on to rethread manual grafting wire slot board, it can change the covering effect to reach anti-interference magnetic field, the internal environment of cover is independent magnetic field, the phenomenon of resonance wave band has been avoided, accomplish data analysis operation.

The invention has the following advantages after operation:

the magnetic frame block is matched with the laminated magnetic disc, the concave magnet block is pushed to slide up and down by the meshing of the tooth groove block, a superposed magnetic field combined with a magnetic field released by the rotation of the radial pin plate of the magnetic disc body is formed, the superposed magnetic field is weakened and reduced when crossed, the superposed magnetic field is amplified and covered, electric signal wireless communication is conveniently collected, and the anti-resonance and anti-interference effects of covering the environment in the magnetic field are achieved.

Drawings

Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention when taken in conjunction with the accompanying drawings, in which:

fig. 1 is a schematic structural diagram of a wireless communication analyzer and a method for using the same according to the present invention.

FIG. 2 is a schematic cross-sectional view of a disk amplifier and a display panel according to the present invention.

FIG. 3 is a detailed cross-sectional view of the adjusting knob, the magnet frame block and the laminated disc of the present invention.

Fig. 4 is a schematic top view of the ball-and-wheel fastener in operation.

Fig. 5 is a schematic top view of the magnetic disk body and the egg-shaped shaft block in the working state.

Description of reference numerals: an adjusting knob-1, a magnetic disk amplifier-2, a shell-3, a display screen-4, a slot plate-5, an integrated electric plate-6, an industrial control mainboard-7, a gear-11, a knob cap-12, a threaded column groove-21, a magnet frame block-22, a large hemisphere cushion block-23, a laminated magnetic disk-24, a small hemisphere cushion block-25, a groove-26, a roller shaft-27, a rotating rod-28, a concave magnet block-221, a ball wheel buckle block-222, a tooth socket block-223, a semicircle ear plate-2221, a spherical shell-2222, a T-shaped frame rod-2223, a hook-2224, a magnetic disk body-241, an egg-shaped shaft block-242, an arc surface sliding plate-243, a spring ball cap-2411, a T-shaped magnetic disk-2412, a radial guide foot plate-2413, Magnetic ring-2414, clip cover disc-2415, annular sliding rail block-2421, ball-2422, lead core roller-2423, kinescope-41, encoder-42 and digital panel-43.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1-5, the present invention provides a wireless communication analyzer and a method for using the same, the structure of which includes: adjust knob 1, disc amplifier 2, casing 3, display screen 4, socket board 5, integrated electroplax 6, industry control mainboard 7, display screen 4 is installed directly over integrated electroplax 6, display screen 4 is connected through pin and integrated electroplax 6 electricity, socket board 5 is connected through integrated electroplax 6 and industry control mainboard 7 electricity, socket board 5 and industry control mainboard 7 are installed respectively in the left and right sides of display screen 4 and integrated electroplax 6, disc amplifier 2 nests in the inside top of casing 3, adjust knob 1 installs in the upper right corner of casing 3 front side, adjust knob 1 and disc amplifier 2's right side mechanical connection, display screen 4 is inserted and is inlayed in the front side of casing 3, socket board 5, integrated electroplax 6, industry control mainboard 7 all install in the inside of casing 3, disc amplifier 2 is equipped with screw thread post groove 21, The magnetic disc drive comprises a magnet frame block 22, a large hemispherical cushion block 23, a laminated magnetic disc 24, a small hemispherical cushion block 25, a groove 26, a roller shaft rod 27 and a rotating rod 28, wherein threads of a threaded column groove 21 are meshed with tooth grooves of the magnet frame block 22, the magnet frame block 22 is movably connected with the rotating rod 28, the roller shaft rod 27 longitudinally penetrates through the laminated magnetic disc 24, the small hemispherical cushion blocks 25 are arranged in two and are respectively arranged at the upper left corner and the lower right corner of the laminated magnetic disc 24, the threaded column groove 21, the magnet frame block 22 and the rotating rod 28 are respectively arranged in two and are respectively arranged at the left side and the right side of the laminated magnetic disc 24, the large hemispherical cushion blocks 23 are arranged in two and are respectively arranged at the lower left corner and the upper right corner of the laminated magnetic disc 24, the magnet frame block 22 is movably connected with the laminated magnetic disc 24, and the threaded column groove 21 is mechanically connected with an adjusting knob 1.

Referring to fig. 2-3, the adjusting knob 1 is composed of a gear 11 and a knob cap 12, the display screen 4 is provided with a picture tube 41, an encoder 42 and a digital panel 43, the gear 11 and the knob cap 12 are nested into a whole and the axes are collinear, the gear 11 is engaged with the threaded cylindrical groove 21, the kinescope 41 is provided with two and is respectively inserted and embedded at the left and right upper corners of the encoder 42, the kinescope 41 is electrically connected with a digital panel 43 through an encoder 42, the bottom surface of the encoder 42 is tightly attached to the top surface of the digital panel 43, the knob cap 12 is manually twisted to drive the gear 11 to rotate and be meshed with the threaded column groove 21 for transmission, the encoder 42 is connected with the integrated electric board 6 for receiving and transmitting electric signals, forms a digital coordinate image on the back side of the digital panel 43 through the kinescope 41, and provides the digital coordinate image for people to observe and analyze through the digital panel 43, thereby realizing the effects of adjusting the receiving and transmitting magnetic fields in real time and displaying data in time.

Referring to fig. 3-4, the magnet frame block 22 includes a concave magnet block 221, a ball wheel fastener block 222, and a spline block 223, the concave magnet block 221 is fastened to the spline block 223 through the ball wheel fastener block 222, the spline block 223 and the concave magnet block 221 are respectively installed on the left and right sides of the ball wheel fastener block 222, the ball wheel fastener block 222 includes a semicircular lug 2221, a spherical shell 2222, a T-shaped frame bar 2223, and a hook 2224, the semicircular lug 2221 includes two pieces and is embedded into the spherical shell 2222, the tip slot of the T-shaped frame bar 2223 is fastened to the hook 2224, the T-shaped frame bar 2223 and the semicircular lug 2221 are welded into a whole, the hook 2224 is movably connected to the end of the T-shaped frame bar 2223 through a roller, the concave magnet block 221 of the magnet frame block 22 is installed on the left and right sides of the laminated disc 24 to have south-north-pole opposite poles, the tooth block can be engaged with the gear block through the rotation of the gear 11, and the spline block can slide along the T-shaped frame bar 2223 along the concave magnet bar 28 of the spline block 2223 The magnetic field of the reverse inclined surface is formed, meanwhile, the laminated magnetic disc 24 is pushed to rotate along the inclined surface by magnetic force, when the left lower part and the right upper part of the concave magnet block 221 block the cross magnetic field to block the magnetic force release, the magnetic field is reduced, when the left upper part and the right lower part of the concave magnet block 221 block the superimposed magnetic field to expand the magnetic field, the threaded column of the threaded column groove 21 is reversely linked, the double-rod connecting belt is used for driving the same-direction rotation, but the threaded inclined surfaces are opposite, so that the magnetic field is amplified and reduced, the semicircular lug plates 2221 are pushed into the spherical shell 2222 left and right, the T-shaped frame bar 2223 pushing hooks 2224 are reversely buckled and hinged with each other around the center of the spherical shell 2222, and the buckling action of the concave magnet block 221 through the ball wheel buckling block 222 and the tooth groove block 223 is formed.

Referring to fig. 3 and 5, the laminated magnetic disk 24 includes a magnetic disk body 241, an egg-shaped shaft block 242, and an arc-shaped slider 243, the egg-shaped shaft block 242 is nested inside the magnetic disk body 241, and the axes of the egg-shaped shaft block are collinear, the two arc-shaped sliders 243 are disposed and respectively attached to the left and right sides of the egg-shaped shaft block 242, the egg-shaped shaft block 242 is in clearance fit with the magnetic disk body 241 through the arc-shaped slider 243, the egg-shaped shaft block 242 includes an annular slide rail block 2421, a ball 2422, and a lead roller 2423, the lead roller 2423 is mounted on the right side of the axis inside the ball 2422, the groove surface of the annular slide rail block 2421 is movably connected with the outer surface of the ball 2422, the annular slide rail block 2421 is attached to the arc-shaped slider 2421, the egg-shaped shaft block 242 is an egg-shaped structure with a narrow top and a wide bottom, and a middle, and is also an olive ball structure, the egg-shaped shaft block 242 is attached to the arc-shaped slider 243, through the special structure of the egg-shaped shaft block 242, the center of the egg-shaped shaft block 242 is convenient to be attached to the roller shaft rod 27 to rotate, the slipping situation is prevented, meanwhile, the lead core roller 2423 pushes the balls 2422 to continuously slide around the annular sliding rail block 2421 by self weight to form an outer ring rotating force, the purpose that the laminated magnetic disk 24 is pushed by the magnetic force of the magnet frame block 22 to guide the egg-shaped shaft block 242 to rotate in a driven mode is achieved, the egg-shaped shaft block 242 automatically rotates to guide the laminated magnetic disk 24 to rotate, the magnetic disk body 241 pushes the friction cambered surface sliding plate 243 to pull the egg-shaped shaft block 242 to rotate by the magnetic force to form a rotating thrust from outside to inside, the ball 2422 is pushed by self weight of the lead core roller 2423 to guide the rotating sliding around the annular sliding rail block 2421, and the later-stage operation effect of pushing the rotating speed increasing from inside to outside is facilitated.

Referring to fig. 5, the magnetic disc 241 is composed of a spring ball cap 2411, a T-shaped magnetic sheet 2412, a radiation pin plate 2413, a magnetic ring 2414, and a clip cover 2415, the spring ball cap 2411 and the T-shaped magnetic sheet 2412 are nested into a whole, the T-shaped magnetic sheet 2412 is electrically connected to the radiation pin plate 2413 through a copper wire, the spring ball cap 2411, the T-shaped magnetic sheet 2412, and the radiation pin plate 2413 are provided with more than two and are welded into a whole around the center of the magnetic ring 2414, the clip cover 2415 is provided with two and are respectively attached to the front and rear sides of the magnetic ring 2414, the magnetic ring 2414 absorbs the magnetization of the concave magnet block 221, transmits the radiation pin plate 2413 and the T-shaped magnetic sheet 2412 to emit magnetic field force by rotating at a high speed, forms an external magnetic field swinging expansion effect of a centrifugal magnetic field by increasing the rotating speed, the magnetic ring 2414 is buckled by the clip cover 2415, when the magnetic ring 2414 rotates, the clip cover 2415 is linked to rotate, the T-shaped magnetic sheet 2412 on the magnetic ring 2414 releases the electromagnetic force to the radial toe board 2413 to radiate the magnetic field in a divergent manner, and the spring ball cap 2411 protects the collision of the inner sheets during the process, so that the effect of expanding the magnetic field is achieved.

The working process is as follows: a worker twists a knob cap 12 of an adjusting knob 1, a linkage gear 11 is meshed with a threaded column groove 21 of a disk amplifier 2 to rotate, a tooth groove block 223 of a magnet frame block 22 is pushed to be meshed with and move up and down, a concave magnet block 221 is linked to slide along a rotating rod 28 through a ball wheel buckle block 222, a threaded column winding belt of the threaded column groove 21 enables left and right shafts to rotate in the same direction, thread inclined planes of the threaded columns are opposite, therefore, when meshing pushing is caused, sliding of the concave magnet block 221 up and down left and right is an effect of reducing a magnetic field of a laminated disk 24, sliding of the concave magnet block 221 up and down left and right is an effect of amplifying a magnetic field of the laminated disk 24, wherein the magnetic field of the laminated disk 24 supports and pads a small hemisphere 25 through a large hemisphere pad block 23 to form an inclined plane structure, an egg-shaped shaft block 242 is pushed to rotate through a magnetic force pushing magnetic disk body 241 friction arc sliding plate 243 to link from outside to inside, and a ball 2422 is guided to slide around an annular sliding rail block 2421 through self weight of a lead core roller 2423 of the egg-shaped shaft block 242, later stage formation is from inside to outside promotion of counter-rotating speed, it is firm to strengthen the magnetic field, and the magnetic field release of disk body 241 is through magnetic force ring 2414 magnetism absorption effect, it flows into radiation pin board 2413 for T type magnetic sheet 2412 rotation to introduce the electromagnetic force, form the radial extension magnetic field of getting rid of outward, when making wireless communication send-receive signal, display screen 4 of casing 3 can obtain the signal of telecommunication through encoder 42 and show before digital panel 43 through picture tube 41, rethread manual grafting wire slot board 5 switches on integrated electroplax 6 and industrial control mainboard 7 analysis and adjustment, reach the variable cover effect of anti-interference magnetic field, the environment is independent magnetic field in the cover, the phenomenon of resonance wave band has been avoided, accomplish data analysis and operation.

The invention uses the mutual combination of the above parts to achieve the matching of the magnet frame block 22 and the laminated magnetic disc 24, and the concave magnet block 221 is pushed to slide up and down by the meshing of the tooth groove block 223 to form a superposed magnetic field combined with the magnetic field released by the rotation of the radiation pin plate 2413 of the magnetic disc body 241, the superposed magnetic field is weakened and reduced when crossed, the amplified magnetic field is covered to facilitate the collection of electric signal wireless communication when overlapped, and the anti-resonance and anti-interference effect of the environment in the covered magnetic field is achieved, thereby solving the problem that the anti-interference of the magnetic field of the analytical instrument is an effective guarantee measure for preventing the unstable receiving and sending of the electric signal, and the change and anti-interference effect of the superposed magnetic field can not be obtained around the analytical instrument in the exact constant magnetic field range, thus causing the electronic pulse to pass through other large-range magnetic fields in advance to be disturbed by harmonic resonance to the electric signal before passing through the magnetic field, thereby influencing the wave band processing of the signal, the problem of missing important information.

The specific embodiments described herein are merely illustrative of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims appended hereto.

Claims (3)

1. An analytical instrument with a wireless communication function of an anti-interference inclined magnetic disc structurally comprises: adjust knob (1), magnetic disc amplifier (2), casing (3), display screen (4), slot board (5), integrated electroplax (6), industry control mainboard (7), its characterized in that:

the display screen (4) is arranged right above the integrated circuit board (6), the display screen (4) is electrically connected with the integrated circuit board (6) through pins, the slot board (5) is electrically connected with the industrial control main board (7) through the integrated circuit board (6), the slot board (5) and the industrial control main board (7) are respectively arranged on the left side and the right side of the display screen (4) and the integrated circuit board (6), the magnetic disc amplifier (2) is nested at the top end inside the shell (3), the adjusting knob (1) is arranged at the upper right corner of the front side of the shell (3), the adjusting knob (1) is mechanically connected with the right side of the magnetic disc amplifier (2), the display screen (4) is inserted and embedded in the front side of the shell (3), and the slot board (5), the integrated circuit board (6) and the industrial control main board (7) are all arranged inside the shell (3);

the magnetic disc amplifier (2) is provided with a threaded column groove (21), a magnet frame block (22), a large hemispherical cushion block (23), a laminated magnetic disc (24), a small hemispherical cushion block (25), a groove (26), a roll shaft rod (27) and a rotating rod (28);

the thread of the threaded column groove (21) is meshed with a tooth groove of the magnet frame block (22), the magnet frame block (22) is movably connected with the rotating rod (28), the roller shaft rod (27) longitudinally penetrates through the laminated magnetic disk (24), the small hemispherical cushion blocks (25) are provided with two and are respectively arranged at the upper left corner and the lower right corner of the laminated magnetic disk (24), the threaded column groove (21), the magnet frame block (22) and the rotating rod (28) are respectively provided with two and are respectively arranged at the left side and the right side of the laminated magnetic disk (24), the large hemispherical cushion blocks (23) are provided with two and are respectively arranged at the lower left corner and the upper right corner of the laminated magnetic disk (24), the magnet frame block (22) is movably connected with the laminated magnetic disk (24), and the threaded column groove (21) is mechanically connected with the adjusting knob (1);

the adjusting knob (1) consists of a gear (11) and a knob cap (12), the display screen (4) is provided with a picture tube (41), an encoder (42) and a digital panel (43), the gear (11) and the knob cap (12) are nested into a whole, the axes of the gear and the knob cap are collinear, the gear (11) is meshed with the threaded column groove (21), the picture tube (41) is provided with two picture tubes which are respectively inserted and embedded in the left upper corner and the right upper corner of the encoder (42), the picture tube (41) is electrically connected with the digital panel (43) through the encoder (42), and the bottom surface of the encoder (42) is clung to the top surface of the digital panel (43);

the laminated magnetic disk (24) is composed of a magnetic disk body (241), egg-shaped shaft blocks (242) and arc surface sliding plates (243), the egg-shaped shaft blocks (242) are nested inside the magnetic disk body (241) and the axes of the egg-shaped shaft blocks are collinear, the arc surface sliding plates (243) are provided with two arc surface sliding plates (243) and are respectively clung to the left side and the right side of the egg-shaped shaft blocks (242), and the egg-shaped shaft blocks (242) are in clearance fit with the magnetic disk body (241) through the arc surface sliding plates (243);

the magnetic disc body (241) consists of a spring ball cap (2411), a T-shaped magnetic sheet (2412), a radial pin plate (2413), a magnetic ring (2414) and a clamp cover disc (2415), wherein the spring ball cap (2411) and the T-shaped magnetic sheet (2412) are nested into a whole, the T-shaped magnetic sheet (2412) is electrically connected with the radial pin plate (2413) through a copper wire, more than two spring ball caps (2411), T-shaped magnetic sheets (2412) and radial pin plates (2413) are arranged and are welded into a whole around the circle center of the magnetic ring (2414), and two clamp cover discs (2415) are arranged and are respectively tightly attached to the front side and the rear side of the magnetic ring (2414);

the egg-shaped shaft block (242) consists of an annular sliding rail block (2421), a ball (2422) and a lead core roller (2423), the lead core roller (2423) is mounted on the right side of the axis inside the ball (2422), the groove surface of the annular sliding rail block (2421) is movably connected with the outer surface of the ball (2422), and the annular sliding rail block (2421) is tightly attached to the cambered surface sliding plate (243);

the egg-shaped shaft block (242) is of an egg-shaped structure with narrow upper and lower heads and wide middle and is also of a football structure, and the egg-shaped shaft block (242) is tightly attached to the cambered surface sliding plate (243);

the working personnel can drive the tooth space block (223) of the magnet frame block (22) to move up and down in a meshed manner by twisting the knob cap (12) of the adjusting knob (1) and the linkage gear (11) to be meshed with the thread column groove (21) of the disk amplifier (2) to rotate, and drive the concave magnet block (221) to slide along the rotating rod (28) by the ball wheel buckle block (222), during which the thread column of the thread column groove (21) winds the belt to enable the left and right shafts to rotate in the same direction, and the thread inclined planes of the thread columns are opposite, so that when the magnet block is meshed and driven, the left, lower, right and up sliding of the concave magnet block (221) is an effect of reducing the magnetic field of the laminated disk (24), and the left, upper, right and down sliding of the concave magnet block (221) is an effect of amplifying the magnetic field of the laminated disk (24); wherein the magnetic field of the laminated magnetic disk (24) forms an inclined plane structure by supporting the small hemispherical cushion block 25 by the large hemispherical cushion block (23), then the magnetic disk body (241) is pushed by magnetic force to rub the cambered surface sliding plate (243) to push the egg-shaped shaft block (242) to rotate and link from outside to inside, then the ball (2422) is guided to slide around the annular sliding rail block (2421) by the self weight of the lead core roller (2423) of the egg-shaped shaft block (242), the rotating speed is increased from inside to outside in the later period, the magnetic field stability is enhanced, the magnetic field of the magnetic disk body (241) is released by the magnetic force absorption effect of the magnetic force ring (2414), electromagnetic force is introduced to rotate the T-shaped magnetic sheet (2412) and flow into the radiation guide foot plate (2413) to form an externally thrown radiation type expansion magnetic field, so that when a wireless communication kinescope receives and sends signals, the display screen (4) of the shell (3) can obtain electric signals through the encoder (42) and represent the electric signals in front of the digital panel (43), and then the integrated electric board (6) and the industrial control main board (7) are conducted through the manual insertion wire slot board (5) for analysis and adjustment, so that the anti-interference magnetic field can change the covering effect, the internal environment is an independent magnetic field, the phenomenon of a resonance wave band is avoided, and the data analysis operation is completed.

2. The analyzer with wireless communication capability of a tamper resistant bevel disk as claimed in claim 1, wherein: the magnet frame block (22) is composed of a concave magnet block (221), a ball wheel buckle block (222) and a tooth socket block (223), the concave magnet block (221) is buckled with the tooth socket block (223) through the ball wheel buckle block (222), and the tooth socket block (223) and the concave magnet block (221) are respectively arranged on the left side and the right side of the ball wheel buckle block (222).

3. The analyzer with wireless communication capability of a tamper resistant bevel disk as claimed in claim 2, wherein: the ball wheel buckling block (222) is composed of two semicircular lug plates (2221), a ball shell (2222), T-shaped frame rods (2223) and hooks (2224), the semicircular lug plates (2221) are embedded into a whole with the ball shell (2222), the sharp grooves of the T-shaped frame rods (2223) are buckled with the hooks (2224), the T-shaped frame rods (2223) are welded into a whole with the semicircular lug plates (2221), and the hooks (2224) are movably connected with the ends of the T-shaped frame rods (2223) through rollers.

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