CN114408393A - Double-layer floating disc with information acquisition and transmission structure and implementation method thereof - Google Patents

Abstract

The invention discloses a double-layer floating disc with an information acquisition and transmission structure and an implementation method thereof, belonging to the technical field of floating discs. In order to solve the problems that the existing floating plate is limited by the factors of the use environment, the inside of the tank body can not be detected by some electronic devices, the traditional liquid level detection can only be operated manually, but the liquid in the detection process shakes to influence the detection precision, the metal buoys can realize the disassembly and assembly operation through an internal thread structure, helium airbags are arranged in the buoys of each group, helium is filled in the airbags, the helium gas has lighter mass than air, so that the buoyancy of the metal buoy can be improved, the phenomenon that the floating ring beam ring frame cannot be lifted and reset after being immersed under the influence of magnetic attraction is avoided, meanwhile, helium gas is inert gas and cannot react with internal gas or liquid even if leakage occurs, and the surface of the helium gas bag is made of high-temperature-resistant anti-oxidation materials, so that the condition of breakage and gas leakage is avoided.

Description

Double-layer floating disc with information acquisition and transmission structure and implementation method thereof

Technical Field

The invention relates to the technical field of floating plates, in particular to a double-layer floating plate with an information acquisition and transmission structure and an implementation method thereof.

Background

The floating disc is energy-saving and environment-friendly equipment which is driven by buoyancy to rise and fall along with the liquid level of the storage tank and covers the liquid level, and the storage tank achieves the effects of saving energy and protecting the environment by installing a medium which is hermetically stored by the floating disc and reducing the temperature of the medium.

However, the existing floating plate is limited by the factor influence of the use environment, and can not use some electronic devices to detect the inside of the tank body, the traditional liquid level detection can only be operated manually, but the liquid in the detection process shakes to influence the detection precision; therefore, the existing requirements are not met, and a double-layer floating disc with an information acquisition and transmission structure and an implementation method thereof are provided.

Disclosure of Invention

The invention aims to provide a double-layer floating plate with an information acquisition and transmission structure and an implementation method thereof.

In order to achieve the purpose, the invention provides the following technical scheme: a double-layer floating disc with an information acquisition and transmission structure comprises a double-mode floating frame, wherein an electromagnetic sucker assembly is arranged below the double-mode floating frame and is arranged at the bottom of a storage tank, a magnetic ring piece is arranged at the top of the electromagnetic sucker assembly and is fixedly connected with the electromagnetic sucker assembly, the double-mode floating frame comprises a sealing ring beam ring frame and a floating ring beam ring frame, the sealing ring beam ring frame is arranged above the floating ring beam ring frame, an upper cover plate is arranged at the top of the sealing ring beam ring frame and is connected with the sealing ring beam ring frame through screws, a vent valve hole is formed in the outer surface of the upper cover plate and extends to the inner side of the upper cover plate, a wire ring buckle is arranged on one side of the sealing ring beam ring frame and is welded with the sealing ring beam ring frame, and an anti-static wire is arranged at the top of the wire ring buckle, and the anti-static conducting wire is connected with the conducting wire ring buckle in a combined manner.

Preferably, the inside of vent valve hole is provided with spacing plug, and the below of spacing plug setting at the upper cover plate that floats, the top of spacing plug is provided with the scale stay cord, and scale stay cord and spacing plug fixed connection that floats, the top of scale stay cord is provided with the perforation valve plug, and scale stay cord and perforation valve plug sliding connection.

Preferably, a latitudinal axis frame and a longitudinal axis frame are arranged on the inner side of the sealing ring beam ring frame, the latitudinal axis frame and the longitudinal axis frame are connected with the sealing ring beam ring frame in a welding mode, the latitudinal axis frame is connected with the longitudinal axis frame in a welding mode, a damping spring support leg is arranged between the sealing ring beam ring frame and the floating ring beam ring frame, and the damping spring support leg is connected with the sealing ring beam ring frame and the floating ring beam ring frame in a welding mode.

Preferably, the inside of floating ring beam ring frame is provided with the girder frame, and girder frame and floating ring beam ring frame welded connection, the inboard of girder frame is provided with the metal flotation pontoon, and the metal flotation pontoon passes through the draw-in groove with the girder frame and is connected.

Preferably, all be provided with the floating plate around the ring frame of floating collar tie beam and subside the landing leg, and the landing leg is subsided to the floating plate and the welded connection of floating collar tie beam ring frame, the bottom of floating collar tie beam ring frame is provided with the magnet packing ring, and the magnet packing ring with pass through the screw connection.

Preferably, the both sides of girder frame all are provided with auxiliary girder frame, and auxiliary girder frame sets up to integral type structure with girder frame, auxiliary girder frame includes pendulum groove about and, and just one side of pendulum groove about and all is provided with the damping rotary slot, the inside in pendulum groove is provided with prevents the rotation paddle from top to bottom, and the inside in pendulum groove is provided with prevents the slope paddle about and.

Preferably, prevent that the paddle that inclines and prevent that one side of rotation paddle all is provided with loose bearing, and prevent that the paddle that inclines and prevent that the rotation paddle passes through loose bearing and damping rotary trough and rotate and be connected, prevent that the paddle that inclines and prevent that the rotation paddle all includes that polyethylene shell plate and foam are filled, and the foam is filled and is set up in the inside of polyethylene shell plate.

Preferably, the metal flotation pontoon includes that the hollow divides a section of thick bamboo, and the hollow section of thick bamboo that divides has two, the one end that the hollow divides a section of thick bamboo is provided with the screw thread running-on, and screw thread running-on and hollow branch section of thick bamboo fixed connection, rotate through the internal thread between the hollow section of thick bamboo and connect.

Preferably, the inside of the hollow cylinder is provided with a helium gas bag, the helium gas bag is connected with the hollow cylinder group, the other end of the hollow cylinder is provided with a lock catch shaft, and the lock catch shaft is connected with the hollow cylinder through a screw.

An implementation method of a double-layer floating disc with an information acquisition and transmission structure comprises the following steps:

the method comprises the following steps: the bottom of each storage tank is additionally provided with a group of electromagnetic chuck structures, a magnetic ring sheet at the top of each storage tank is attached to the bottom surface of the tank body, then the damping spring support legs are placed around the floating ring beam ring frame, the end surfaces of the damping spring support legs are welded and fixed, and then the sealing ring beam ring frame is placed above the damping spring support legs and welded and anchored in the same way;

step two: before installing the sealing ring beam ring frame, a metal buoy needs to be installed on the inner side of a main frame of the floating ring beam ring frame, the metal buoy is of a split combined structure, decomposition and assembly operations can be realized through an internal thread structure, a helium gas bag is installed inside each group of buoys, and the surface of the helium gas bag is made of a high-temperature-resistant and oxidation-resistant material;

step three: the auxiliary frame structure is also arranged on two sides of the main frame, the auxiliary frame is divided into an upper and lower swinging groove and a left and right swinging groove, the corresponding swinging groove structures between the auxiliary frames on the two sides can be staggered, the upper and lower swinging groove on one side corresponds to the left and right swinging groove on the other side, an anti-tilting paddle and an anti-rotating paddle are correspondingly arranged in each swinging groove, the installed anti-tilting paddle can swing up and down, the anti-rotating paddle can swing left and right, and the anti-tilting paddle can change according to the moving state of liquid in the storage tank;

step four: after the double-mode floating frame is assembled, a layer of cover plate is required to be covered above the sealing ring beam ring frame, a vent valve hole is designed in the center area of the upper cover plate, a group of limiting floating plug plugs are installed below the vent valve hole, the top of each limiting floating plug is connected with a scale pull rope formed by metal weaving, and scale marks are displayed on the surfaces of the pull ropes;

step five: the storage tank is opened, then the double-mold floating frame is placed into the storage tank, the inner floating ring beam ring frame is placed below the inner floating ring beam ring frame, the sealing ring beam ring frame is placed above the inner floating ring beam ring frame, and after the placement is finished, the scale pull rope and the anti-static lead are required to be pulled out, wherein the anti-static lead is required to be connected to a ground wire structure, and the scale pull rope is fixed in an opening in the top of the tank body through the perforated valve plug;

step six: when carrying out the inside liquid level measurement of storage tank, can start the electromagnetic chuck subassembly of jar body bottom, the suction that the electromagnetic chuck subassembly of circular telegram produced passes jar body and liquid and acts on the magnet packing ring of floating collar tie beam ring frame bottom, just so can float the frame with the bimodulus and fix, and the scale stay cord is flare-out this moment, alright with the distance that can obtain the liquid level to jar body top.

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

1. the bottom of each storage tank is firstly additionally provided with a group of electromagnetic chuck structures, a magnetic ring piece at the top of each electromagnetic chuck structure is attached to the bottom surface of the tank body, when liquid level measurement is carried out in the storage tank, an electromagnetic chuck assembly at the bottom of the tank body can be started, suction force generated by the electrified electromagnetic chuck assembly penetrates through the tank body and liquid to act on a magnet gasket at the bottom of a floating ring beam ring frame, so that a double-mode floating frame can be fixed, a scale pull rope is straightened at the moment, the distance from the liquid level surface to the top of the tank body can be obtained, and the calculation formula of the magnetic force is as follows:

the positive axis and the negative axis are working air gap magnetic flux, B is working air gap induction intensity, mu 0 is magnetic conductivity in a liquid state, S is sectional area, after the length of the pull rope 9 is calibrated once, the numerical value of magnetic force can be obtained, then the working air gap magnetic flux between the magnetic forces can be reversely pushed after the numerical value of the magnetic force F is constant, and the height of the liquid level is obtained;

2. according to the invention, the auxiliary frames are divided into the up-and-down swinging grooves and the left-and-right swinging grooves, corresponding swinging groove structures between the auxiliary frames at two sides can be staggered mutually, the up-and-down swinging groove at one side corresponds to the left-and-right swinging groove at the other side, the anti-tilting paddle and the anti-rotating paddle are correspondingly arranged in each swinging groove, the mounted anti-tilting paddle can swing up and down, the anti-rotating paddle can swing left and right and can change according to the activity state of liquid in the storage tank, the anti-rotating paddle can be in a down-swinging state under the influence of self gravity, and the resistance force borne by the double-mode floating frame during rotation can be increased, so that the rotating state of the double-mode floating frame is avoided, and when the double-mode floating frame swings left and right, the two sides can swing left and right along with the double-mode floating frame, so that a stable effect can be achieved, and the overturning condition of the floating plate is avoided;

3. according to the invention, the metal buoys adopt a split combined structure, the decomposition and assembly operation can be realized through an internal thread structure, helium airbags are arranged in each group of buoys, helium is filled in the airbags, the mass of the helium is lighter than that of air, so that the buoyancy of the metal buoys can be improved, the phenomenon that the floating ring beam ring frame cannot be lifted and reset after being immersed under the influence of magnetic attraction is avoided, meanwhile, the helium is inert gas, even if the helium leaks, the helium cannot react with the gas or liquid in the inner part, the surface of the helium airbag is made of high-temperature-resistant anti-oxidation materials, and the condition of breakage and air leakage is avoided.

Drawings

FIG. 1 is an overall front view of the present invention;

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

FIG. 3 is a schematic view of a metal pontoon according to the present invention;

FIG. 4 is a schematic view of the structure of the floating collar beam ring frame of the present invention;

FIG. 5 is a schematic view of a magnet washer configuration of the present invention;

fig. 6 is a schematic structural view of the anti-tilting paddle blade of the present invention.

In the figure: 1. a dual-mode floating frame; 2. an electromagnetic chuck assembly; 3. a magnetic ring sheet; 4. an upper cover plate; 5. a lead is buckled; 6. an anti-static wire; 7. a vent valve aperture; 8. limiting a floating plug; 9. a scale pull rope; 10. a perforated valve plug; 11. a sealing ring beam ring frame; 12. a floating ring beam ring frame; 13. a latitudinal shaft mount; 14. a longitudinal shaft frame; 15. a damping spring leg; 16. a main beam frame; 17. a metal float bowl; 18. a floating plate settlement support leg; 19. a secondary beam frame; 20. an upper and lower swinging groove; 21. a left and right swinging groove; 22. a damping rotary slot; 23. anti-tilt paddles; 24. an anti-rotation paddle; 25. a movable bearing; 26. a magnet washer; 27. hollow cylinder separation; 28. threading a sleeve opening; 29. a helium gas bladder; 30. a polyethylene shell plate; 31. filling foam; 32. the lock catch is clamped with the shaft.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, an embodiment of the present invention: a double-layer floating disc with an information acquisition and transmission structure comprises a double-mode floating frame 1, wherein an electromagnetic sucker assembly 2 is arranged below the double-mode floating frame 1, the electromagnetic sucker assembly 2 is arranged at the bottom of a storage tank, a magnetic ring piece 3 is arranged at the top of the electromagnetic sucker assembly 2, the magnetic ring piece 3 is fixedly connected with the electromagnetic sucker assembly 2, the double-mode floating frame 1 comprises a sealing ring beam ring frame 11 and a floating ring beam ring frame 12, the sealing ring beam ring frame 11 is arranged above the floating ring beam ring frame 12, an upper cover plate 4 is arranged at the top of the sealing ring beam ring frame 11, the upper cover plate 4 is connected with the sealing ring beam ring frame 11 through screws, a vent valve hole 7 is arranged on the outer surface of the upper cover plate 4, the vent valve hole 7 extends to the inner side of the upper cover plate 4, a lead ring buckle 5 is arranged on one side of the sealing ring beam ring frame 11, and the lead ring buckle 5 is welded with the sealing ring beam ring frame 11, the top of wire latch 5 is provided with prevents static wire 6, and prevent static wire 6 and 5 built-up connection of wire latch, the inside of vent valve hole 7 is provided with spacing floating plug 8 stopper, and spacing floating plug 8 stopper sets up the below at upper apron 4, the top of spacing floating plug 8 stopper is provided with scale stay cord 9, and scale stay cord 9 and spacing floating plug 8 stopper fixed connection, the top of scale stay cord 9 is provided with perforation valve plug 10, and scale stay cord 9 and perforation valve plug 10 sliding connection, store up at every and be provided with perforation valve plug 10 sliding connectionSet up a set of electromagnetic chuck structure earlier in the bottom of jar, utilize the laminating of the magnetic force ring piece 3 at its top on the bottom surface of the jar body, and when carrying out the inside liquid level measurement of storage tank, can start the electromagnetic chuck subassembly 2 of jar body bottom, the suction that the electromagnetic chuck subassembly 2 that circular telegram produced passes jar body and liquid action on the magnet packing ring 26 of floating ring beam ring frame 12 bottom, just so can float frame 1 with the bimodulus and fix, scale stay cord 9 straightens this moment, alright obtain the distance of liquid level to jar body top, the computational formula of magnetic force is:

the positive rail is working air gap magnetic flux, B is working air gap induction intensity, mu 0 is magnetic permeability in a liquid state, S is a sectional area, after the length of the scale pull rope 9 is measured once, the numerical value of magnetic force can be obtained, and then the working air gap magnetic flux between the magnetic forces can be reversely pushed after the numerical value of the constant magnetic force F to obtain the height of the liquid level.

Referring to fig. 2-3, the inner side of the sealing ring beam ring frame 11 is provided with a gladio shaft frame 13 and a gladio shaft frame 14, the gladio shaft frame 13 and the gladio shaft frame 14 are welded to the sealing ring beam ring frame 11, the gladio shaft frame 13 is welded to the gladio shaft frame 14, a damping spring leg 15 is provided between the sealing ring beam ring frame 11 and the floating ring beam ring frame 12, the damping spring leg 15 is welded to the sealing ring beam ring frame 11 and the floating ring beam ring frame 12, a main beam frame 16 is provided inside the floating ring beam ring frame 12, the main beam frame 16 is welded to the floating ring beam ring frame 12, the inner side of the main beam frame 16 is provided with a metal float 17, the metal float 17 is connected to the main beam frame 16 through a clamping groove, the metal float 17 comprises a hollow sub-cylinder 27, the hollow sub-cylinder 27 has two, one end of the hollow sub-cylinder 27 is provided with a threaded socket 28, the threaded sleeve opening 28 is fixedly connected with the hollow sub-cylinder 27, the hollow sub-cylinders 27 are rotatably connected through internal threads, helium airbags 29 are arranged in the hollow sub-cylinders 27, the helium airbags 29 are connected with the hollow sub-cylinder 27 in a group, lock catch clamping shafts 32 are arranged at the other ends of the hollow sub-cylinders 27, the lock catch clamping shafts 32 are connected with the hollow sub-cylinders 27 through screws, the metal buoy 17 is of a split combined structure, the split combined structure can be used for realizing the disassembly and assembly operation through the internal thread structure, the helium airbags 29 are arranged in the buoys of each group, the helium is filled in the airbags, the mass of the helium is lighter than that of air, so that the buoyancy of the metal buoy 17 can be improved, the phenomenon that the floating ring beam ring frame 12 cannot ascend and reset after being immersed under the influence of magnetic attraction is avoided, and meanwhile, the helium cannot react with internal gas or liquid even if inert gas leaks is avoided, the surface of the helium gas bag 29 is made of high-temperature-resistant and oxidation-resistant materials, so that the condition of breakage and gas leakage is avoided.

Referring to fig. 4-6, the periphery of the floating ring beam ring frame 12 is provided with floating plate settling legs 18, the floating plate settling legs 18 are welded to the floating ring beam ring frame 12, the bottom of the floating ring beam ring frame 12 is provided with a magnet washer 26, the magnet washer 26 is connected with the floating ring beam ring frame by screws, the two sides of the main beam frame 16 are provided with secondary beam frames 19, the secondary beam frames 19 and the main beam frame 16 are integrated, the secondary beam frames 19 include an up-down swing groove 20 and a left-right swing groove 21, one side of the up-down swing groove 20 and one side of the left-right swing groove 21 are provided with damping rotating grooves 22, the interior of the up-down swing groove 20 is provided with anti-rotation paddles 24, the interior of the left-right swing groove 21 is provided with anti-tilt paddles 23, one side of the anti-tilt paddles 23 and the anti-rotation paddles 24 is provided with movable bearings 25, and the tilt paddles 23 and the paddles 24 are rotatably connected with the damping rotating grooves 22 through the movable bearings 25, the auxiliary frames are divided into an up-down swinging groove 20 and a left-right swinging groove 21, corresponding swinging groove structures between the auxiliary frames on two sides are staggered, the up-down swinging groove 20 on one side corresponds to the left-right swinging groove 21 on the other side, an anti-tilting paddle 23 and an anti-rotating paddle 24 are correspondingly arranged in each swinging groove, the mounted anti-tilting paddle 23 can swing up and down, the anti-rotating paddle 24 can swing left and right and can change according to the moving state of liquid in the storage tank, the anti-rotating paddle 24 is in a down-swinging state under the influence of self gravity, the resistance force borne by the double-mode floating frame 1 during rotation is increased, so that the double-mode floating frame is prevented from rotating, when the double-mode floating frame 1 swings left and right, the two sides can swing left and right along with the double-swinging, so that a stable effect is achieved, the overturning of the floating plate is avoided, the tilting paddle 23 and the anti-rotating paddle 24 both comprise a polyethylene shell plate 30 and foam filling 31, and the foam filling 31 is arranged inside the polyethylene shell plate 30, and the polyethylene shell plate 30 mainly plays a role of protection against corrosion of internal gas and liquid.

An implementation method of a double-layer floating disc with an information acquisition and transmission structure comprises the following steps:

the method comprises the following steps: firstly, adding a group of electromagnetic chuck structures at the bottom of each storage tank, attaching a magnetic ring piece 3 at the top of each storage tank to the bottom surface of the tank body, then placing damping spring support legs 15 around the floating ring beam ring frame 12, welding and fixing the end surfaces of the damping spring support legs, and then placing the sealing ring beam ring frame 11 above the damping spring support legs 15 for welding and anchoring in the same way;

step two: before installing the sealing ring beam ring frame 11, the metal floating pontoon 17 is needed to be installed at the inner side of the main frame of the floating ring beam ring frame 12, the metal floating pontoon 17 adopts a split combined structure, the decomposition and assembly operation can be realized through an internal thread structure, the inside of each group of floating pontoon is provided with a helium gas bag 29, and the surface of the helium gas bag 29 is made of high-temperature-resistant and oxidation-resistant materials;

step three: the two sides of the main frame are also provided with auxiliary frame structures, the auxiliary frame is divided into an upper and lower swinging groove 20 and a left and right swinging groove 21, the corresponding swinging groove structures between the auxiliary frames at the two sides are staggered, the upper and lower swinging groove 20 at one side corresponds to the left and right swinging groove 21 at the other side, an anti-tilting paddle 23 and an anti-rotation paddle 24 are correspondingly arranged in each swinging groove, the mounted anti-tilting paddle 23 can swing up and down, and the anti-rotation paddle 24 can swing left and right and can be changed according to the activity state of liquid in the storage tank;

step four: after the double-mode floating frame 1 is assembled, a layer of cover plate needs to be covered above the sealing ring beam ring frame 11, a vent valve hole 7 is designed in the center area of the upper cover plate 4, a group of limiting floating plugs 8 are installed below the vent valve hole 7, the tops of the limiting floating plugs 8 are connected with a scale pull rope 9 formed by metal weaving, and scale marks are displayed on the surface of the pull rope;

step five: the storage tank is opened, then the double-mold floating frame 1 is placed into the storage tank with the inner floating ring beam ring frame 12 below and the sealing ring beam ring frame 11 above, and after the placement is finished, the scale pull rope 9 and the anti-static lead 6 need to be pulled out, wherein the anti-static lead 6 needs to be connected to a ground wire structure, and the scale pull rope 9 is fixed in an opening in the top of the tank body through the perforated valve plug 10;

step six: when carrying out the inside liquid level measurement of storage tank, can start jar electromagnetic chuck subassembly 2 of body bottom, the suction that the electromagnetic chuck subassembly 2 that circular telegram produced passes jar body and liquid effect on the magnet packing ring 26 of floating ring beam ring frame 12 bottom, just so can float frame 1 with the bimodulus and fix, and the scale stay cord 9 of flare-outing this moment alright obtain the distance of liquid level to jar body top.

In summary, a group of electromagnetic chuck structures is added at the bottom of each storage tank, the magnetic ring sheet 3 at the top of each storage tank is attached to the bottom surface of the tank body, the damping spring legs 15 are placed around the floating ring beam ring frame 12, the end surfaces of the floating ring beam ring frame are welded and fixed, the sealing ring beam ring frame 11 is placed above the damping spring legs 15 and is welded and anchored in the same manner, before the sealing ring beam ring frame 11 is installed, the metal buoy 17 needs to be installed on the inner side of the main frame of the floating ring beam ring frame 12, the metal buoy 17 adopts a split combined structure, the disassembly and assembly operation can be realized through an internal thread structure, a helium gas bag 29 is installed inside each group, the surface of the helium gas bag 29 is made of an anti-oxidation high-temperature material, sub-frame structures are also arranged on two sides of the main frame, and the sub-frames are divided into an up-down swinging groove 20 and a left-right swinging groove 21, meanwhile, corresponding swing groove structures between the auxiliary frames on the two sides are staggered, an up-down swing groove 20 on one side corresponds to a left-right swing groove 21 on the other side, an anti-tilting paddle 23 and an anti-rotation paddle 24 are correspondingly arranged in each swing groove, the mounted anti-tilting paddle 23 can swing up and down, the anti-rotation paddle 24 can swing left and right, the anti-tilting swing grooves can change according to the liquid activity state in the storage tank, after the dual-mode floating frame 1 is assembled, a cover plate needs to be covered above the sealing ring beam ring frame 11, a vent valve hole 7 is designed in the central area of the upper cover plate 4, a group of limiting floating plugs 8 are arranged below the vent valve hole 7, the top of each limiting floating plug 8 is connected with a scale pull rope 9 formed by metal weaving, scale marks are displayed on the surface of the pull rope, the storage tank is opened, and then the dual-mode floating frame 1 is placed below the internal floating ring beam ring frame 12 of the storage tank, sealing ring beam ring frame 11 is last, need pull out scale stay cord 9 and prevent that static wire 6 is pulled out after putting, wherein prevent that static wire 6 need insert the ground wire structurally, scale stay cord 9 is then fixed in the opening at jar body top through perforation valve plug 10, when carrying out the inside liquid level measurement of storage tank, can start jar electromagnetic chuck subassembly 2 of body bottom, the suction that the electromagnetic chuck subassembly 2 that leads to electricity produced passes jar body and liquid effect on the magnet packing ring 26 of floating ring beam ring frame 12 bottom, just so can float frame 1 with the bimodulus and fix, the scale stay cord 9 of straightening this moment, alright obtain the distance of liquid level to jar body top.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a double-deck floating plate with information acquisition transmission structure, includes bimodulus floating frame (1), its characterized in that: an electromagnetic sucker component (2) is arranged below the double-mode floating frame (1), the electromagnetic sucker component (2) is arranged at the bottom of the storage tank, a magnetic ring piece (3) is arranged at the top of the electromagnetic sucker component (2), the magnetic ring piece (3) is fixedly connected with the electromagnetic sucker component (2), the double-mode floating frame (1) comprises a sealing ring beam ring frame (11) and a floating ring beam ring frame (12), the sealing ring beam ring frame (11) is arranged above the floating ring beam ring frame (12), an upper cover plate (4) is arranged at the top of the sealing ring beam ring frame (11), the upper cover plate (4) is connected with the sealing ring beam ring frame (11) through screws, a vent valve hole (7) is formed in the outer surface of the upper cover plate (4), the vent valve hole (7) extends to the inner side of the upper cover plate (4), a lead ring buckle (5) is arranged on one side of the sealing ring beam ring frame (11), and the lead buckle (5) is welded with the sealing ring beam ring frame (11), the top of the lead buckle (5) is provided with an anti-static lead (6), and the anti-static lead (6) is combined and connected with the lead buckle (5).

2. The double-layer floating plate with the information acquisition and transmission structure as claimed in claim 1, wherein: the inside of ventilation valve hole (7) is provided with spacing stopper (8) stopper, and just spacing stopper (8) stopper that floats sets up the below in upper apron (4), the top of spacing stopper (8) stopper that floats is provided with scale stay cord (9), and scale stay cord (9) and spacing stopper (8) stopper fixed connection that floats, the top of scale stay cord (9) is provided with perforation valve plug (10), and scale stay cord (9) and perforation valve plug (10) sliding connection.

3. The double-layer floating plate with the information acquisition and transmission structure as claimed in claim 1, wherein: the inner side of the sealing ring beam ring frame (11) is provided with a latitudinal axis shaft frame (13) and a longitudinal axis shaft frame (14), the latitudinal axis shaft frame (13) and the longitudinal axis shaft frame (14) are connected with the sealing ring beam ring frame (11) in a welding mode, the latitudinal axis shaft frame (13) is connected with the longitudinal axis shaft frame (14) in a welding mode, a damping spring supporting leg (15) is arranged between the sealing ring beam ring frame (11) and the floating ring beam ring frame (12), and the damping spring supporting leg (15) is connected with the sealing ring beam ring frame (11) and the floating ring beam ring frame (12) in a welding mode.

4. The double-layer floating plate with the information acquisition and transmission structure as claimed in claim 3, wherein: the inside of showy gird ring frame (12) is provided with girder frame (16), and girder frame (16) and showy gird ring frame (12) welded connection, the inboard of girder frame (16) is provided with metal flotation pontoon (17), and metal flotation pontoon (17) are connected through the draw-in groove with girder frame (16).

5. The double-layer floating plate with the information acquisition and transmission structure as claimed in claim 4, wherein: all be provided with all around floating collar beam ring frame (12) that the landing leg (18) subsides of floating plate, and floating collar beam ring frame (12) welded connection is subsided landing leg (18) and floating, the bottom of floating collar beam ring frame (12) is provided with magnet packing ring (26), and magnet packing ring (26) with pass through the screw connection.

6. The double-layer floating plate with the information acquisition and transmission structure as claimed in claim 4, wherein: the utility model discloses a damping rotating groove, including girder frame (16), auxiliary girder frame (19) and girder frame (16), the both sides of girder frame (16) all are provided with auxiliary girder frame (19), and auxiliary girder frame (19) set up to integral type structure with girder frame (16), auxiliary girder frame (19) are including pendulum groove (20) about with pendulum groove (21), and just pendulum groove (20) about with all be provided with damping rotating groove (22), the inside of pendulum groove (20) is provided with prevents rotation paddle (24) about, and the inside of pendulum groove (21) is provided with prevents inclining paddle (23) about.

7. The double-layer floating plate with the information acquisition and transmission structure as claimed in claim 6, wherein: prevent inclining paddle (23) and prevent that one side of rotation paddle (24) all is provided with loose bearing (25), and prevent inclining paddle (23) and prevent that rotation paddle (24) pass through loose bearing (25) and rotate with damping rotary slot (22) and be connected, prevent inclining paddle (23) and prevent that rotation paddle (24) all include polyethylene shell board (30) and foam filling (31), and foam filling (31) set up the inside at polyethylene shell board (30).

8. The double-layer floating plate with the information acquisition and transmission structure as claimed in claim 4, wherein: metal flotation pontoon (17) are including hollow branch section of thick bamboo (27), and hollow branch section of thick bamboo (27) have two, the one end of hollow branch section of thick bamboo (27) is provided with screw thread running-on (28), and screw thread running-on (28) and hollow branch section of thick bamboo (27) fixed connection, connect through the internal thread rotation between the hollow branch section of thick bamboo (27).

9. The double-deck floating plate with information acquisition and transmission structure as claimed in claim 8, wherein: the inside of hollow minute section of thick bamboo (27) is provided with helium gasbag (29), and helium gasbag (29) and hollow minute section of thick bamboo (27) group link, the other end of hollow minute section of thick bamboo (27) is provided with hasp card axle (32), and hasp card axle (32) and hollow minute section of thick bamboo (27) pass through the screw connection.

10. A method for implementing a double-deck floating deck with an information acquisition and transmission structure, which is based on any one of claims 1 to 9, wherein the method comprises the following steps:

the method comprises the following steps: the bottom of each storage tank is additionally provided with a group of electromagnetic chuck structures, the magnetic ring piece (3) at the top of each storage tank is attached to the bottom surface of the tank body, then the damping spring support legs (15) are placed around the floating ring beam ring frame (12), the end surfaces of the floating ring beam ring frame are welded and fixed, and then the sealing ring beam ring frame (11) is placed above the damping spring support legs (15) and welded and anchored in the same way;

step two: before the sealing ring beam ring frame (11) is installed, a metal buoy (17) needs to be installed on the inner side of a main frame of a floating ring beam ring frame (12), the metal buoy (17) is of a split combined structure, decomposition and assembly operations can be achieved through an internal thread structure, a helium gas bag (29) is installed inside each group of buoys, and the surface of each helium gas bag (29) is made of a high-temperature-resistant anti-oxidation material;

step three: the auxiliary frame structure is also arranged on two sides of the main frame, the auxiliary frame is divided into an upper and lower swing groove (20) and a left and right swing groove (21), the corresponding swing groove structures between the auxiliary frames on the two sides can be staggered, the upper and lower swing groove (20) on one side corresponds to the left and right swing groove (21) on the other side, an anti-tilt paddle (23) and an anti-rotation paddle (24) are correspondingly arranged in each swing groove, the mounted anti-tilt paddle (23) can swing up and down, the anti-rotation paddle (24) can swing left and right, and the anti-tilt paddle can change according to the liquid activity state in the storage tank;

step four: after the double-mode floating frame (1) is assembled, a layer of cover plate needs to be covered above the sealing ring beam ring frame (11), a ventilation valve hole (7) is designed in the center area of the upper cover plate (4), a group of limiting floating plug (8) plugs are installed below the ventilation valve hole (7), the tops of the limiting floating plug (8) plugs are connected with a scale pull rope (9) formed by metal weaving, and scale marks are displayed on the surfaces of the pull ropes;

step five: the storage tank is opened, then the double-mode floating frame (1) is placed into the storage tank with the inner floating ring beam ring frame (12) below and the sealing ring beam ring frame (11) above, and after placement is finished, the scale pull rope (9) and the anti-static lead (6) need to be pulled out, wherein the anti-static lead (6) needs to be connected to a ground wire structure, and the scale pull rope (9) is fixed in an opening in the top of the tank body through the perforated valve plug (10);

step six: when the liquid level measurement in the storage tank is carried out, the electromagnetic chuck assembly (2) at the bottom of the tank body can be started, the suction force generated by the electrified electromagnetic chuck assembly (2) penetrates through the tank body and liquid to act on the magnetic washer (26) at the bottom of the floating ring beam ring frame (12), so that the double-mode floating frame (1) can be fixed, and the scale pull rope (9) is straightened at the moment, so that the distance from the liquid level to the top of the tank body can be obtained.

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