CN113267615A - Automatic rapid petroleum moisture tester - Google Patents

Abstract

The invention relates to the technical field of petroleum detection, in particular to an automatic rapid petroleum moisture tester, which comprises a case, a controller and a feeding funnel, wherein the controller and the feeding funnel are arranged on the case; the second test tube is arranged in the case and used for containing aqueous solution, and the first test tube is communicated with the second test tube through a condensation tube; the driving assembly is movably arranged in the case and comprises a heating module and an output module, the heating module is used for heating the first test tube, and the output module is used for inputting air flow into the condensation tube; and measuring assemblies, the number of which is the same as the sum of the number of the first test tubes and the number of the second test tubes; the whole process has high automation degree and higher condensation efficiency of water vapor, and indirectly improves the speed of separating water from the petroleum.

Description

Automatic rapid petroleum moisture tester

Technical Field

The invention relates to the technical field of petroleum detection, in particular to an automatic and rapid petroleum moisture tester.

Background

Petroleum is one of main energy sources in the development process of the current society, the development and progress of the society can not be separated from petroleum, the shadow of petroleum resources is also generated in all aspects of life, the petroleum is used as an essential energy source, and the purity degree of the petroleum seriously influences the use effect of the petroleum in the later period.

The moisture content in petroleum is usually measured by a rapid moisture determinator, and the traditional method for detecting moisture contained in a liquid substance mostly adopts an evaporation and condensation mode, but the traditional rapid moisture determinator has a series of defects.

In the process of evaporating and condensing water in petroleum by using the conventional rapid water content tester, water vapor naturally enters a condensing pipeline, so that the condensing speed is too low, and the separation period of the whole water content is longer.

Disclosure of Invention

The invention aims to provide an automatic and rapid petroleum moisture tester to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

an automatic rapid tester for petroleum moisture comprises a case, a controller, a feeding funnel and a controller, wherein the controller and the feeding funnel are arranged on the case, and the automatic rapid tester for petroleum moisture also comprises

The first test tube is arranged in the case and used for containing petroleum, and the first test tube is communicated with the feeding funnel;

the second test tube is arranged in the case and used for containing aqueous solution, and the first test tube is communicated with the second test tube through a condensation tube;

the driving assembly is movably arranged in the case and comprises a heating module and an output module, the heating module is used for heating the first test tube, and the output module is used for inputting air flow into the condensation tube; and

measuring assemblies, the number of which is the same as the sum of the number of the first test tubes and the second test tubes, for measuring the weight of the oil and the aqueous solution.

The application further adopts the technical scheme that: the machine case is also internally provided with a plurality of groups of transmission units, and each transmission unit comprises a sliding seat, a collision block and a lifting platform;

the first test tube and the second test tube are placed on the adjacent lifting platform, the lifting platform is movably arranged in the case and is elastically connected with the case, the contact block is arranged on the lifting platform, the sliding seat is movably arranged in the case and is elastically connected with the case, and the contact block is used for adjusting the position of the sliding seat;

the sliding seat is connected with the measuring component, and the lifting platform controls the measuring component to work through the contact block and the sliding seat when moving.

The application further adopts the technical scheme that: the heating module includes:

the mounting seat is arranged in the case;

the driving sleeve is movably arranged on the mounting seat and is arranged on the periphery of the first test tube;

the number of the heating sheets is at least one, and the heating sheets are arranged in the driving sleeve; and

and the power unit is arranged between the mounting seat and the driving sleeve and used for adjusting the position of the heating sheet.

The application further adopts the technical scheme that: the output module includes:

the fan blades are movably arranged in a cavity formed in the mounting seat through a rotating shaft, and the cavity is communicated with the condensing pipe;

the transmission part is arranged between the rotating shaft and the driving sleeve, and the driving sleeve controls the fan blades to work through the transmission part when moving; and

and the ratchet wheel set is arranged between the case and the rotating shaft and is used for controlling the rotating shaft to move in a single direction.

This application still further technical scheme: the condensation pipe comprises a pipe body, a receiving cover and a plurality of condensation plates;

the receiving cover is communicated with the tube body, the receiving cover can be used for allowing water vapor generated in the heating process of the first test tube to enter, the plurality of condensing plates are arranged in the tube body, air holes and water drainage holes are formed in the condensing plates, and the aperture of the air holes is uniformly changed along the flowing direction of the water vapor.

This application still further technical scheme: the pipe body is provided with a small-diameter section, and the small-diameter section is communicated with the receiving cover.

This application still further technical scheme: the measuring assembly comprises an adjusting piece and a measuring execution module;

the adjusting piece is arranged between the execution module and the sliding seat, and the sliding seat controls the measurement execution mechanism to work through the adjusting piece when moving.

The application adopts a further technical scheme that: the measurement executing mechanism comprises a measurement cylinder, a piston, a first conductive piece and a plurality of second conductive pieces;

the measuring cylinder is arranged in the case, the piston is movably arranged in the measuring cylinder, the piston is attached to and sealed with the inner wall of the measuring cylinder, the first conductive piece is arranged on the piston, the plurality of conductive pieces are arranged in the measuring cylinder, and the second conductive piece is positioned on the moving path of the first conductive piece.

Compared with the prior art, the technical scheme provided by the embodiment of the invention has the following beneficial effects:

according to the embodiment of the invention, by setting the linkage effect of the heating module and the output module, on one hand, petroleum in the first test tube is uniformly heated, and on the other hand, airflow can be input into the condensation tube to generate negative pressure in the condensation tube, so that water vapor generated in the petroleum heating process is quickly absorbed into the condensation tube for condensation work, and finally changed into water solution to be received into the second test tube, so that the pressure borne by the first test tube and the second test tube is changed, and in the process, the finally separated moisture and the petroleum content are measured through the measuring assembly to obtain the final proportion, the automation degree of the whole process is high, the condensation efficiency of the water vapor is higher, and the speed of separating the moisture from the petroleum is indirectly improved.

Drawings

FIG. 1 is a schematic structural diagram of an automatic rapid petroleum moisture tester according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a driving assembly of the automatic rapid petroleum moisture meter according to the embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a measuring unit in the automatic rapid petroleum moisture meter according to the embodiment of the present invention;

FIG. 4 is a schematic structural diagram of an air cylinder and a measuring cylinder in the automatic rapid petroleum moisture tester in the embodiment of the invention;

FIG. 5 is a schematic structural diagram of a condenser tube in the automatic rapid petroleum moisture meter according to an embodiment of the present invention.

The reference numerals in the schematic drawings illustrate:

1-case, 2-controller, 3-feeding funnel, 4-electric valve, 5-first test tube, 6-second test tube, 7-driving component, 701-driving sleeve, 702-heating piece, 703-mounting seat, 704-fan blade, 705-rack, 706-first gear, 707-ratchet group, 708-toothed ring part, 709-second gear, 710-stepping motor, 711-magnet, 8-measuring component, 801-air cylinder, 802-measuring cylinder, 803-piston, 804-conductive head, 805-electrode piece, 9-sliding seat, 10-touch block, 11-lifting platform, 12-condensation tube, 1201-tube body, 1202-receiving cover, 1203-small diameter section, 1204-condensation plate, 1205-air holes, 1206-drainage holes.

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 obtained by a person skilled in the art without making any creative effort based on the embodiments of the present invention, belong to the protection scope of the present invention, and the present invention is further described with reference to the embodiments below.

Referring to fig. 1-5, in an embodiment of the present application, an automatic rapid oil moisture tester includes a case 1, a controller 2, a feeding funnel 3, and a controller 2 and a feeding funnel 3, where the controller 2 and the feeding funnel 3 are disposed on the case 1, and the automatic rapid oil moisture tester further includes

The first test tube 5 is arranged in the case 1 and used for containing petroleum, and the first test tube 5 is communicated with the feeding funnel 3;

the second test tube is arranged in the case 1 and used for containing aqueous solution, and the first test tube 5 is communicated with the second test tube 6 through a condensation pipe 12;

the driving assembly 7 is movably arranged in the case 1, the driving assembly 7 comprises a heating module and an output module, the heating module is used for heating the first test tube 5, and the output module is used for inputting air flow into the condensation pipe 12; and

measuring assemblies 8, the number of which is the same as the sum of the number of the first test tubes 5 and the second test tubes 6, for measuring the weight of the oil and the aqueous solution.

In a specific case of this embodiment, a plurality of sets of transmission units are further disposed in the chassis 1, and each transmission unit includes a sliding seat 9, a collision block 10, and a lifting platform 11;

the first test tube 5 and the second test tube 6 are placed on the adjacent lifting platform 11, the lifting platform 11 is movably arranged in the case 1 and elastically connected with the case 1, the contact block 10 is arranged on the lifting platform 11, the sliding seat 9 is movably arranged in the case 1 and elastically connected with the sliding seat 9, and the contact block 10 is used for adjusting the position of the sliding seat 9;

the sliding seat 9 is connected with the measuring component 8, and the lifting platform 11 controls the measuring component 8 to work through the contact block 10 and the sliding seat 9 when moving.

It should be specifically noted that the feeding funnel 3 and the first test tube 5 are connected by a pipeline, as shown in fig. 1, and an electric valve 4 is arranged on the pipeline.

In addition, inclined parts are arranged on the sliding seat 9 and the contact block 10, and when the inclined parts are contacted, the contact block 10 drives the sliding seat 9 to move.

In practical application, the petroleum is poured into a first test tube 5 through a feeding funnel 3, a pipeline is closed through an electric valve 4, the petroleum in the first test tube 5 is heated through a heating module, in the heating process, water vapor generated by boiling of the water in the petroleum enters a condensation tube 12 for condensation treatment, and finally becomes water solution and finally enters a second test tube, in the process, air flow is input into the condensation tube 12 through an output module, so that negative pressure is generated between the condensation tube 12 and the first test tube 5, the water vapor generated in the heating process enters the condensation tube 12 for condensation work, as the total weight of the first test tube 5 and the petroleum is reduced and the weight of the second test tube and the water solution is increased, a lifting seat is moved downwards, and under the action of a contact block 10 and a sliding seat 9, a measurement component 8 works to measure the final petroleum content in the first test tube 5 and the water solution content in the second test tube, therefore, the final water content ratio is fed back to the working personnel through the controller 2, the automation degree is high in the whole process, the condensation effect of the water vapor is good, and the used period is short.

Referring to fig. 1 and 2, as another preferred embodiment of the present application, the heating module includes:

a mounting base 703 provided in the housing 1;

the driving sleeve 701 is movably arranged on the mounting seat 703, and the driving sleeve 701 is arranged on the periphery of the first test tube 5;

at least one heating plate 702, wherein the heating plate 702 is arranged in the driving sleeve 701; and

and the power unit is arranged between the mounting seat 703 and the driving sleeve 701 and is used for adjusting the position of the heating sheet 702.

It should be specifically noted that the power unit includes a stepping motor 710, a second gear 709 and a toothed ring portion 708, the toothed ring portion 708 is disposed in the driving sleeve 701, the stepping motor 710 is disposed in the mounting base 703, the second gear 709 and an output end of the stepping motor 710 are coaxially and fixedly mounted, and the second gear 709 and the toothed ring portion 708 are engaged with each other.

In this embodiment, for example, the output module includes:

the fan blades 704 are movably arranged in a cavity formed in the mounting seat 703 through a rotating shaft, and the cavity is communicated with the condensation pipe 12;

the transmission piece is arranged between the rotating shaft and the driving sleeve 701, and the fan blades 704 are controlled to work through the transmission piece when the driving sleeve 701 moves; and

and a ratchet set 707 arranged between the case 1 and the rotating shaft for controlling the rotating shaft to move in one direction.

It should be specifically described that the transmission member includes a first gear 706, a rack 705 and a magnet 711, the first gear 706 is coaxially and fixedly mounted with the rotating shaft, the rack 705 is movably disposed in the mounting base 703 and engaged with the first gear 706, the magnet 711 is disposed in the driving sleeve 701, a magnetic block repulsive to the magnet 711 is disposed on the rack 705, and the magnetic block is elastically connected to the mounting base 703, but of course, the cooperation between the magnet 711 and the magnetic block may be replaced by a linear motor/an electric cylinder or an air cylinder, which is not illustrated herein.

In practical application, in the process that the heating plate 702 heats the oil in the first test tube 5, the stepping motor 710 rotates to drive the gear to rotate, the driving sleeve 701 is driven to rotate under the meshing action between the second gear 709 and the toothed ring part 708, so that the position of the heating plate 702 is adjusted, each position of the oil is uniformly heated, in the process, the magnet 711 rotates along with the driving sleeve 701 and intermittently meets and repels the magnetic block, so that the rack 705 reciprocates left and right as shown in fig. 2, the fan blades 704 are driven to rotate under the meshing action between the rack 705 and the first gear 706, so that air flow is input into the condensation pipe 12, and the ratchet set 707 is arranged to avoid the fan blades 704 from reversing when the rack 705 resets, the whole process adopts a linkage structure, not only can uniformly heat the oil, but also can generate negative pressure in the condensation pipe 12, the condensation process of the water vapor is accelerated.

Referring to fig. 1 and 5, as another preferred embodiment of the present application, the condensation duct 12 includes a duct body 1201, a receiving cover 1202, and a plurality of condensation plates 1204;

the receiving cover 1202 is communicated with the tube body 1201, the receiving cover 1202 can be used for water vapor generated in the heating process of the first test tube 5 to enter, the plurality of condensation plates 1204 are arranged in the tube body 1201, air holes 1205 and water discharge holes 1206 are arranged on the condensation plates 1204, and the aperture of the air holes 1205 is uniformly changed along the flowing direction of the water vapor.

Specifically, as shown in fig. 5, the air holes 1205 are uniformly reduced along the flow direction of the water vapor, the bottom wall of the tube 1201 is inclined, and the tube 1201 is provided with an air outlet.

In this embodiment, for example, a small diameter segment 1203 is disposed on the tube 1201, and the small diameter segment 1203 is communicated with the receiving cover 1202.

During practical application, the airflow generated in the rotation process of the fan blade 704 enters the tube 1201, and enters the small-diameter section 1203 from the tube 1201, the flow rate of the airflow is increased, the negative pressure effect of the small-diameter section 1203 is improved, the condensation process of water vapor is further accelerated, when the water vapor passes through the condensation plate 1204, the aperture of the air hole 1205 is gradually reduced, the water vapor is gradually condensed, and the obtained water solution enters the second piston 803 along the tube 1201 to be stored.

Referring to fig. 1, 3 and 4, as another preferred embodiment of the present application, the measuring assembly 8 includes an adjusting member and a measurement executing module;

the adjusting piece is arranged between the execution module and the sliding seat 9, and the sliding seat 9 controls the measurement execution mechanism to work through the adjusting piece when moving.

In a specific case of the embodiment, the measurement executing mechanism includes a measuring cylinder 802, a piston 803, a first conductive member and a plurality of second conductive members;

the measuring cylinder 802 is disposed in the chassis 1, the piston 803 is movably disposed in the measuring cylinder 802, the piston 803 is attached to and sealed with an inner wall of the measuring cylinder 802, the first conductive member is disposed on the piston 803, the plurality of conductive members are disposed in the measuring cylinder 802, and the second conductive member is located on a moving path of the first conductive member.

It should be particularly noted that the first conductive component is preferably a conductive head 804, the second conductive component may adopt a contact, an electrode pad 805 or a conductive block, and in this embodiment, the second conductive component is preferably an electrode pad 805, which is not particularly limited herein.

In another specific case of this embodiment, the adjusting member may adopt a linear motor, an electric cylinder, or the like, in this embodiment, the adjusting member is preferably an air cylinder 801, an output end of the air cylinder 801 is communicated with the measuring cylinder 802, a driving end of the air cylinder 801 is elastically connected with a cylinder body, and the driving end is located on a moving path of the sliding seat 9.

In the process of heating petroleum, because moisture in the petroleum is separated from the petroleum through distillation and enters the second test tube, the gravity of the second test tube and the gravity of the first test tube 5 are changed, the sliding seat 9 is driven to move under the matching between the abutting block 10 and the sliding seat 9, the sliding seat 9 is enabled to adjust the driving end of the air cylinder 801 to move, the air cylinder 801 adjusts the air pressure below the piston 803 in the direction shown in fig. 3 in the measuring cylinder 802, the position of the piston 803 is further adjusted, the conductive head 804 is enabled to be in contact with the electrode plates 805 at different positions, and when the moisture in the petroleum is completely separated, the final moisture proportion result is obtained through the matching between the conductive head 804 and the electrode plates 805 at the moment.

It should be noted that, in the present application, the elastic connection may be replaced by a spring, a spring sheet, or an elastic rubber structure, and the like, which is not specifically described herein.

The present invention and its embodiments have been described above schematically, without limitation, and what is shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. Therefore, if the person skilled in the art receives the teaching, without departing from the spirit of the invention, the person skilled in the art shall not inventively design the similar structural modes and embodiments to the technical solution, but shall fall within the scope 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. An automatic rapid determinator for petroleum moisture, comprising a case, a controller and a feeding funnel, wherein the controller and the feeding funnel are arranged on the case, the automatic rapid determinator is characterized by further comprising

The first test tube is arranged in the case and used for containing petroleum, and the first test tube is communicated with the feeding funnel;

the second test tube is arranged in the case and used for containing aqueous solution, and the first test tube is communicated with the second test tube through a condensation tube;

the driving assembly is movably arranged in the case and comprises a heating module and an output module, the heating module is used for heating the first test tube, and the output module is used for inputting air flow into the condensation tube; and

measuring assemblies, the number of which is the same as the sum of the number of the first test tubes and the second test tubes, for measuring the weight of the oil and the aqueous solution.

2. The automatic rapid petroleum moisture tester according to claim 1, wherein a plurality of sets of transmission units are further provided in the case, and the transmission units comprise sliding seats, abutting blocks and lifting platforms;

the first test tube and the second test tube are placed on the adjacent lifting platform, the lifting platform is movably arranged in the case and is elastically connected with the case, the contact block is arranged on the lifting platform, the sliding seat is movably arranged in the case and is elastically connected with the case, and the contact block is used for adjusting the position of the sliding seat;

the sliding seat is connected with the measuring component, and the lifting platform controls the measuring component to work through the contact block and the sliding seat when moving.

3. The automatic rapid oil moisture meter according to claim 1, wherein the heating module comprises:

the mounting seat is arranged in the case;

the driving sleeve is movably arranged on the mounting seat and is arranged on the periphery of the first test tube;

the number of the heating sheets is at least one, and the heating sheets are arranged in the driving sleeve; and

and the power unit is arranged between the mounting seat and the driving sleeve and used for adjusting the position of the heating sheet.

4. The automatic rapid oil moisture meter of claim 3, wherein the output module comprises:

the fan blades are movably arranged in a cavity formed in the mounting seat through a rotating shaft, and the cavity is communicated with the condensing pipe;

the transmission part is arranged between the rotating shaft and the driving sleeve, and the driving sleeve controls the fan blades to work through the transmission part when moving; and

and the ratchet wheel set is arranged between the case and the rotating shaft and is used for controlling the rotating shaft to move in a single direction.

5. The automatic rapid petroleum moisture meter according to claim 1, wherein the condenser tube comprises a tube body, a receiving cover and a plurality of condenser plates;

the receiving cover is communicated with the tube body, the receiving cover can be used for allowing water vapor generated in the heating process of the first test tube to enter, the plurality of condensing plates are arranged in the tube body, air holes and water drainage holes are formed in the condensing plates, and the aperture of the air holes is uniformly changed along the flowing direction of the water vapor.

6. The automatic rapid oil moisture meter of claim 5, wherein the tube body is provided with a small diameter section, and the small diameter section is communicated with the receiving cover.

7. The automatic rapid petroleum moisture determinator according to claim 2, wherein the measuring assembly comprises an adjusting member and a measurement execution module;

the adjusting piece is arranged between the execution module and the sliding seat, and the sliding seat controls the measurement execution mechanism to work through the adjusting piece when moving.

8. The automatic rapid petroleum moisture meter according to claim 7, wherein the measuring actuator comprises a measuring cylinder, a piston, a first conductive member and a plurality of second conductive members;

the measuring cylinder is arranged in the case, the piston is movably arranged in the measuring cylinder, the piston is attached to and sealed with the inner wall of the measuring cylinder, the first conductive piece is arranged on the piston, the plurality of conductive pieces are arranged in the measuring cylinder, and the second conductive piece is positioned on the moving path of the first conductive piece.

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