CN213612933U - Three-tank hydrocarbon vacuum cleaning machine - Google Patents

Abstract

The utility model discloses a three-tank hydrocarbon vacuum cleaning machine, which relates to the field of cleaning machines and comprises a frame, a feeding mechanism, a first hydrocarbon cleaning tank mechanism, a second hydrocarbon cleaning tank mechanism, a vacuum drying tank mechanism and a blanking mechanism are sequentially arranged on the frame from left to right, a waste liquid tank and a distillation recovery system are arranged on the frame, one side of the distillation recovery system is provided with a new liquid tank of new liquid, so that the hydrocarbon liquid sequentially passes through the vacuum drying tank mechanism, the second hydrocarbon cleaning tank mechanism, the first hydrocarbon cleaning tank mechanism, the waste liquid tank, the distillation recovery system, the new liquid tank and the vacuum drying tank mechanism, a mechanical arm mechanism is arranged on the frame, the three-tank hydrocarbon vacuum cleaning machine also comprises a control mechanism, the first hydrocarbon cleaning tank mechanism is used for vacuum cleaning, the second hydrocarbon cleaning tank mechanism is used for vacuum cleaning spraying, the cleaning is more thorough, the vacuum drying tank mechanism performs vacuum drying on workpieces, the distillation recovery system is used for distilling and recovering the waste liquid, so that resources are saved on the one hand, and the waste liquid cannot pollute the environment on the other hand.

Description

Three-tank hydrocarbon vacuum cleaning machine

Technical Field

The utility model relates to a cleaning machine field, in particular to hydrocarbon vacuum cleaner of three grooves.

Background

The existing cleaning machine is cleaned by adding medicine with clear water, the used cleaning liquid can pollute the environment, the used cleaning liquid cannot be recycled, resources are wasted, the existing cleaning machine uses a hot air bag to blow a workpiece, and blind holes or grooves in the workpiece cannot be blown by air, so that the effect of thorough drying cannot be achieved.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem provide an use hydrocarbon washing liquid to wash, wash the back and carry out vacuum drying, the hydrocarbon washing liquid after wasing the work piece can cyclic utilization, resources are saved on the one hand, another convenience can not cause the three-groove hydrocarbon vacuum cleaner of pollution to the environment.

The utility model provides a technical scheme that its technical problem adopted is: the three-tank hydrocarbon vacuum cleaning machine comprises a rack, wherein a feeding mechanism for automatic feeding, a first hydrocarbon cleaning tank mechanism for vacuum cleaning of a workpiece, a second hydrocarbon cleaning tank mechanism for vacuum cleaning and spraying of the workpiece, a vacuum drying tank mechanism for vacuum drying of the cleaned workpiece and a blanking mechanism for blanking are sequentially arranged on the rack from left to right, a waste liquid tank for collecting waste liquid after cleaning is arranged on one side of the first hydrocarbon cleaning tank mechanism on the rack, a distillation recovery system for distilling and recovering the waste liquid is arranged on one side of the waste liquid tank, and a new liquid tank for storing new liquid after distillation recovery is arranged on one side of the distillation recovery system, so that the hydrocarbon liquid sequentially passes through the vacuum drying tank mechanism, the second hydrocarbon cleaning tank mechanism, the first hydrocarbon cleaning tank mechanism, the waste liquid tank and the distillation recovery system, The fresh water tank and the vacuum drying tank mechanism are recycled, resources are saved, cost is reduced, the rack is provided with a manipulator mechanism used for transporting workpieces to the first hydrocarbon cleaning tank mechanism, the second hydrocarbon cleaning tank mechanism and the vacuum drying tank mechanism from the feeding mechanism, the control mechanism used for controlling the three-tank hydrocarbon vacuum cleaning machine is further included, the feeding mechanism, the first hydrocarbon cleaning tank mechanism, the second hydrocarbon cleaning tank mechanism, the vacuum drying tank mechanism, the distillation recovery system and the manipulator mechanism are respectively and electrically connected with the control mechanism, the feeding mechanism is used for automatically feeding the workpieces, the first hydrocarbon cleaning tank mechanism is used for vacuum cleaning the workpieces, the second hydrocarbon cleaning tank mechanism is used for vacuum cleaning and spraying the workpieces, and the vacuum drying tank mechanism is used for vacuum drying the cleaned workpieces, the novel mechanical arm mechanism is used for transporting workpieces to the first hydrocarbon cleaning tank mechanism from the feeding mechanism, the second hydrocarbon cleaning tank mechanism from the first hydrocarbon cleaning tank mechanism and the vacuum drying tank mechanism from the second hydrocarbon cleaning tank mechanism, and the control mechanism is used for controlling the three-tank hydrocarbon vacuum cleaning machine.

Further, the method comprises the following steps: first hydrocarbon washing tank mechanism includes first cell body and is used for covering first cell body and makes first cell body can be sealed first apron, be provided with on the first apron and be used for driving first apron and open or closed first cylinder, one side of first cell body is provided with first evacuation subassembly, first evacuation subassembly passes through the pipeline intercommunication with first cell body, thereby be provided with in the first cell body and be used for vibrating the work piece and carry out abluent ultrasonic wave subassembly to the work piece, first cylinder and ultrasonic wave subassembly and control mechanism electrical connection, first cylinder is used for driving first apron and opens or closed, thereby ultrasonic wave subassembly is used for vibrating the work piece and washs the work piece, first evacuation subassembly is used for taking out the air in the first cell body, is convenient for better washing work piece.

Further, the method comprises the following steps: the second hydrocarbon cleaning tank mechanism comprises a second tank body and a second cover plate used for covering the second tank body to enable the second tank body to be sealed, a second cylinder used for driving the second cover plate to open or close is arranged on the second cover plate, a second vacuumizing assembly is arranged on one side of the second tank body and communicated with the second tank body through a pipeline, a spraying assembly used for spraying and cleaning a workpiece is arranged in the second tank body, the second cylinder and the spraying assembly are respectively electrically connected with the control mechanism, the second cylinder is used for driving the second cover plate to open or close, the spraying assembly is used for spraying and cleaning the workpiece, and the second vacuumizing assembly is used for taking out air in the second tank body to facilitate better cleaning of the workpiece.

Further, the method comprises the following steps: vacuum drying groove mechanism includes the vacuum drying cell body and is used for covering the third apron that the vacuum drying cell body made the vacuum drying cell body can seal, be provided with third evacuation subassembly and first heating element on the vacuum drying cell body, third evacuation subassembly and first heating element respectively with control mechanism electrical connection, the third apron is used for covering the vacuum drying cell body and makes the vacuum drying cell body can seal to make dry effect better, third evacuation subassembly is used for the evacuation of vacuum drying cell body, makes that the work piece is dry faster, dry effect is better, first heating element is used for rising the temperature of vacuum drying cell body, evaporates the moisture on the work piece, thereby makes the work piece dry.

Further, the method comprises the following steps: the third vacuumizing assembly comprises a first vacuum pump arranged on the frame and located outside the vacuum drying groove body, the first vacuum pump is connected with the vacuum drying groove body through a pipeline, and the vacuum pump is electrically connected with the control mechanism.

Further, the method comprises the following steps: the first heating assembly comprises a heat conduction oil pipe and a circulating pump which are arranged on the periphery of the outer side of the vacuum drying groove body, the heat conduction oil pipe is fixedly connected with the circulating pump, and the circulating pump is used for enabling heat conduction oil in the heat conduction oil pipe to circularly heat the temperature of the high vacuum drying groove body, evaporating moisture on a workpiece and drying the workpiece.

Further, the method comprises the following steps: and a third cylinder for driving the vacuum drying tank body to open or close is arranged on the third cover plate and is electrically connected with the control mechanism, and the third cylinder is used for driving the vacuum drying tank body to open or close.

Further, the method comprises the following steps: the distillation recovery system comprises a fixed seat arranged on a rack, wherein a distillation assembly used for distilling hydrocarbon liquid to enable the hydrocarbon liquid to become hydrocarbon gas, a first cooling assembly and a second cooling assembly used for cooling the distilled hydrocarbon gas to enable the hydrocarbon gas to become the hydrocarbon liquid are sequentially arranged on the fixed seat according to the flowing direction of the hydrocarbon liquid, the distillation assembly is connected with the first cooling assembly, the first cooling assembly and the second cooling assembly through pipelines, the distillation assembly is used for distilling the hydrocarbon liquid to enable the hydrocarbon liquid to become the hydrocarbon gas so as to remove impurities, the first cooling assembly is used for cooling the distilled hydrocarbon gas to enable the hydrocarbon gas to become the hydrocarbon liquid, and therefore the hydrocarbon liquid can be recycled, and the second cooling assembly is used for liquefying the hydrocarbon liquid for the second time, so that the hydrocarbon liquid is liquefied more thoroughly, and the recovery rate is improved.

Further, the method comprises the following steps: the distillation assembly comprises a distillation tank, a first liquid storage tank is arranged in the distillation tank and connected with a waste liquid tank through a pipeline, a second heating assembly used for heating to enable the temperature in the distillation tank to rise is arranged in the distillation tank and comprises a heating oil tank, an oil pump and a heat conduction oil pipe, the oil pump is respectively connected with the heating oil tank and the heat conduction oil pipe, a fourth vacuumizing assembly used for vacuumizing the distillation tank is arranged on one side of the distillation tank and comprises a fourth vacuumizing pump, the fourth vacuumizing pump is communicated with the distillation tank through a pipeline and is used for heating to enable the temperature in the distillation tank to rise so as to distill hydrocarbon liquid, the hydrocarbon liquid is changed into hydrocarbon gas, and the fourth vacuumizing assembly is used for vacuumizing the distillation tank to enable the distillation tank to generate negative pressure, the flash point of the hydrocarbon is reduced, so that the heating time is reduced, and the cost is saved.

Further, the method comprises the following steps: the first cooling assembly comprises a second cavity, a condensation bypass pipe arranged in the second cavity and a condensation water pump arranged outside the second cavity, the condensation bypass pipe is connected with the condensation pump, and cooling liquid is filled in the condensation bypass pipe; the second cooling assembly is the same as the first cooling assembly in structure, and the condensed water pump and the condensation bypass pipe are matched to reduce the temperature in the second cavity, so that hydrocarbon gas is changed into hydrocarbon liquid when meeting cold, the hydrocarbon liquid can be recycled, and resources are saved.

The utility model has the advantages that: the utility model provides a first hydrocarbon purge tank mechanism is used for carrying out vacuum cleaning for the work piece, second hydrocarbon purge tank mechanism is used for carrying out vacuum cleaning for the work piece and sprays for abluent more thoroughly, vacuum drying tank mechanism is used for the work piece vacuum drying after will wasing, distillation recovery system is used for distilling the waste liquid and retrieves, resources are saved on the one hand, and the waste liquid after on the other hand washs can not the polluted environment.

Drawings

FIG. 1 is a schematic structural view of a three-tank hydrocarbon vacuum cleaner;

FIG. 2 is a schematic structural view of a vacuum drying tank mechanism;

FIG. 3 is a schematic diagram of the distillation recovery system;

FIG. 4 is a schematic diagram of the distillation assembly and the first cooling assembly;

labeled as: 1. a frame; 2. a feeding mechanism; 3. a first hydrocarbon purge tank mechanism; 4. a second hydrocarbon cleaning tank mechanism; 5. a vacuum drying tank mechanism; 6. a blanking mechanism; 7. a distillation recovery system; 51. vacuum drying the tank body; 52. a third cover plate; 53. a first heating assembly; 54. a third cylinder; 71. a fixed seat; 72. a distillation assembly; 73. a first cooling assembly; 74. A second cooling assembly; 721. a distillation tank; 722. a first reservoir; 7231. heating the oil tank; 7232. an oil pump; 731. a condensing tank.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the following detailed description.

The three-tank hydrocarbon vacuum cleaning machine shown in fig. 1 comprises a frame 1, wherein a feeding mechanism 2 for automatic feeding, a first hydrocarbon cleaning tank mechanism 3 for vacuum cleaning of workpieces, a second hydrocarbon cleaning tank mechanism 4 for vacuum cleaning and spraying of workpieces, a vacuum drying tank mechanism 5 for vacuum drying of the cleaned workpieces and a blanking mechanism 6 for blanking are sequentially arranged on the frame 1 from left to right, a waste liquid tank for collecting waste liquid after cleaning is arranged on one side of the first hydrocarbon cleaning tank mechanism 3 on the frame 1, a distillation recovery system 7 for distillation recovery of the waste liquid is arranged on one side of the waste liquid tank, a new liquid tank for storing new liquid after distillation recovery is arranged on one side of the distillation recovery system 7, so that the hydrocarbon liquid sequentially passes through the vacuum drying tank mechanism 5, the second hydrocarbon cleaning tank mechanism 4 and the vacuum drying tank mechanism 4, The machine comprises a first hydrocarbon cleaning tank mechanism 3, a waste liquid tank, a distillation recovery system 7, a fresh liquid tank and a vacuum drying tank mechanism 5, wherein the first hydrocarbon cleaning tank mechanism 3, the waste liquid tank, the distillation recovery system 7, the fresh liquid tank and the vacuum drying tank mechanism 5 are recycled, resources are saved, and the cost is reduced, a manipulator mechanism for conveying workpieces from a feeding mechanism 2 to the first hydrocarbon cleaning tank mechanism 3, from the first hydrocarbon cleaning tank mechanism 3 to a second hydrocarbon cleaning tank mechanism 4 and from the second hydrocarbon cleaning tank mechanism 4 to the vacuum drying tank mechanism 5 is arranged on a machine frame 1, and the machine further comprises a control mechanism for controlling a three-tank hydrocarbon vacuum cleaning machine, wherein the feeding mechanism 2, the first hydrocarbon cleaning tank mechanism 3, the second hydrocarbon cleaning tank mechanism 4, the vacuum drying tank mechanism 5, the distillation recovery system 7 and the manipulator mechanism are respectively and electrically connected with the control mechanism, the feeding mechanism 2 is used for automatically feeding the workpieces, and the first hydrocarbon cleaning tank mechanism 3 is used for vacuum, the second hydrocarbon cleaning tank mechanism 4 is used for vacuum cleaning and spraying the workpieces, the vacuum drying tank mechanism 5 is used for vacuum drying the cleaned workpieces, the waste liquid tank is used for collecting waste liquid after cleaning, the distillation recovery system 7 is used for distilling and recovering the waste liquid, on one hand, resources are saved, on the other hand, the waste liquid after cleaning does not pollute the environment, the new liquid tank is used for storing new liquid after distillation recovery, the manipulator mechanism is used for carrying the workpieces from the feeding mechanism 2 to the first hydrocarbon cleaning tank mechanism 3, from the first hydrocarbon cleaning tank mechanism 3 to the second hydrocarbon cleaning tank mechanism 4 and from the second hydrocarbon cleaning tank mechanism 4 to the vacuum drying tank mechanism 5, and the control mechanism is used for controlling the three-tank hydrocarbon vacuum cleaning machine.

On the basis, first hydrocarbon washing tank mechanism 3 includes first cell body and is used for covering first cell body and makes first cell body first apron that can seal, be provided with on the first apron and be used for driving first apron and open or closed first cylinder, one side of first cell body is provided with first evacuation subassembly, first evacuation subassembly passes through the pipeline intercommunication with first cell body, thereby be provided with in the first cell body and be used for vibrating the work piece and carry out abluent ultrasonic wave subassembly to the work piece, first cylinder and ultrasonic wave subassembly and control mechanism electrical connection, first cylinder is used for driving first apron and opens or closed, thereby ultrasonic wave subassembly is used for vibrating the work piece and washs the work piece, first evacuation subassembly is used for taking out the air in the first cell body, the better washing work piece of being convenient for.

On the basis, the second hydrocarbon cleaning tank mechanism 4 comprises a second tank body and a second cover plate used for covering the second tank body to enable the second tank body to be sealed, a second cylinder used for driving the second cover plate to open or close is arranged on the second cover plate, a second vacuumizing assembly is arranged on one side of the second tank body and communicated with the second tank body through a pipeline, a spraying assembly used for spraying and cleaning the workpiece is arranged in the second tank body, the second cylinder and the spraying assembly are respectively electrically connected with a control mechanism, the second cylinder is used for driving the second cover plate to open or close, the spraying assembly is used for spraying and cleaning the workpiece, and the second vacuumizing assembly is used for taking out air in the second tank body to facilitate better cleaning of the workpiece.

On the basis, the vacuum drying tank mechanism 5 comprises a vacuum drying tank body 51 and a third cover plate 52 which is used for covering the vacuum drying tank body 51 to enable the vacuum drying tank body 51 to be sealed, a third vacuumizing assembly and a first heating assembly 53 are arranged on the vacuum drying tank body 51, the third vacuumizing assembly and the first heating assembly 53 are respectively electrically connected with the control mechanism, the third cover plate 52 is used for covering the vacuum drying tank body 51 to enable the vacuum drying tank body 51 to be sealed, so that the drying effect is better, the third vacuumizing assembly is used for vacuumizing the vacuum drying tank body 51 to enable the workpiece to be dried more quickly and better in drying effect, and the first heating assembly 53 is used for increasing the temperature of the vacuum drying tank body 51 to evaporate water on the workpiece, so that the workpiece is dried.

On the basis, the third vacuumizing assembly comprises a first vacuum pump arranged on the frame 1 and located outside the vacuum drying groove body 51, the first vacuum pump is connected with the vacuum drying groove body 51 through a pipeline, and the vacuum pump is electrically connected with the control mechanism.

On the basis, the first heating assembly 53 comprises a heat conduction oil pipe and a circulating pump which are arranged on the periphery of the outer side of the vacuum drying groove body 51, the heat conduction oil pipe is fixedly connected with the circulating pump, and the circulating pump is used for enabling the heat conduction oil in the heat conduction oil pipe to circularly heat the temperature of the high vacuum drying groove body 51, evaporating moisture on a workpiece and drying the workpiece.

On the basis, a third air cylinder 54 for driving the vacuum drying tank 51 to open or close is arranged on the third cover plate 52, the third air cylinder 54 is electrically connected with the control mechanism, and the third air cylinder 54 is used for driving the vacuum drying tank 51 to open or close.

On the basis, the distillation recovery system 7 comprises a fixed seat 71 arranged on the frame 1, a distillation assembly 72 for distilling hydrocarbon liquid so that the hydrocarbon liquid becomes hydrocarbon gas, a first cooling assembly 73 and a second cooling assembly 74 for cooling the distilled hydrocarbon gas so that the hydrocarbon gas becomes hydrocarbon liquid are sequentially arranged on the fixed seat 71 according to the flowing direction of the hydrocarbon liquid, the distillation assembly 72 is connected with the first cooling assembly 73 and the second cooling assembly 74 through pipelines, the distillation assembly 72 is used for distilling the hydrocarbon liquid so that the hydrocarbon liquid becomes hydrocarbon gas, so as to remove impurities, the first cooling assembly 73 is used for cooling the distilled hydrocarbon gas so that the hydrocarbon gas becomes hydrocarbon liquid, so as to be recycled, and the second cooling assembly 74 is used for liquefying the hydrocarbon gas for the second time, so that the hydrocarbon liquid is more thoroughly liquefied and the recycling rate is improved.

On the basis, the distillation assembly 72 comprises a distillation tank 721, a first liquid storage tank 722 is arranged in the distillation tank 721, the first liquid storage tank 722 is connected with a waste liquid tank through a pipeline, a second heating assembly used for heating to raise the temperature in the distillation tank 721 is arranged in the distillation tank 721, the second heating assembly comprises a heating oil tank 7231, an oil pump 7232 and a heat conduction oil pipe, the oil pump 7232 is respectively connected with the heating oil tank 7231 and the heat conduction oil pipe, a fourth vacuumizing assembly used for vacuumizing the distillation tank is arranged on one side of the distillation tank, the fourth vacuumizing assembly comprises a fourth vacuumizing pump, the fourth vacuumizing pump is communicated with the distillation tank through a pipeline, the second heating assembly is used for heating to raise the temperature in the distillation tank 721 so as to distill hydrocarbon liquid, and the hydrocarbon liquid is changed into hydrocarbon gas, and the fourth vacuumizing assembly is used for vacuumizing the distillation tank, so that the distillation tank 721 generates negative pressure, the flash point of hydrocarbon is reduced, the heating time is shortened, and the cost is saved.

On the basis, the first cooling assembly 73 comprises a condensation tank 731, a condensation bypass pipe arranged in the condensation tank 731, and a condensation water pump arranged outside the condensation tank 731, wherein the condensation bypass pipe is connected with the condensation pump, and cooling liquid is filled in the condensation bypass pipe; the second cooling assembly 74 has the same structure as the first cooling assembly 73, and the condensed water pump and the condensation bypass pipe are matched to reduce the temperature in the condensed tank 731, so that the hydrocarbon gas is changed into hydrocarbon liquid when cooled, the hydrocarbon liquid can be recycled, and resources are saved.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. Three groove hydrocarbon vacuum cleaner, including frame (1), its characterized in that: the automatic feeding and discharging machine is characterized in that a feeding mechanism (2) for automatic feeding, a first hydrocarbon cleaning tank mechanism (3) for vacuum cleaning of workpieces, a second hydrocarbon cleaning tank mechanism (4) for vacuum cleaning and spraying of the workpieces, a vacuum drying tank mechanism (5) for vacuum drying of the cleaned workpieces and a discharging mechanism (6) for discharging are sequentially arranged on the rack (1) from left to right, a waste liquid tank for collecting waste liquid after cleaning is arranged on one side of the first hydrocarbon cleaning tank mechanism (3) on the rack (1), a distillation recovery system (7) for distilling and recovering the waste liquid is arranged on one side of the waste liquid tank, a new liquid tank for storing the new liquid after distillation recovery is arranged on one side of the distillation recovery system (7), and the hydrocarbon liquid sequentially passes through the vacuum drying tank mechanism (5), the second hydrocarbon cleaning tank mechanism (4) and the discharging mechanism (6), The device comprises a rack (1), and is characterized by comprising a first hydrocarbon cleaning tank mechanism (3), a waste liquid tank, a distillation recovery system (7), a new liquid tank and a vacuum drying tank mechanism (5), wherein the rack (1) is provided with a mechanical hand mechanism which is used for carrying a workpiece from a feeding mechanism (2) to the first hydrocarbon cleaning tank mechanism (3), carrying a workpiece from the first hydrocarbon cleaning tank mechanism (3) to a second hydrocarbon cleaning tank mechanism (4) and carrying a workpiece from the second hydrocarbon cleaning tank mechanism (4) to the vacuum drying tank mechanism (5), and the device also comprises a control mechanism which is used for controlling the three-tank hydrocarbon vacuum cleaning machine, wherein the feeding mechanism (2), the first hydrocarbon cleaning tank mechanism (3), the second hydrocarbon cleaning tank mechanism (4), the vacuum drying tank mechanism (5), the distillation recovery system (7) and the mechanical hand mechanism are respectively and electrically connected with the control mechanism.

2. A three-tank hydrocarbon vacuum cleaner as defined in claim 1, wherein: first hydrocarbon purge tank mechanism (3) include first cell body and be used for covering first cell body and make first cell body can be sealed first apron, be provided with on the first apron and be used for driving first apron and open or closed first cylinder, one side of first cell body is provided with first evacuation subassembly, first evacuation subassembly passes through the pipeline intercommunication with first cell body, thereby be provided with in the first cell body and be used for vibrating the work piece and carry out abluent ultrasonic wave subassembly to the work piece, first cylinder and ultrasonic wave subassembly and control mechanism electrical connection.

3. A three-tank hydrocarbon vacuum cleaner as defined in claim 1, wherein: hydrocarbon purge tank mechanism (4) of second include the second cell body and be used for covering the second cell body and make the second cell body can be sealed the second apron, be provided with on the second apron and be used for driving the second apron and open or closed second cylinder, one side of second cell body is provided with second evacuation subassembly, second evacuation subassembly passes through the pipeline intercommunication with the second cell body, be provided with in the second cell body and be used for spraying abluent spraying assembly to the work piece, second cylinder and spraying assembly respectively with control mechanism electrical connection.

4. A three-tank hydrocarbon vacuum cleaner as defined in claim 3, wherein: vacuum drying groove mechanism (5) make vacuum drying groove body (51) can be sealed third apron (52) including vacuum drying groove body (51) and being used for covering vacuum drying groove body (51), be provided with third evacuation subassembly and first heating element (53) on vacuum drying groove body (51), third evacuation subassembly and first heating element (53) respectively with control mechanism electrical connection.

5. A three-tank hydrocarbon vacuum cleaner as defined in claim 4, wherein: the third vacuumizing assembly comprises a first vacuum pump arranged on the frame (1) and located outside the vacuum drying groove body (51), the first vacuum pump is connected with the vacuum drying groove body (51) through a pipeline, and the vacuum pump is electrically connected with the control mechanism.

6. A three-tank hydrocarbon vacuum cleaner as defined in claim 4, wherein: the first heating assembly (53) comprises a heat conduction oil pipe and a circulating pump which are arranged on the periphery of the outer side of the vacuum drying tank body (51), and the heat conduction oil pipe is fixedly connected with the circulating pump.

7. A three-tank hydrocarbon vacuum cleaner as defined in claim 4, wherein: and a third air cylinder (54) used for driving the vacuum drying groove body (51) to open or close is arranged on the third cover plate (52), and the third air cylinder (54) is electrically connected with the control mechanism.

8. A three-tank hydrocarbon vacuum cleaner as defined in claim 1, wherein: the distillation recovery system (7) comprises a fixed seat (71) arranged on the rack (1), a distillation assembly (72) used for distilling hydrocarbon liquid to enable the hydrocarbon liquid to become hydrocarbon gas, a first cooling assembly (73) and a second cooling assembly (74) used for cooling the distilled hydrocarbon gas to enable the hydrocarbon gas to become the hydrocarbon liquid are sequentially arranged on the fixed seat (71) in the flowing direction of the hydrocarbon liquid, and the distillation assembly (72) is connected with the first cooling assembly (73) and the second cooling assembly (74) through pipelines.

9. A three-tank hydrocarbon vacuum cleaner as defined in claim 8, wherein: distillation subassembly (72) includes retort (721), be provided with first reservoir (722) in retort (721), first reservoir (722) are connected with the waste liquid groove through the pipeline, be provided with in retort (721) and be used for the heating to make the second heating assembly of temperature rise in retort (721), second heating assembly is including heating oil tank (7231), oil pump (7232) and heat conduction oil pipe, oil pump (7232) are connected with heating oil tank (7231) and heat conduction oil pipe respectively, one side of retort is provided with the fourth evacuation subassembly that is used for the retort evacuation, fourth evacuation subassembly includes the fourth evacuation pump, the fourth evacuation pump passes through pipeline and retort intercommunication.

10. A three-tank hydrocarbon vacuum cleaner as defined in claim 8, wherein: the first cooling assembly (73) comprises a condensing tank (731), a condensation side pipe arranged in the condensing tank (731), and a condensing water pump arranged outside the condensing tank (731), the condensation side pipe is connected with the condensing pump, and cooling liquid is filled in the condensation side pipe; the second cooling assembly (74) is identical in structure to the first cooling assembly (73).

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