CN113602693B - Emulsion storage jar of subsidiary intelligent real-time supervision function - Google Patents

Abstract

The invention discloses an emulsion storage tank with an intelligent real-time monitoring function, and belongs to the technical field of emulsion storage. The magnetocaloric rod is installed on the tank cover, and inside the magnetocaloric rod was located the holding vessel, the magnetocaloric rod attracted the iron piece in the useless emulsion through magnetic field, made the piece adsorb on the magnetocaloric rod, and simultaneously, the magnetocaloric rod passed through the electric current fuel factor and produced the heat to heating the useless emulsion, making useless emulsion molecular motion accelerate, the efficiency of the follow-up breakdown of emulsion of improvement useless emulsion.

Description

Emulsion storage jar of subsidiary intelligent real-time supervision function

Technical Field

The invention relates to the technical field of emulsion storage, in particular to an emulsion storage tank with an intelligent real-time monitoring function.

Background

In the machine manufacturing industry, emulsion is used in a large amount as a lubricating cooling fluid in the metal cutting process, and the used emulsion contains a large amount of large-particle metal chips and substances harmful to the environment, so that the emulsion cannot be directly discharged into the environment after being used. The waste emulsion has recycling value, and the reusable emulsified oil is obtained by adopting the reduced pressure distillation gas and solvent extraction technology, so that waste resources are fully utilized, the waste emulsion is recycled, the environment damage caused by the waste emulsion is avoided, and the organic combination of enterprise production and pollution prevention is realized.

Before carrying out centralized processing to useless emulsion, often need collect and save the useless emulsion of each source, usually, the mill will collect the useless emulsion in the storage tank, and the emulsion can accumulate a large amount of pieces or other disintegrating slag in the storage tank, has not only caused very big influence to the subsequent processing of emulsion, the subsequent clearance of storage tank of also being convenient for, and then influences the stock solution ability of storage tank. The traditional process adopts a chemical demulsification method to demulsify the emulsion, but the addition of chemical agents undoubtedly increases the difficulty of subsequent treatment.

Disclosure of Invention

The invention aims to provide an emulsion storage tank with an intelligent real-time monitoring function, so as to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides an emulsion storage jar of subsidiary intelligent real-time supervision function, the emulsion holding vessel includes the storage jar, be provided with the cover on the storage jar, storage jar below is provided with the tank bottoms, and storage jar inside is provided with the magnetism hot rod, the cover is sealed the storage jar, magnetism hot rod is connected with the cover, magnetism hot rod adsorbs the inside iron fillings of emulsion, and magnetism hot rod heats the emulsion. The magnetocaloric rod is installed on the tank cover, and inside the magnetocaloric rod was located the storage tank, the magnetocaloric rod attracted the iron piece in the useless emulsion through magnetic field, made the piece adsorb on the magnetocaloric rod. The magnetic hot rod generates heat through a current heat effect, the viscosity and the density of an external phase are reduced by heating an emulsion, the molecular motion is improved through heating, the stability of emulsified oil is reduced, oil-water stratification is promoted, and the emulsion is broken; by heating the waste emulsion, the molecular motion of the waste emulsion is accelerated, and the subsequent demulsification efficiency of the waste emulsion is improved.

The magnetic hot rod comprises a rod body and a rod sleeve, wherein the rod body is connected with the tank cover, the rod sleeve is sleeved on the rod body, a plurality of containing grooves are formed in the rod sleeve, each containing plate is arranged in each containing groove, and each containing plate is provided with an electromagnetic rod. The pole body provides the support for the installation of rod cover, and the rod cover provides the support for the installation of accomodating board and electromagnetic rod through seting up the groove of accomodating, and the length of accomodating the board is less than the length of accomodating the groove, and the accomodating board carries out the shutoff and leaves the opening to accomodating the groove, and the electromagnetic rod is installed on the accomodating board, and the electromagnetic rod adsorbs the iron fillings in the useless emulsion through the electromagnetism of electricity, purifies useless emulsion.

The accommodating plate is connected with the electromagnetic rod through a support plate, and the support plate is rotatably connected with the rod sleeve;

and a coil is arranged in each electromagnetic rod, a conductor in each coil is made of a semiconductor material, and the coil is electrically connected with a control system. The rotating assemblies are arranged on two sides of the support plate in the rod sleeve, the receiving plate is enabled to rotate in the receiving groove through the support plate by the rotating assemblies, the electromagnetic rod is located in the waste emulsion through the rotation of the receiving plate, the electromagnetic rod conducts electromagnetism through an internal coil and adsorbs iron filings through a generated magnetic field, and meanwhile, the coil generates heat through a current heat effect and heats the waste emulsion through the heat; the conductor is made of semiconductor materials, the resistivity of the semiconductor is reduced along with the rise of the temperature, so that the magnetic field generated by the coil is not affected by the temperature and is reduced, the electromagnetic rod is further guaranteed to generate heat and generate a magnetic field, the control system controls the direction of current led into the coil, and the direction of the magnetic field generated on the electromagnetic rod is changed through the change of the current input direction.

The rod body is provided with a middle plate, the middle plate is connected with the inner wall of the rod sleeve in a sliding mode, the upper end of the middle plate is provided with a plurality of linking ports, the lower end of the middle plate is provided with a plurality of linking ports, and each linking port is internally provided with a linking pipe;

the bar body comprises an inner bar, a plurality of magnetic plates are arranged on the inner bar, airflow pipes are arranged in the inner bar, each airflow pipe is communicated with one connecting pipe, and the inner space of the inner bar is communicated with an external air system. The middle plate divides the inner space of the rod sleeve into an ascending cabin and a descending cabin, the middle plate is provided with a connecting pipe for infusing air into the ascending cabin or the descending cabin, so that the rod sleeve moves upwards or downwards on the rod body, and the inner rod provides support for the installation of the magnetic plate; the magnetic field on the magnetic plate and the magnetic field on the electromagnetic rod are matched with each other to enable the rod sleeve to horizontally rotate or not rotate on the rod body, the magnetic plate is divided into an N-pole magnetic plate and an S-pole magnetic plate, when the magnetic field on the electromagnetic rod does not change, the magnetic field on the electromagnetic rod and the magnetic field on the magnetic plate attract each other to enable the rod sleeve not to horizontally rotate on the rod body, when the magnetic field on the electromagnetic rod changes, the magnetic field on the electromagnetic rod repels the original interaction (namely, mutual attraction) magnetic field and attracts other adjacent magnetic fields to enable the rod sleeve to horizontally rotate on the rod body under the driving of the electromagnetic rod, the rod sleeve, the electromagnetic rod, the magnetic plate and the inner rod are arranged similar to an outer rotor motor, the rod sleeve rotates or does not rotate through the change or the unchangeability of the magnetic field on the electromagnetic rod, the rod sleeve rotates to enable the containing plate and the electromagnetic rod to rotate in waste emulsion, the stirring of the waste emulsion is realized, and then the conjunctiva appears in the waste emulsion under the natural standing state is avoided.

Every the containing groove bottom has all been seted up the transfer cabin, the sensor is installed to transfer cabin bottom, and the pressure plate is installed to the top in transfer cabin, install reset spring between pressure plate and the transfer cabin, the transfer cabin with accomodate groove and rod cover inner space intercommunication. When air enters the rod sleeve through the connecting pipe, the rod sleeve is kept in an immovable state on the rod body, meanwhile, the air enters the transfer cabin, the pressure plate is lifted, the pressure plate plugs a channel communicated with the transfer cabin and the containing groove, waste emulsion enters the containing groove after the containing plate rotates, the waste emulsion generates downward pressure on the pressure plate, the connecting pipe pumps the air in the transfer cabin, the pressure in the transfer cabin is kept at a certain pressure value, the waste emulsion can be prevented from entering the transfer cabin when the pressure plate is extruded, the pressure plate extrudes the air in the transfer cabin, the sensor is a pressure sensor, the sensor monitors the pressure change in the transfer cabin, and the storage amount of the waste emulsion in the storage tank is monitored through the change of pressure data; when the electromagnetic rod is positioned in the containing groove, the pressure plate is positioned below the electromagnetic plate, when waste emulsion in the storage tank is to be below the containing groove, the containing plate drives the electromagnetic rod to be contained in the containing groove, then the electromagnetic rod loses a magnetic field, so that iron scraps fall onto the pressure plate from the electromagnetic rod, the air system extracts air in the rod sleeve (namely, an ascending cabin and a descending cabin) through the connecting pipe, the containing groove is communicated with the inside of the storage tank through a through hole above the containing groove, the iron scraps fall into the transfer cabin under the action of air pressure on two sides of the pressure plate and extrude a reset spring, the pressure plate drives the iron scraps to enter the transfer cabin, the iron scraps enter the connecting pipe and the air system along with the flowing of the air, the air system filters the iron scraps in the air, the air is filtered, the air is collected, and the iron scraps are collected, the air in the transfer cabin is extracted, the iron scraps in the storage tank are cleaned, the processes of filtering and manually cleaning scrap iron are omitted.

The storage tank comprises an outer tank body and an inner tank body, wherein a heat insulation layer and a heat insulation layer are arranged between the outer tank body and the inner tank body, the heat insulation layer is in contact with the inner tank body, a separation disc is arranged below the inner tank body, and the separation disc is composed of a pipeline, an electromagnetic valve, an air purifier and a separation control system. The storage tank is composed of an outer tank body and an inner tank body, the arrangement of two layers of tank bodies ensures the safety of the storage tank, when the inner tank body leaks, the outer tank body immediately stores waste emulsion, meanwhile, the arrangement of the inner tank body and the outer tank body separates the external temperature from the internal temperature of the storage tank, thereby reducing the influence of the temperature change of the storage tank on the external temperature, the heat preservation layer preserves the heat of the inner tank body, the heat preservation layer insulates the temperature of the outer tank body, the separating disc separates and processes odor generated by the waste emulsion, and simultaneously, when the odor is processed, the temperature of gas is monitored, thereby monitoring the temperature of the waste emulsion, realizing the monitoring of the temperature of the waste emulsion, the air purifier purifies the odor, the electromagnetic valve controls the pipeline, the separation control system is electrically connected with an external control system, and transmits the monitored temperature data to the control system, so that the control system can regulate and control the temperature of the waste emulsion.

The tank cover is provided with an external thread groove and an internal thread groove, the tank cover is connected with the external tank body through the external thread groove, the tank cover is connected with the internal tank body through the internal thread groove, the pressure relief groove is formed in the tank cover, the pressure relief plate is installed in the pressure relief groove, and the pressure relief groove is communicated with the separating disc through a transmission pipe. The cover and the outer jar of body and the internal tank body part is connected, when the useless emulsion perhaps bleeds to reveal from between the internal tank body and the cover, the sealed of the outer jar of body and cover still can block revealing of useless emulsion or bleeding, the pressure release groove provides the space for the installation of pressure release board, install the spring between pressure release board and the pressure release groove, the pressure release board is at the inside motion of pressure release inslot under the extrusion of the inside foul smell of storage jar, it enters into the separation disc through the instillation pipe to bleed.

The tank bottom includes upper plate, lower plate, the upper plate cover is established on the lower plate, is provided with a plurality of bumper shock absorber between upper plate and the lower plate, every all overlap on the bumper shock absorber and be equipped with damping spring, and damping spring is connected with upper plate and lower plate.

Every bumper shock absorber all includes the stack shell, sets up the piston rod in the stack shell is inside, be provided with the cavity in the piston rod, the space intercommunication between cavity and upper plate and the lower plate is provided with shock attenuation passageway and resilience passageway on the piston, be provided with the damping ring on the resilience passageway, damping ring and cavity intercommunication. The reserve volume of useless emulsion is more in the storage jar, and weight is big more, and is big more to the pressure that the tank bottoms produced, and the space between upper plate and the lower plate is little promptly, and the volume that the air entered into the damping ring is more, and damping when kick-backing promptly is big more, and the reserve volume of useless emulsion is little, and damping when kick-backing is little.

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

1. electromagnetic pole adsorbs iron fillings through electric magnetism, the realization is to the purification of useless emulsion, prevent that iron fillings from piling up in the storage jar, air system extracts to the air in the rod cover, make pressure plate both sides pressure unbalance, the effect of pressure plate both sides air pressure drops and goes into in the transfer cabin and extrude reset spring, pressure plate area iron piece enters into in the transfer cabin, iron fillings enter into along with the flow of air in linking pipe and the air system, air system filters the iron fillings in the air, the realization is to the filtration of air and to the collection of iron fillings, through the extraction to air in the transfer cabin, realize the clearance to iron fillings in the storage jar, save the process of filtering and artifical clearance iron fillings.

2. The magnetic hot rod generates heat through a current heat effect, the viscosity and the density of an external phase are reduced by heating an emulsion, the molecular motion is improved through heating, the stability of emulsified oil is reduced, oil-water stratification is promoted, and the emulsion is broken; by heating the waste emulsion, the molecular motion of the waste emulsion is accelerated, and the subsequent demulsification efficiency of the waste emulsion is improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

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

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

FIG. 3 is a schematic view of the storage tank of the present invention;

FIG. 4 is a schematic view of a can lid of the present invention;

FIG. 5 is a schematic view of the overall structure of the magnetocaloric rod according to the present invention;

FIG. 6 is a schematic view of a half-section of a magnetocaloric rod according to the present invention;

FIG. 7 is a schematic top half-sectional view of a magnetocaloric pole according to the present invention;

FIG. 8 is a schematic structural view of the region A in FIG. 6 according to the present invention;

FIG. 9 is a schematic view of the connection structure of the inner rod and the middle plate according to the present invention;

FIG. 10 is a schematic view of the internal construction of a can bottom of the present invention;

FIG. 11 is a schematic view of the internal structure of the shock absorber of the present invention;

fig. 12 is a schematic structural view of the region B in fig. 11 according to the present invention.

In the figure: 1. storing the tank; 2. a can lid; 3. the tank bottom; 4. a magnetocaloric rod; 101. an outer tank body; 102. an inner tank body; 103. a thermal insulation layer; 104. a heat-insulating layer; 105. a separation disc; 201. an outer thread groove; 202. an internal thread groove; 203. a pressure relief plate; 204. a conveying pipe; 301. an upper base plate; 302. a lower base plate; 303. a shock absorber; 304. a barrel body; 305. a piston rod; 306. a damping ring; 401. a shaft body; 402. a rod sleeve; 403. a receiving groove; 404. a storage plate; 405. an electromagnetic rod; 406. a middle plate; 407. a transfer chamber; 408. a sensor; 409. a pressure plate; 4011. an inner rod; 4012. a magnetic plate; 4013. an airflow duct; 4061. the tube is connected.

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 to 12, the present invention provides a technical solution: the utility model provides an emulsion storage jar of subsidiary intelligent real-time supervision function, emulsion storage tank include storage jar 1, install cover 2 on the storage jar 1, and storage jar 1 below is provided with tank bottoms 3, and 1 internally mounted of storage jar has magnetism hot rod 4, and cover 2 seals storage jar 1, and magnetism hot rod 4 is connected with cover 2, and magnetism hot rod 4 adsorbs the inside iron fillings of emulsion, and magnetism hot rod 4 heats the emulsion.

The storage tank 1 comprises an outer tank body 101 and an inner tank body 102, a heat insulation layer 103 and a heat insulation layer 104 are arranged between the outer tank body 101 and the inner tank body 102, the heat insulation layer 104 is in contact with the inner tank body 102, a separation disc 105 is arranged below the inner tank body 102, and the separation disc 105 is composed of a pipeline, an electromagnetic valve, an air purifier and a separation control system.

The storage tank is composed of an outer tank body and an inner tank body, the arrangement of two layers of tank bodies ensures the safety of the storage tank, when the inner tank body leaks, the outer tank body immediately stores waste emulsion, meanwhile, the arrangement of the inner tank body and the outer tank body separates the external temperature from the internal temperature of the storage tank, thereby reducing the influence of the temperature change of the storage tank on the external temperature, the heat preservation layer preserves the heat of the inner tank body, the heat preservation layer insulates the temperature of the outer tank body, the separating disc separates and processes odor generated by the waste emulsion, and simultaneously, when the odor is processed, the temperature of gas is monitored, thereby monitoring the temperature of the waste emulsion, realizing the monitoring of the temperature of the waste emulsion, the air purifier purifies the odor, the electromagnetic valve controls the pipeline, the separation control system is electrically connected with an external control system, and transmits the monitored temperature data to the control system, so that the control system can regulate and control the temperature of the waste emulsion.

Outer thread groove 201 and internal thread groove 202 have been seted up on cover 2, cover 2 passes through outer thread groove 201 and outer jar body 101 threaded connection, cover 2 passes through inner thread groove 202 and inner jar body 102 threaded connection, the pressure release groove has been seted up on cover 2, install pressure release board 203 through pressure release spring in the pressure release groove, the pressure release groove passes through transmission pipe 204 and separating disc 105 intercommunication, transmission pipe 204 is located the insulating layer 103, through setting up transmission pipe 204 in insulating layer 103, prevent that the gas in transmission pipe 204 from receiving the influence of heat preservation 104 and taking place the temperature variation.

Tank bottoms 3 includes upper plate 301, lower plate 302, and upper plate 301 cover is established on lower plate 302, installs a plurality of bumper shock absorber 303 between upper plate 301 and the lower plate 302, all overlaps on every bumper shock absorber 303 to be equipped with damping spring, and damping spring is connected with upper plate 301 and lower plate 302.

Each shock absorber 303 comprises a cylinder body 304 and a piston rod 305 arranged inside the cylinder body 304, a cavity is arranged in the piston rod 305, the cavity is communicated with the space between the upper bottom plate 301 and the lower bottom plate 302, a shock absorbing channel and a rebound channel are arranged on the piston, a damping ring 306 is arranged on the rebound channel, and the damping ring 306 is communicated with the cavity.

The magnetocaloric rod 4 comprises a rod body 401 and a rod sleeve 402, wherein the rod body 401 is connected with the tank cover 2, the rod sleeve 402 is sleeved on the rod body 401, a plurality of accommodating grooves 403 are formed in the rod sleeve 402, each accommodating groove 403 is internally provided with an accommodating plate 404, and each accommodating plate 404 is provided with an electromagnetic rod 405.

The containing plate 404 is connected with the electromagnetic rod 405 through a support plate, the support plate is rotatably connected with the rod sleeve 402, rotating assemblies (not shown in the figure) are arranged on two sides of the support plate in the rod sleeve 402, the rotating assemblies enable the containing plate 404 to rotate in the containing groove 403 through the support plate, and the electromagnetic rod 405 is located in the waste emulsion through the rotation of the containing plate 404;

a coil is arranged inside each electromagnetic rod 405, a conductor in each coil is made of a semiconductor material, the coil is electrically connected with a control system, the electromagnetic rods 405 perform electromagnetic induction through the coils inside, scrap iron is adsorbed through a generated magnetic field, meanwhile, the coils generate heat through a current heat effect, and waste emulsion is heated through the heat;

the conductor is made of semiconductor materials, the resistivity of the semiconductor is reduced along with the rise of the temperature, so that the magnetic field generated by the coil is not affected by the temperature and is reduced, the electromagnetic rod 405 is further guaranteed to generate heat and generate a magnetic field, the control system controls the direction of current led into the coil, and the direction of the magnetic field generated on the electromagnetic rod 405 is changed through the change of the current input direction.

A middle plate 406 is mounted on the rod body 401, the middle plate 406 is connected with the inner wall of the rod sleeve 402 in a sliding manner, 12 connecting ports are formed in the upper end of the middle plate 406, 12 connecting ports are formed in the lower end of the middle plate 406, a connecting pipe 4061 is mounted in each connecting port, and an electromagnetic valve (not shown in the figure) is mounted in each connecting pipe 4061;

the pole body 401 includes interior pole 4011, is provided with a plurality of magnetic plate 4012 on interior pole 4011, and a plurality of magnetic plate 4012 divide into N utmost point magnetic plate and S utmost point magnetic plate, and N utmost point magnetic plate and S utmost point magnetic plate cross installation install 24 air current pipe 4013 in interior pole 4011, and every air current pipe 4013 all communicates with a linking pipe 4061, and interior pole 4011 inner space communicates with outside air system.

The middle plate divides the inner space of the rod sleeve into an ascending cabin and a descending cabin, the connecting pipe is arranged on the middle plate and used for infusing air into the ascending cabin or the descending cabin, so that the rod sleeve moves upwards or downwards on the rod body, and when the air is infused into the ascending cabin or the descending cabin, the air in the descending cabin or the ascending cabin cannot be extracted.

The magnetic field on the magnetic plate and the magnetic field on the electromagnetic rod are matched with each other to enable the rod to be sleeved on the rod body to horizontally rotate or not to rotate, when the magnetic field on the electromagnetic rod does not change, the magnetic field on the electromagnetic rod and the magnetic field on the magnetic plate attract each other, so that the rod is sleeved on the rod body and does not horizontally rotate, when the magnetic field on the electromagnetic rod changes, the magnetic field on the electromagnetic rod generates repulsion to the original interaction, namely the mutually attracted magnetic field, and generates attraction with other adjacent magnetic fields, so that the rod sleeve is driven by the electromagnetic rod to horizontally rotate on the rod body, the arrangement of the rod sleeve, the electromagnetic rod, the magnetic plate and the inner rod is similar to that of an outer rotor motor, through the change in magnetic field on the electromagnetic rod or unchangeable, make the rod cover rotate or not rotate, the rotation of rod cover makes storage plate and electromagnetic rod rotate in useless emulsion, realizes the stirring to useless emulsion, and then avoids useless emulsion to appear the conjunctiva under the natural state of standing.

The bottom of each accommodating groove 403 is provided with a transit cabin 407, the bottom of the transit cabin 407 is provided with a sensor 408, the sensor 408 is a pressure sensor, the sensor 408 is electrically connected with a control system, a pressure plate 409 is arranged above the transit cabin 407, a return spring (not shown in the figure) is arranged between the pressure plate 409 and the transit cabin 407, and the transit cabin 407 is communicated with the accommodating groove 403 and the inner space of the rod sleeve 402.

The working principle of the invention is as follows:

the tank lid 2 is removed from the storage tank 1, the waste emulsion is poured into the storage tank 1, and thereafter the tank lid 2 is screwed to the storage tank 1. Tank bottoms 3 carries out the shock attenuation to storage jar 1, prevents that external vibrations from influencing steadily placing of storage jar 1.

Magnetocaloric rod 4 soaks in waste emulsion, and rotating assembly makes storage plate 404 rotate in the middle of waste emulsion, and the coil circular telegram in electromagnetic rod 405 produces the heat through the electric current heat effect to heating waste emulsion, simultaneously, producing the magnetic field through the electricity and adsorbing iron fillings.

Control system changes the current direction who lets in the coil, makes the magnetic field direction on the electromagnetism pole 405 change, and electromagnetism pole 405 and a plurality of magnetic plate 4012 mutually support and drive rod cover 402 and carry out the level rotation on pole body 401, and when electromagnetism pole 405 stirred waste emulsion, adsorb the iron fillings of other positions, improve the adsorption effect to iron fillings.

The pressure plate 409 is squeezed by the waste emulsion, the pressure plate 409 is lifted by the air pressure of the transfer cabin 407, the pressure plate 409 is prevented from entering the transfer cabin 407, the pressure plate 409 slides on the transfer cabin 407 for a short distance, the change of the internal pressure of the transfer cabin 407 is caused, the sensor 408 detects the changed pressure, and the monitoring of the storage amount of the waste emulsion is realized.

When the useless emulsion in storage jar 1 will accomodate groove 403 below, accomodate board 404 and drive in electromagnetic rod 405 accomodates groove 403, afterwards, electromagnetic rod 405 loses magnetic field, make the iron piece drop on pressure plate 409 from electromagnetic rod 405, air among the air system through linking pipe 4061 extraction rod cover 402, accomodate inside the groove 403 through the opening intercommunication storage jar 1 of top, pressure plate 409 both sides air pressure effect falls into in transit cabin 407 and extrudees reset spring, pressure plate 409 takes the iron piece to enter into transit cabin 407, the iron piece gets into in linking pipe 4061 and the air system along with the flow of air, air system filters the iron piece in the air, the realization is to the filtration of air and the collection of iron piece, through the extraction to air in the transit cabin 407, the realization is to the clearance of iron piece in the storage jar 1.

When heating waste emulsion, accelerated waste emulsion's degradation, the speed that makes the foul smell produce is accelerated, and the foul smell extrudees pressure release plate 203, and the foul smell enters into separation disc 105 through transmission pipe 204, and separation disc 105 handles the foul smell, through the speed to the foul smell processing, detects the speed that the foul smell produced, and then can learn waste emulsion's degradation condition.

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.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides an emulsion storage jar of subsidiary intelligent real-time supervision function which characterized in that: the emulsion storage tank comprises a storage tank (1), a tank cover (2) is arranged on the storage tank (1), a tank bottom (3) is arranged below the storage tank (1), a magnetic heating rod (4) is arranged inside the storage tank (1), the tank cover (2) seals the storage tank (1), the magnetic heating rod (4) is connected with the tank cover (2), the magnetic heating rod (4) adsorbs iron scraps inside the emulsion, and the magnetic heating rod (4) heats the emulsion;

the magneto-thermal rod (4) comprises a rod body (401) and a rod sleeve (402), wherein the rod body (401) is connected with the tank cover (2), the rod sleeve (402) is sleeved on the rod body (401), a plurality of accommodating grooves (403) are formed in the rod sleeve (402), an accommodating plate (404) is arranged in each accommodating groove (403), and an electromagnetic rod (405) is arranged on each accommodating plate (404);

a middle plate (406) is arranged on the rod body (401), the middle plate (406) is connected with the inner wall of the rod sleeve (402) in a sliding mode, 12 connecting ports are formed in the upper end of the middle plate (406), 12 connecting ports are formed in the lower end of the middle plate (406), and each connecting port is internally provided with a connecting pipe (4061);

the pole body (401) comprises an inner pole (4011), a plurality of magnetic plates (4012) are arranged on the inner pole (4011), 24 airflow pipes (4013) are installed in the inner pole (4011), each airflow pipe (4013) is communicated with one connecting pipe (4061), and the inner space of the inner pole (4011) is communicated with an external air system;

every it all has seted up transfer cabin (407) to accomodate groove (403) bottom, sensor (408) are installed to transfer cabin (407) bottom, and pressure plate (409) are installed to the top of transfer cabin (407), install reset spring between pressure plate (409) and transfer cabin (407), transfer cabin (407) with accomodate groove (403) and rod cover (402) inner space intercommunication.

2. The emulsion storage tank with the intelligent real-time monitoring function of claim 1, which is characterized in that: the accommodating plate (404) is connected with the electromagnetic rod (405) through a support plate, and the support plate is rotatably connected with the rod sleeve (402);

each electromagnetic rod (405) is internally provided with a coil, conductors in the coil are made of semiconductor materials, and the coil is electrically connected with a control system.

3. The emulsion storage tank with the intelligent real-time monitoring function of claim 1, which is characterized in that: the storage tank (1) comprises an outer tank body (101) and an inner tank body (102), a heat insulation layer (103) and a heat insulation layer (104) are arranged between the outer tank body (101) and the inner tank body (102), the heat insulation layer (104) is in contact with the inner tank body (102), a separation disc (105) is arranged below the inner tank body (102), and the separation disc (105) is composed of a pipeline, an electromagnetic valve, an air purifier and a separation control system.

4. The emulsion storage tank with the intelligent real-time monitoring function of claim 3, wherein: the tank cover is characterized in that an outer thread groove (201) and an inner thread groove (202) are formed in the tank cover (2), the tank cover (2) is connected with the outer tank body (101) through the outer thread groove (201), the tank cover (2) is connected with the inner tank body (102) through the inner thread groove (202), a pressure relief groove is formed in the tank cover (2), a pressure relief plate (203) is installed in the pressure relief groove, and the pressure relief groove is communicated with the separating disc (105) through a transmission pipe (204).

5. The emulsion storage tank with the intelligent real-time monitoring function of claim 1, which is characterized in that: tank bottoms (3) include upper plate (301), lower plate (302), upper plate (301) cover is established on lower plate (302), is provided with a plurality of bumper shock absorber (303) between upper plate (301) and lower plate (302), every all the cover is equipped with damping spring on bumper shock absorber (303), and damping spring is connected with upper plate (301) and lower plate (302).

6. The emulsion storage tank with the intelligent real-time monitoring function of claim 5, wherein: every bumper shock absorber (303) all include stack shell (304), set up piston rod (305) inside stack shell (304), be provided with the cavity in piston rod (305), space intercommunication between cavity and upper plate (301) and lower plate (302), be provided with shock attenuation passageway and resilience passageway on the piston, be provided with damping ring (306) on the resilience passageway, damping ring (306) and cavity intercommunication.

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