CN115397174A - Novel automatic instrument with high corrosion resistance - Google Patents

Abstract

The invention discloses a novel automatic instrument with high corrosion resistance, which structurally comprises an observation window, an operator and a protective cover, wherein the observation window is arranged on the protective cover, the protective cover is movably clamped with the observation window, the protective cover is arranged on the operator and connected with the operator, and the operator is provided with an instrument, a flange plate, a restraining device and a processor.

Description

Novel automatic instrument with high corrosion resistance

Technical Field

The invention relates to the field of automatic instruments, in particular to a novel automatic instrument with high corrosion resistance.

Background

The instrument is used for detecting, measuring, observing and calculating various physical quantities, material components, physical parameters and the like, and a vacuum leak detector, a pressure gauge, a detecting instrument and the like belong to the instruments, wherein the novel automatic instrument of the guided wave radar is an instrument structure with high corrosion resistance, and is mainly used for measuring material level and is not influenced by factors such as liquid foam of a measured object;

the novel automatic instrument of guided wave radar includes many cable antennas guided wave radar instrument, can obtain stronger back splash signal, and there is the difference in height in the equipment of many cable antennas guided wave radar instrument antenna, and when the equipment balancing weight, the balancing weight only can be installed on an antenna, leads to the gravity of balancing weight to be used in an antenna all the time.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: a novel automatic instrument with high corrosion resistance structurally comprises an observation window, an operator and a protective cover, wherein the observation window is arranged on the protective cover, the protective cover is movably clamped with the observation window, the operator is provided with the protective cover, the protective cover is connected with the operator,

the manipulator is equipped with instrument and meter, ring flange, pin stopper, treater, install the treater on the ring flange, treater and ring flange activity block, be equipped with instrument and meter on the treater, instrument and meter is connected with the treater, be equipped with the pin stopper on the treater, pin stopper and treater gomphosis, be equipped with the protection casing on the ring flange, the protection casing is connected with the ring flange.

As a further optimization of the technical scheme, the pinning device is provided with a processing plate, an antenna cable body, a processing cavity, a bonding block, a processing column, a regulator and an operation cavity, the processing plate is provided with the processing column, the processing column is movably connected with the processing plate, the processing column is provided with the antenna cable body, the antenna cable body is connected with the processing column, the regulator is provided with the antenna cable body, the antenna cable body is movably clamped with the regulator, the processing plate is provided with the processing cavity, the processing cavity is connected with the processing plate, the processing cavity is internally provided with the operation cavity, the operation cavity is in clearance fit with the processing cavity, the bonding block is arranged inside the operation cavity, the bonding block and the operation cavity are provided with instruments and meters, the instruments and meters are connected with the processing plate, the processing column is provided with a buckle groove, the buckle groove structure of the processing column is matched with the structure of the bonding block, the processing plate is provided with a threaded connection groove, one end of the processing column is provided with a connector, the connector is provided with a hollowed-out opening on the connector of the processing column, and the surface of the antenna wrapping body is provided with an anti-corrosion cable layer.

As a further optimization of this technical scheme, the one end in the operation chamber is equipped with the spliced pole, operation intracavity portion is equipped with hollow movable chamber, laminating piece gomphosis is in the movable intracavity in operation chamber, the movable intracavity portion in operation chamber is equipped with the spiral cylinder that the copper wire was made, be equipped with the screw thread strip on the spliced pole in operation chamber, the diameter in operation chamber is less than the diameter of laminating piece, the one end in process chamber is equipped with the thread connection groove, the spliced pole in operation chamber extends the thread connection groove in process chamber.

As a further optimization of the technical scheme, the adjuster is provided with an installer, an assembly sleeve, an adjusting plate, an adjusting column and a balancing weight, the installer is provided with an adjusting column connected with the installer, the adjusting plate is provided with the assembly sleeve movably connected with the adjusting plate, the adjusting column is provided with the adjusting column connected with the adjusting plate, the adjusting column is provided with the balancing weight connected with the adjusting column, the balancing weight is connected with the adjusting column, the installer is provided with an antenna cable body connected with the installer, both sides of the adjusting plate are provided with hollowed-out holes and assembling grooves, groove walls of the assembling grooves of the adjusting plate are provided with threaded bars, the assembly sleeve is of a connecting cylinder structure, a threaded groove is formed in the center of the assembly sleeve, the outer surface of the assembly sleeve is provided with threaded bars, the diameter of the assembly sleeve is identical to the diameter of the assembling grooves of the adjusting plate, and the assembling hollowed-out holes are formed in the balancing weight.

As the further optimization of the technical scheme, the adjusting column is formed by splicing 3-10 cylinder structures, a protruding shaft body is arranged on the cylinder of the adjusting column, a threaded groove is formed in the other end of the adjusting column cylinder, a threaded strip is arranged on the protruding shaft body of the adjusting column cylinder, and the diameter of the adjusting column on the mounting device is smaller than that of the adjusting column on the adjusting plate.

As a further optimization of the technical proposal, the mounting device is provided with a stretching block, a reinforcing shaft, a mounting plate, a mounting block and a stretching body, a stretching body is arranged in the stretching block and connected with the stretching block, the stretching block is arranged on the mounting block, the mounting block is movably connected with the stretching block through a movable shaft, a mounting shaft is arranged on the mounting block, the mounting shaft is in threaded connection with the mounting block, the mounting plate is provided with a reinforcing shaft, the reinforcing shaft is embedded with the mounting plate, the mounting shaft is arranged in the mounting plate, the mounting plate is movably connected with the mounting shaft, the stretching body is provided with an antenna cable body, the antenna cable body is connected with the stretching body, the stretching body and the stretching block are both provided with a thread connecting groove, the mounting block is provided with a thread groove, the diameter of the thread groove of the mounting plate is matched with the diameter of the mounting shaft, the other end of the mounting shaft is provided with a threaded connector, the diameter of the threaded connector of the mounting shaft is matched with the diameter of the protruding shaft body of the cylinder of the adjusting column, hollow-out openings are arranged on the mounting shaft and the mounting block, the reinforcing shaft is composed of a cylinder body with threads and a long shaft connecting column, the long shaft connecting shafts of the reinforcing shafts are matched with the diameters of the hollow openings of the mounting shafts and the mounting blocks, the two sides of the mounting plate are respectively provided with a threaded connector, the reinforcing shaft is in threaded connection with the threaded connectors of the mounting plate, the mounting shaft is provided with an annular connecting groove, an annular convex shaft is arranged in the mounting plate, the annular convex shaft of the mounting plate is embedded in the annular connecting groove of the mounting shaft, the antenna cable body is characterized in that a sliding rail and a sliding plate are arranged in the stretching body, the sliding rail of the stretching body is connected with the sliding plate in a sliding mode, and the sliding plate of the stretching body is connected with the antenna cable body.

As a further optimization of the technical scheme, the stopper is provided with an extension shaft, a butt buckling block, an extension column, a displacement channel, a splicing plate, a displacement block and a splicing block, the splicing block is arranged on each of two sides of the splicing plate, the splicing block is in clearance fit with the splicing plate, the displacement channel is provided with the displacement block, the displacement block is in sliding connection with the displacement channel, the displacement block is provided with the extension column, the extension column is connected with the displacement block, the extension column is arranged on the extension shaft, the extension shaft is in sliding connection with the extension column, the butt buckling block is arranged on the extension shaft and is connected with the extension shaft, the splicing block is arranged on the antenna cable body, the antenna cable body is movably clamped with the splicing block, the butt buckling block is of an arc shaft body structure, one end of the butt buckling block is provided with a threaded cylinder, one end of the extension shaft is provided with a connecting block, the connecting block of the extension shaft is perpendicular to the shaft body, the threaded cylinder of the butt buckling block is in threaded connection with the connecting block of the extension shaft, and hollow holes are arranged on the extension column and the extension shaft.

According to the technical scheme, the splicing blocks are of circular-arc connecting plate structures, semicircular grooves are formed in the splicing blocks, square connecting plates are arranged on the two sides of the splicing blocks, semicircular grooves are formed in the two sides of the splicing plates, fastening notches matched with the diameters of the square connecting plates of the splicing blocks are formed in the splicing plates, hollowed-out holes are formed in the splicing blocks and the splicing plates, displacement channels are formed in the splicing blocks, cylindrical connectors are arranged on the displacement channels, arc connecting shafts are arranged at one ends of the displacement blocks, and rubber layers are arranged on the surfaces of the arc connecting shafts of the displacement blocks.

Advantageous effects

Compared with the prior art, the novel automatic instrument with high corrosion resistance has the following advantages:

1. according to the invention, the number of the balancing weights with the same specification to be assembled is selected according to the flow impact force of the measuring medium, splicing and assembling are carried out, the weight of the spliced balancing weight structure is larger than the flow impact force of the measuring medium, so that the balancing weight structure does not shake along with the flow of the medium, and then the assembled stretching structure is prolonged according to the height difference between the antenna and the antenna, so that the antenna is connected with the balancing weight structure, and the gravity of the balancing weight is prevented from always acting on one antenna.

2. According to the invention, the stopper is used for embedding the antenna of the multi-cable antenna guided wave radar instrument and meter on the notch formed by assembling the splicing plates and the splicing blocks through assembling the splicing plates and the splicing blocks, so that the antenna is stopped, the winding phenomenon between the antenna and the antenna is prevented, the displacement block is moved according to the diameter of the antenna, the antenna is clamped through the displacement block, and the adaptability of the assembly of the stopper structure is increased.

Drawings

Other features, objects and advantages of the invention will become apparent upon reading the following detailed description of non-captive embodiments with reference to the accompanying drawings in which:

fig. 1 is a schematic diagram of the overall structure of a novel automatic instrument with high corrosion resistance according to the present invention.

Fig. 2 is a schematic structural diagram of the manipulator of the present invention.

FIG. 3 is a diagram of a processor according to the present invention.

Fig. 4 is a schematic view of the regulator of the present invention.

Fig. 5 is a schematic diagram of the mounter structure of the present invention.

FIG. 6 is a schematic view of a stopper structure according to the present invention.

In the figure: the device comprises an observation window 1, an operator 2, a protective cover 3, an instrument 2a, a flange 2b, a stopper 2c, a processor 2d, a processing plate d1, an antenna cable body d2, a processing cavity d3, a fitting block d4, a processing column d5, a regulator d6, an operating cavity d7, an installer d61, an assembling sleeve d62, a regulating plate d63, a regulating column d64, a balancing weight d65, a stretching block 611, a reinforcing shaft 612, a mounting shaft 613, a mounting plate 614, a mounting block 615, a stretching body 616, an extending shaft c11, a buckling block c12, an extending column c13, a displacement channel c14, a splicing plate c15, a displacement block c16 and a splicing block c17.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Example one

Referring to fig. 1-5, a novel automation instrument with high corrosion resistance structurally comprises an observation window 1, an operator 2, and a protective cover 3, wherein the observation window 1 is mounted on the protective cover 3, the protective cover 3 is movably engaged with the observation window 1, the operator 2 is provided with the protective cover 3, the protective cover 3 is connected with the operator 2,

the manipulator 2 is equipped with instrument and meter 2a, ring flange 2b, stopper 2c, treater 2d, install treater 2d on the ring flange 2b, treater 2d and ring flange 2b activity block, be equipped with instrument and meter 2a on the treater 2d, instrument and meter 2a is connected with treater 2d, be equipped with stopper 2c on the treater 2d, stopper 2c and treater 2d gomphosis, be equipped with protection casing 3 on the ring flange 2b, protection casing 3 is connected with ring flange 2b, realizes the level measurement of medium.

The device comprises a traction device 2c, and is characterized in that the traction device 2c is provided with a processing plate d1, an antenna cable body d2, a processing cavity d3, a laminating block d4, a processing column d5, a regulator d6 and an operation cavity d7, the processing plate d1 is provided with the processing column d5, the processing column d5 is movably connected with the processing plate d1, the processing column d5 is provided with the antenna cable body d2, the antenna cable body d2 is connected with the processing column d5, the regulator d6 is provided with the antenna cable body d2, the antenna cable body d2 is movably clamped with the regulator d6, the processing plate d1 is provided with the processing cavity d3, the processing cavity d3 is connected with the processing plate d1, the processing cavity d7 is internally provided with the operation cavity d7, the operation cavity d7 is in clearance fit with the processing cavity d3, the laminating block d4 is arranged inside the operation cavity d7, the laminating block d4 is arranged with the operation cavity d7, the processing plate d1 is provided with an instrument 2a, the instrument 2a is connected with the processing plate d1, the processing cavity d5 is provided with a groove, the processing column d5, the processing block d5 is provided with a hollow hole structure, and the processing plate d5 is provided with the processing plate d5, and the anti-corrosion-preventing structure.

One end on the operation chamber d7 is equipped with the spliced pole, the inside hollow movable chamber that is equipped with of operation chamber d7, the movable intracavity of laminating piece d4 gomphosis in operation chamber d7, the movable intracavity portion of operation chamber d7 is equipped with the spiral cylinder that the copper wire was made, be equipped with the screw thread strip on the spliced pole of operation chamber d7, the diameter of operation chamber d7 is less than the diameter of laminating piece d4, the one end of processing chamber d3 is equipped with the thread connection groove, the spliced pole of operation chamber d7 extends the thread connection groove of processing chamber d3, further stabilizes package assembly.

The regulator d6 is provided with an installer d61, an assembling sleeve d62, a regulating plate d63, a regulating column d64 and a balancing weight d65, the installer d61 is provided with a regulating column d64, the regulating column d64 is connected with the installer d61, the regulating plate d63 is provided with an assembling sleeve d62, the assembling sleeve d62 is movably connected with the regulating plate d63, the regulating plate d63 is provided with a regulating column d64, the regulating column d64 is connected with the regulating plate d63, the regulating column d64 is provided with a balancing weight d65, the balancing weight d65 is connected with the regulating column d64, the installer d61 is provided with an antenna cable body d2, the antenna cable body d2 is connected with the installer d61, two sides of the regulating plate d63 are provided with hollowed holes and assembling grooves, the groove wall of the assembling groove of the regulating plate d63 is provided with a threaded bar, the assembling sleeve d62 is of a connecting cylinder structure, the central position of the assembling sleeve d62 is provided with a threaded groove, the outer surface of the assembling sleeve d62 is provided with a threaded bar, the diameter of the regulating plate d62 is matched with the diameter of the assembling groove of the balancing weight d65, and the assembling structure is provided with the hollowed holes.

The adjusting column d64 is formed by splicing 3-10 cylinder structures, a protruding shaft body is arranged on the cylinder of the adjusting column d64, a threaded groove is formed in the other end of the cylinder of the adjusting column d64, a threaded strip is arranged on the protruding shaft body of the cylinder of the adjusting column d64, the diameter of the adjusting column d64 on the installer d61 is smaller than that of the adjusting column d64 on the adjusting plate d63, and splicing of the adjusting structure is achieved.

The installer d61 is provided with a stretching block 611, a reinforcing shaft 612, an installation shaft 613, an installation plate 614, an installation block 615 and a stretching body 616, the stretching body 616 is arranged inside the stretching block 611, the stretching body 616 is connected with the stretching block 611, the stretching block 611 is installed on the installation block 615, the installation block 615 is movably connected with the stretching block 611 through a movable shaft, the installation block 615 is provided with the installation shaft 613, the installation shaft 613 is in threaded connection with the installation block 615, the installation plate 614 is provided with the reinforcing shaft 612, the reinforcing shaft 612 is embedded with the installation plate 614, the installation shaft 613 is installed inside the installation plate 614, the installation plate 614 is movably connected with the installation shaft 613, the stretching body 616 is provided with an antenna cable body d2, the antenna cable body d2 is connected with the stretching body 616, the stretching body 616 and the stretching block 611 are both provided with threaded connection grooves, and the installation block 615 is provided with threaded grooves, the diameter of the threaded groove of the mounting plate 614 is matched with the diameter of the mounting shaft 613, a threaded connector is arranged at the other end of the mounting shaft 613, the diameter of the threaded connector of the mounting shaft 613 is matched with the diameter of the protruding shaft body of the d64 cylinder of the adjusting column, hollowed-out holes are formed in the mounting shaft 613 and the mounting block 615, the reinforcing shaft 612 is composed of a cylinder body with threads and a long shaft connecting column, the diameters of the long shaft connecting shafts of the reinforcing shaft 612 and the hollowed-out holes of the mounting shaft 613 and the mounting block 615 are matched, threaded connectors are arranged on two sides of the mounting plate 614, the reinforcing shaft 612 is in threaded connection with the threaded connector of the mounting plate 614, an annular connecting groove is arranged on the mounting shaft 613, an annular protruding shaft is arranged inside the mounting plate 614, the annular protruding shaft of the mounting plate 614 is embedded in the annular connecting groove of the mounting shaft 613, and a sliding rail and a sliding plate are arranged inside the stretching body 616, the sliding rail of the stretching body 616 is slidably connected to the sliding plate, and the sliding plate of the stretching body 616 is connected to the antenna cable body d2, so as to connect the antenna structure and the counterweight structure.

The novel automatic instrument with high corrosion resistance utilizes the assembly seal of the protective cover 3 to protect the instrument 2a and prevent the instrument 2a from being too much contacted with the outside to corrode electronic components of the instrument 2a, the antenna cable body d2 is generally coated with a corrosion-resistant coating which can prevent the antenna cable body d2 from being corroded, so that the equipment has high corrosion resistance, the processing column d5 is arranged on the processing plate d1 and penetrates through a hollow opening of a connecting body of the processing column d5 through a bolt to be connected with a threaded connecting groove of the processing plate d1, the assembly of the processing column d5 and the antenna cable body d2 is realized, the connecting column on the operation cavity d7 is rotated to push the connecting column to move in the processing cavity d3, the attaching block d4 is buckled in a buckling groove of the processing column d5, on the basis of the original connection, the assembling stability of the processing column d5 is increased through a buckling structure, and the gravity traction force of the antenna cable body d2 is prevented from being larger, pulling the processing column d5 to cause the processing column d5 to be separated from the connecting end, selecting the assembling number of the balancing weights d65 according to the fluidity of the medium to be measured, sequentially stacking the balancing weights d65 through the adjusting columns d64 on the cylinder body connected with the adjusting columns d64 by means of the threaded connection between the cylinder body of the adjusting columns d64 and the cylinder body, rotating the mounting shaft 613, rotating the annular connecting groove of the mounting shaft 613 on the annular convex block of the mounting plate 614, connecting the threaded connection port of the mounting shaft 613 with the adjusting columns d64, wherein the adjusting columns d64 on the mounting device d61 penetrate through the balancing weights d65 and extend to the hollow openings of the adjusting plates d63, the assembling sleeve d62 is connected with the adjusting columns d64 on the mounting device d61, and the adjusting columns d64 on the mounting device d61 and the adjusting columns d64 on the adjusting plates d63 are mutually pulled, thereby increasing the assembling stability of the counterweight structure, when the antenna structure is installed, the installation block 615 is rotated, so that the installation block 615 is in threaded connection with the installation shaft 613, the reinforcing shaft 612 is rotated, a long-axis connecting shaft of the reinforcing shaft 612 and the installation plate 614 penetrates through hollow-out openings of the installation shaft 613 and the installation block 615, the assembling stability of the antenna cable body d2 is further improved, the instrument 2a is of a double-cable structure, if a height difference exists between the antenna cable body d2 and the antenna cable body d2, the stretching body 616 and a sliding plate of the stretching body 616 are pulled out from the stretching block 611, the length of an assembling end of the antenna cable body d2 is prolonged, the installation block 615 on the stretching block 611 can be connected with the installation shaft 613, and the situation that the counterweight structure is only installed on one antenna cable body d2 is avoided, and the gravity of the counterweight structure only acts on one antenna cable body d2 is caused.

Example two

Referring to fig. 1-6, a novel automation instrument with high corrosion resistance structurally comprises an observation window 1, an operator 2, and a protective cover 3, wherein the observation window 1 is mounted on the protective cover 3, the protective cover 3 is movably engaged with the observation window 1, the operator 2 is provided with the protective cover 3, the protective cover 3 is connected with the operator 2,

the manipulator 2 is equipped with instrument and meter 2a, ring flange 2b, stopper 2c, treater 2d, install treater 2d on the ring flange 2b, treater 2d and ring flange 2b activity block, be equipped with instrument and meter 2a on the treater 2d, instrument and meter 2a is connected with treater 2d, be equipped with stopper 2c on the treater 2d, stopper 2c and treater 2d gomphosis, be equipped with protection casing 3 on the ring flange 2b, protection casing 3 is connected with ring flange 2b, realizes the level measurement of medium.

The device comprises a traction device 2c, and is characterized in that the traction device 2c is provided with a processing plate d1, an antenna cable body d2, a processing cavity d3, a laminating block d4, a processing column d5, a regulator d6 and an operation cavity d7, the processing plate d1 is provided with the processing column d5, the processing column d5 is movably connected with the processing plate d1, the processing column d5 is provided with the antenna cable body d2, the antenna cable body d2 is connected with the processing column d5, the regulator d6 is provided with the antenna cable body d2, the antenna cable body d2 is movably clamped with the regulator d6, the processing plate d1 is provided with the processing cavity d3, the processing cavity d3 is connected with the processing plate d1, the processing cavity d7 is internally provided with the operation cavity d7, the operation cavity d7 is in clearance fit with the processing cavity d3, the laminating block d4 is arranged inside the operation cavity d7, the laminating block d4 is arranged with the operation cavity d7, the processing plate d1 is provided with an instrument 2a, the instrument 2a is connected with the processing plate d1, the processing cavity d5 is provided with a groove, the processing column d5, the processing block d5 is provided with a hollow hole structure, and the processing plate d5 is provided with the processing plate d5, and the anti-corrosion-preventing structure.

One end on the operation chamber d7 is equipped with the spliced pole, the inside hollow movable chamber that is equipped with of operation chamber d7, laminating piece d4 gomphosis is in the movable intracavity of operation chamber d7, the movable intracavity portion of operation chamber d7 is equipped with the spiral cylinder that the copper wire was made, be equipped with the screw thread strip on the spliced pole of operation chamber d7, the diameter of operation chamber d7 is less than the diameter of laminating piece d4, the one end of processing chamber d3 is equipped with the thread connection groove, the spliced pole of operation chamber d7 extends the thread connection groove of processing chamber d3, further stabilizes package assembly.

The regulator d6 is provided with an installer d61, an assembling sleeve d62, a regulating plate d63, a regulating column d64 and a balancing weight d65, the installer d61 is provided with a regulating column d64, the regulating column d64 is connected with the installer d61, the regulating plate d63 is provided with an assembling sleeve d62, the assembling sleeve d62 is movably connected with the regulating plate d63, the regulating plate d63 is provided with a regulating column d64, the regulating column d64 is connected with the regulating plate d63, the regulating column d64 is provided with a balancing weight d65, the balancing weight d65 is connected with the regulating column d64, the installer d61 is provided with an antenna cable body d2, the antenna cable body d2 is connected with the installer d61, both sides of the regulating plate d63 are provided with hollowed holes and assembling grooves, the wall of the assembling groove of the regulating plate d63 is provided with thread strips, the assembling sleeve d62 is of a connecting cylinder structure, the central position of the assembling sleeve d62 is provided with thread grooves, the outer surface of the assembling sleeve d62 is provided with thread strips, the diameter of the balancing weight d63 is identical to that the assembling groove of the assembling sleeve d63, and the assembling structure is realized.

The adjusting column d64 is formed by splicing 3-10 cylinder structures, a protruding shaft body is arranged on the cylinder of the adjusting column d64, a threaded groove is formed in the other end of the cylinder of the adjusting column d64, a threaded strip is arranged on the protruding shaft body of the cylinder of the adjusting column d64, the diameter of the adjusting column d64 on the installer d61 is smaller than that of the adjusting column d64 on the adjusting plate d63, and splicing of the adjusting structure is achieved.

The installer d61 is provided with a stretching block 611, a reinforcing shaft 612, an installation shaft 613, an installation plate 614, an installation block 615 and a stretching body 616, the stretching body 616 is arranged inside the stretching block 611, the stretching body 616 is connected with the stretching block 611, the stretching block 611 is installed on the installation block 615, the installation block 615 is movably connected with the stretching block 611 through a movable shaft, the installation block 615 is provided with the installation shaft 613, the installation shaft 613 is in threaded connection with the installation block 615, the installation plate 614 is provided with the reinforcing shaft 612, the reinforcing shaft 612 is embedded with the installation plate 614, the installation shaft 613 is installed inside the installation plate 614, the installation plate 614 is movably connected with the installation shaft 613, the stretching body 616 is provided with an antenna cable body d2, the antenna cable body d2 is connected with the stretching body 616, the stretching body 616 and the stretching block 611 are both provided with threaded connection grooves, and the installation block 615 is provided with threaded grooves, the diameter of the threaded groove of the mounting plate 614 is matched with the diameter of the mounting shaft 613, the other end of the mounting shaft 613 is provided with a threaded connector, the diameter of the threaded connector of the mounting shaft 613 is matched with the diameter of the protruding shaft body of the cylinder of the adjusting column d64, the mounting shaft 613 and the mounting block 615 are both provided with hollowed-out holes, the reinforcing shaft 612 is composed of a cylinder body provided with threads and a long shaft connecting column, the diameters of the long shaft connecting shafts of the reinforcing shaft 612 and the hollowed-out holes of the mounting shaft 613 and the mounting block 615 are matched, the two sides of the mounting plate 614 are both provided with threaded connectors, the reinforcing shaft 612 is in threaded connection with the threaded connector of the mounting plate 614, the mounting shaft 613 is provided with an annular connecting groove, the mounting plate 614 is internally provided with an annular protruding shaft, the annular protruding shaft of the mounting plate 614 is embedded in the annular connecting groove of the mounting shaft 613, and the stretching body 616 is internally provided with a sliding track and a sliding plate, the sliding rail of the stretching body 616 is slidably connected to the sliding plate, and the sliding plate of the stretching body 616 is connected to the antenna cable body d2, so as to connect the antenna structure and the counterweight structure.

The antenna cable body d2 is movably clamped with the splicing block c17, the abutting block c12 is arranged at one end of the abutting block c12, the splicing block c17 is arranged at one end of the antenna cable body d2, the connecting block c11 is movably connected with the splicing block c17, and the abutting block c12 is arranged at one end of the abutting block c12, the connecting block c11 is connected with the extending shaft c11, and the connecting block c11 is connected with the extending shaft c11 and the extending shaft c11 to realize the mutual perpendicular connection of the extending shaft c11 and the extending shaft c11 of the connecting block c11, and the abutting block c11, the abutting block c12, the extending shaft c11 and the extending shaft c11 are connected with each other.

The splicing block c17 is of an arc connecting plate structure, semicircular grooves are formed in the splicing block c17, square connecting plates are arranged on two sides of the splicing block c17, semicircular grooves are formed in two sides of the splicing plate c15, a buckle notch matched with the diameter of the square connecting plate of the splicing block c17 is formed in the splicing plate c15, hollow holes are formed in the splicing block c17 and the splicing plate c15, a displacement channel c14 is formed in the splicing block c17, a cylindrical connecting port is formed in the displacement channel c14, an arc connecting shaft is arranged at one end of the displacement block c16, a rubber layer is arranged on the surface of the arc connecting shaft of the displacement block c16, and splicing assembly of the traction structure is achieved.

Installing a stopper 2c on the basis of the first embodiment, embedding a splicing plate c15 between an antenna cable body d2 and the antenna cable body d2, buckling and splicing a splicing block c17 and the splicing plate c15, embedding the antenna cable body d2 in a circular groove formed by splicing the splicing block c17 and a semicircular groove of the splicing plate c15, pushing a displacement block c16 according to the diameter of the antenna cable body d2, sliding the displacement block c16 on a displacement channel c14, and buckling the cylinder into a cylindrical connecting port of the displacement channel c14 through a hollow port of the cylinder penetrating through the displacement block c16 to realize the moving and positioning of the displacement block c16, wherein an arc-shaped connecting shaft on the displacement block c16 firmly clamps the antenna cable body d2, the extension shaft c11 is extended for a distance from the extension column c13, the extension shaft c11 and the extension column c13 are fixed by penetrating through hollow openings of the extension shaft c11 and the extension column c13 through cylinders, the buckling block c12 is rotated and extends out from a connecting block of the extension shaft c11, the buckling block c12 is buckled on one side of the antenna cable body d2, the extension heights of the extension shafts c11 on two sides of the antenna cable body d2 are different, the dislocation buckling of the buckling block c12 can be realized, the buckling end of the antenna cable body d2 is increased, the assembly of the restraining structure is more stable, and the device can not easily slide on the antenna cable body d2 due to vibration force generated during the operation in a tank by the restraining device 2c in the working process.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the invention is not limited by the foregoing embodiments, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that all such changes and modifications as fall within the scope of the appended claims, and their equivalents, rather than the foregoing description, be interpreted in accordance with the principles of the invention.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. The utility model provides a novel automatic instrument and meter that possesses high corrosion resistance which characterized in that: the structure of the device comprises an observation window (1), an operator (2) and a protective cover (3), wherein the observation window (1) is arranged on the protective cover (3), the protective cover (3) is connected with the operator (2),

the manipulator (2) is equipped with instrument and meter (2 a), ring flange (2 b), stopper (2 c), treater (2 d), install treater (2 d) on ring flange (2 b), instrument and meter (2 a) is connected with treater (2 d), be equipped with stopper (2 c) on treater (2 d), protection casing (3) are connected with ring flange (2 b).

2. The novel automatic instrument with high corrosion resistance of claim 1, wherein: the device is characterized in that the pinning device (2 c) is provided with a processing plate (d 1), an antenna cable body (d 2), a processing cavity (d 3), a laminating block (d 4), a processing column (d 5), a regulator (d 6) and an operation cavity (d 7), the processing column (d 5) is arranged on the processing plate (d 1), the antenna cable body (d 2) is connected with the processing column (d 5), the antenna cable body (d 2) is arranged on the regulator (d 6), the processing cavity (d 3) is connected with the processing plate (d 1), the operation cavity (d 7) is arranged inside the processing cavity (d 3), the laminating block (d 4) and the operation cavity (d 7) are arranged, and an instrument (2 a) is arranged on the processing plate (d 1).

3. The novel automatic instrument with high corrosion resistance of claim 2, wherein: one end of the operation cavity (d 7) is provided with a connecting column, and a hollow movable cavity is arranged in the operation cavity (d 7).

4. The novel automatic instrument with high corrosion resistance of claim 2, wherein: regulator (d 6) are equipped with erector (d 61), equipment cover (d 62), regulating plate (d 63), adjust post (d 64), balancing weight (d 65), be equipped with on erector (d 61) and adjust post (d 64), equipment cover (d 62) and regulating plate (d 63) swing joint, be equipped with on regulating plate (d 63) and adjust post (d 64), balancing weight (d 65) are connected with regulation post (d 64), be equipped with antenna cable body (d 2) on erector (d 61).

5. The novel automatic instrument with high corrosion resistance of claim 4, wherein: the adjusting column (d 64) is formed by splicing 3-10 cylinder structures, and a protruding shaft body is arranged on the cylinder of the adjusting column (d 64).

6. The novel automatic instrument with high corrosion resistance of claim 4, wherein: installer (d 61) is equipped with tensile piece (611), reinforces axle (612), installation axle (613), mounting panel (614), installation piece (615), tensile body (616), tensile piece (611) inside is equipped with tensile body (616), installation piece (615) and tensile piece (611) swing joint, be equipped with installation axle (613) on installation piece (615), reinforce axle (612) and mounting panel (614) gomphosis, installation axle (613) are installed inside mounting panel (614), mounting panel (614) and installation axle (613) swing joint, be equipped with the antenna cable body (d 2) on tensile body (616).

7. The novel automatic instrument with high corrosion resistance of claim 1, wherein: the antenna cable comprises a lead (2 c) and is characterized in that the lead (2 c) is provided with an extension shaft (c 11), a butting buckle block (c 12), an extension column (c 13), a displacement channel (c 14), a splicing plate (c 15), a displacement block (c 16) and a splicing block (c 17), the two sides of the splicing plate (c 15) are respectively provided with the splicing block (c 17), the displacement block (c 16) is in sliding connection with the displacement channel (c 14), the extension column (c 13) is arranged on the displacement block (c 16), the extension shaft (c 11) is in sliding connection with the extension column (c 13), the butting buckle block (c 12) is arranged on the extension shaft (c 11), and the antenna cable body (d 2) is movably clamped with the splicing block (c 17).

8. The novel automatic instrument with high corrosion resistance of claim 7, wherein: the splicing blocks (c 17) are of arc connecting plate structures, and semicircular grooves are formed in the splicing blocks (c 17).

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