CN213024981U - Oil loading and unloading simulation real operation demonstration teaching equipment - Google Patents

Abstract

The utility model provides an oil loading and unloading simulation real-practice demonstration teaching device, which comprises a supporting box body and a transparent simulation observation box, wherein the simulation observation box is fixedly arranged above the supporting box body, and a semitransparent simulation wharf oil depot model is arranged in the simulation observation box; the simulation wharf oil depot model comprises a loading and unloading ship, an oil conveying arm, a first floating roof tank, a second floating roof tank, an oil conveying pump, a tank truck and a crane pipe. The utility model discloses a teaching equipment has simulation pier oil depot model, uses fluorescence water to flow in the pipeline, and when simulating the demonstration, the study personnel can directly see the concrete flow path of fluorescence water, gives the audio-visual impression of study personnel, uses the method and the measure of speech explanation oil loading and unloading simultaneously to improve study personnel's practise skill level, master the relevant knowledge point of oil loading and unloading training.

Description

Oil loading and unloading simulation real operation demonstration teaching equipment

Technical Field

The utility model belongs to oil loading and unloading teaching equipment field especially relates to an oil loading and unloading simulation real behaviour demonstration teaching equipment.

Background

With the rapid development of socioeconomic performance, the task of loading and unloading oil products to wharfs is heavier and heavier. The scientific and reasonable loading and unloading process is an important precondition for ensuring safe, stable and efficient production of the wharf. On one hand, the oil product is required to meet relevant regulations, and on the other hand, the wharf function is required to be exerted as much as possible, and because the oil product has the characteristics of flammability and explosiveness, safety issues are required to be paid attention to in the aspect of design of a specific process, and design arrangement is optimized by combining with engineering practical conditions.

The oil product loading and unloading operation base is a production unit, and time is benefit for the oil product loading and unloading operation base, so that the work is busy, learners participating in practice are innovated, the learners are insufficiently aware of oil product loading and unloading sites, and potential safety hazards exist; or after the safety problem is noticed, the working site stipulates that the learner only permits visiting but not operating, so that the site practice effect is poor. In addition, the field practice is large, the facility range is wide, so that learners cannot know all the technological processes of oil product loading and unloading, and the theory and the reality are combined, thereby causing the defects of long practice time and high practice cost. In order to improve the learning efficiency of learners, a device capable of simulating and demonstrating the whole oil loading and unloading process is needed.

SUMMERY OF THE UTILITY MODEL

For solving above problem, the utility model provides an oil loading and unloading simulation practise exercises demonstration teaching equipment, this teaching equipment has loading and unloading ship analog system, loading and unloading car analog system and reladling operation analog system, use fluorescence water to flow in the pipeline, when simulating the demonstration, the study personnel can directly see the concrete route that flows of fluorescence water, give the audio-visual sense of study personnel, use pronunciation explanation to explain the method and the measure of oil loading and unloading simultaneously, thereby improve the practise exercises skill level of study personnel, grasp the relevant knowledge point of oil loading and unloading training.

In order to realize the above purpose, the utility model adopts the technical scheme that: an oil product loading and unloading simulation actual operation demonstration teaching device comprises a supporting box body and a transparent simulation observation box, wherein the simulation observation box is fixedly arranged above the supporting box body, and a semitransparent simulation wharf oil depot model is arranged in the simulation observation box;

the simulation wharf oil depot model comprises a loading and unloading ship, an oil conveying arm, a first floating roof tank, a second floating roof tank, an oil conveying pump, a tank truck and a crane pipe; the loading and unloading ship is connected with an oil conveying arm, the oil conveying arm is connected with one end of an oil conveying pump through a first oil conveying pipeline, and the other end of the oil conveying pump is connected with a first floating roof tank and a second floating roof tank through a second oil conveying pipeline; the tank car is connected with one end of a third oil pipeline through a loading arm, and the other end of the third oil pipeline is communicated with an oil delivery pump; the first floating roof tank and the second floating roof tank are communicated through a fourth oil pipeline; the first oil pipeline, the second oil pipeline, the third oil pipeline and the fourth oil pipeline are all provided with electromagnetic valves; the loading and unloading ship, the tank car and the first floating roof tank are all filled with fluorescent water with the volume of more than half;

an equipment control box is arranged in the supporting box body, a PLC (programmable logic controller) is arranged in the equipment control box, and a main switch, a ship loading switch, a ship unloading switch, a loading switch, an unloading switch and a tank dumping switch are arranged on the supporting box body;

the main switch, the ship loading switch, the ship unloading switch, the vehicle loading switch, the vehicle unloading switch, the tank reversing switch, the electromagnetic valve, the ship loading and unloading, the oil delivery arm, the tank truck, the oil filling riser and the oil delivery pump are all electrically connected with the PLC.

Further, the simulated observation box is made of transparent glass or transparent plastic.

Furthermore, the loading and unloading ship, the oil conveying arm, the first floating roof tank, the second floating roof tank, the oil conveying pump, the tank truck, the crane pipe, the first oil conveying pipeline, the second oil conveying pipeline, the third oil conveying pipeline and the fourth oil conveying pipeline are made of semitransparent acrylic materials.

Furthermore, a lamp strip is arranged on the top of the observation box around the periphery of the side wall, a lamp control switch is further arranged on the supporting box body and used for controlling the lamp strip to be opened and closed, and the lamp strip and the lamp control switch are both electrically connected with the PLC.

Furthermore, the loading and unloading ship is provided with at least one, each loading and unloading ship is connected with an oil transportation arm, and the oil transportation arms are communicated with the first oil transportation pipeline.

Furthermore, the oil delivery pump is provided with two, two wherein one end of oil delivery pump is connected in parallel on second defeated oil pipe way, and one of them the other end of oil delivery pump is connected first defeated oil pipe way, and another the other end of oil delivery pump is connected third defeated oil pipe way.

Furthermore, the third oil pipeline is communicated with the first oil pipeline through a fifth oil pipeline, and the fifth oil pipeline is also provided with an electromagnetic valve.

Furthermore, the loading and unloading ship, the oil conveying arm, the oil conveying pump, the first floating roof tank, the second floating roof tank, the first oil conveying pipeline and the second oil conveying pipeline form a loading and unloading ship simulation system; the tank car, the loading arm, the oil delivery pump, the first floating roof tank, the second oil delivery pipeline and the third oil delivery pipeline form a loading and unloading car simulation system; and the first floating roof tank, the second floating roof tank and the fourth oil pipeline form a tank switching operation simulation system.

Further, the device also comprises an air blowing device which is used for blowing the residual fluorescent water in the pipeline; the air blowing device comprises an air compressor, the air compressor is communicated with the first oil conveying pipeline through a sixth pipeline, an air blowing switch is arranged on the side wall of the supporting box body, and the air blowing switch is electrically connected with the PLC.

Further, still be provided with voice broadcast ware and voice broadcast switch on the lateral wall of supporting box, voice broadcast ware, voice broadcast switch all with PLC controller electric connection.

The utility model has the advantages and positive effects that:

1. the utility model discloses a be provided with simulation pier oil depot model in the simulation observation box, this simulation pier oil depot model can realize the simulation exercise of loading and unloading ship, loading and unloading car and tank transfer operation, and when the simulation exercise, the flow line of fluorescence water can audio-visually be seen to the study personnel, and then can make the study personnel more audio-visual know the concrete process of each operation and the route circuit of liquid, improves the practice level of study personnel.

2. The voice broadcasting device is arranged, and operation knowledge and key points related to explanation are broadcasted in real time during simulation exercise, so that the learning personnel can be assisted to understand and memorize, and the comprehensive ability of the learning personnel is improved.

3. And the blowing device is arranged for simulating the process of blowing residual oil in the pipeline, so that the comprehension of the whole process by the learners is improved.

Drawings

FIG. 1 is a front view of the oil handling simulation practice demonstration teaching device of the present invention;

FIG. 2 is a cross-sectional view A-A of FIG. 1;

FIG. 3 is a control block diagram of the oil handling simulation practice demonstration teaching device of the present invention;

in the figure:

1-supporting box body, 101-main switch, 102-shipping switch, 103-unloading switch, 104-loading switch, 105-unloading switch, 106-tank-reversing and opening light, 107-lamp control switch, 108-voice broadcasting switch and 109-blowing switch;

2-simulating an observation box to be observed,

4-simulation of a wharf oil depot model, 401-loading and unloading ship, 402-oil transportation arm, 403-first floating roof tank, 404-second floating roof tank, 405-oil transportation pump, 406-tank truck, 407-oil filling riser, 408-first oil transportation pipeline, 409-second oil transportation pipeline, 410-third oil transportation pipeline, 411-fourth oil transportation pipeline and 412-fifth oil transportation pipeline;

5-lamp belt;

6-a blowing device, 601-an air compressor, 602-a sixth pipeline;

7-voice broadcasting device.

Detailed Description

The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings.

Example (b):

as shown in fig. 1 to 3: an oil product loading and unloading simulation actual operation demonstration teaching device comprises a supporting box body 1 and a transparent simulation observation box 2, wherein the simulation observation box 2 is fixedly arranged above the supporting box body 1, and a semitransparent simulation wharf oil depot model 4 is arranged in the simulation observation box 2; the simulation observation box 2 is arranged to be transparent and is convenient for observing the conveying process of the internal simulation wharf oil depot model 4; the simulated wharf oil depot model 4 is semi-transparent, so that the flow direction of the fluorescent water can be observed conveniently;

the simulation wharf oil depot model 4 comprises a loading and unloading ship 401, an oil transportation arm 402, a first floating roof tank 403, a second floating roof tank 404, an oil transportation pump 405, a tank truck 406 and a crane pipe 407; the loading and unloading ship 401 is connected with an oil transportation arm 402, the oil transportation arm 402 is connected with one end of an oil transportation pump 405 through a first oil transportation pipeline 408, and the other end of the oil transportation pump 405 is connected with a first floating roof tank 403 and a second floating roof tank 404 through a second oil transportation pipeline 409; the tank truck 406 is connected with one end of a third oil pipeline 410 through a loading arm 407, and the other end of the third oil pipeline 410 is communicated with an oil delivery pump 405; the first floating roof tank 403 and the second floating roof tank 404 are communicated through a fourth oil pipeline 411; the first oil pipeline 408, the second oil pipeline 409, the third oil pipeline 410 and the fourth oil pipeline 411 are all provided with electromagnetic valves; fluorescent water with the volume of more than half is contained in the loading and unloading ship 401, the tank car 406 and the first floating roof tank 403; wherein, the loading and unloading ship 401, the oil transfer arm 402, the oil transfer pump 405, the first floating roof tank 403, the second floating roof tank 404, the first oil transfer pipeline 408 and the second oil transfer pipeline 409 form a loading and unloading ship simulation system; the tank car 406, the loading arm 407, the oil transfer pump 405, the first floating roof tank 403, the second floating roof tank 404, the second oil transfer pipeline 409 and the third oil transfer pipeline 410 form a loading and unloading car simulation system; the first floating roof tank 403, the second floating roof tank 404 and the fourth oil pipeline 411 form a tank-dumping operation simulation system; the loading and unloading ship simulation system is used for simulating and learning the specific process of loading and unloading the petroleum, the loading and unloading truck simulation system is used for simulating and learning the specific process of loading and unloading the petroleum, and the tank dumping operation simulation system is used for simulating and learning the process of dumping the petroleum in the floating roof tank. The solenoid valve is used for controlling whether the pipeline is in a circulation state or not, and the PLC is used for controlling according to actual conditions.

An equipment control box is arranged in the supporting box body 1, a PLC controller is arranged in the equipment control box, and a main switch 101, a ship loading switch 102, a ship unloading switch 103, a truck loading switch 104, an unloading switch 105 and a tank transfer switch 106 are arranged on the supporting box body 1; the main switch 101, the ship loading switch 102, the ship unloading switch 103, the loading switch 104, the unloading switch 105, the tank reversing switch 106, the electromagnetic valve, the loading and unloading ship 401, the oil transfer arm 402, the tank truck 406, the loading arm 407 and the oil transfer pump 405 are all electrically connected with the PLC. And a PLC (programmable logic controller) in the equipment control box is used for controlling the specific operation of each component in the device.

In the present embodiment, the simulated observation box 2 is made of transparent glass or transparent plastic. Transparent glass and transparent plastic all can be so that simulation observation case 2 is transparent, and the study personnel of being convenient for see through this simulation observation case 2 and observe the study to the simulation pier oil depot model of inside.

In this embodiment, the loading and unloading ship 401, the oil transfer arm 402, the first floating roof tank 403, the second floating roof tank 404, the oil transfer pump 405, the tank car 406, the oil filling pipe 407, the first oil transfer pipe 408, the second oil transfer pipe 409, the third oil transfer pipe 410, and the fourth oil transfer pipe 411 are made of translucent acrylic material. The article made of the semitransparent acrylic material can be clearly seen when the luminescent substance is contained in the article, so that the design is convenient for observing the flow line of the fluorescent water in the article, and a learner can conveniently master the specific flow process and line of the petroleum in the loading and unloading process, and the comprehension ability and the practical operation ability of the learner are improved.

In this embodiment, the top of observation box 2 is provided with lamp area 5 around lateral wall a week, still is provided with lamp control switch 107 on the supporting box 1 for opening and closing of control lamp area 5, lamp area 5 and lamp control switch 107 all with PLC controller electric connection. The lamp strip 5 is arranged, so that a learner can see each part in the oil depot simulation model 4 clearly, and training and learning can be performed at night.

The loading and unloading ships 401 are provided with at least one, and each loading and unloading ship 401 is connected with an oil transportation arm 402, and the oil transportation arm 402 is communicated with the first oil transportation pipe 308. In this embodiment, the loading and unloading vessel 401 and the oil transfer arm 402 are each provided with two and both oil transfer arms 402 are communicated with the first oil transfer pipeline 408 through pipelines.

In this embodiment, two oil delivery pumps 405 are provided, one end of each of the two oil delivery pumps 405 is connected to the second oil delivery pipeline 409 in parallel, the other end of one of the oil delivery pumps 405 is connected to the first oil delivery pipeline 408, and the other end of the other oil delivery pump 405 is connected to the third oil delivery pipeline 410. The two oil transfer pumps 405 are used for the loading and unloading vehicle operation and the loading and unloading ship operation, respectively.

In the present embodiment, the third flow path 410 is connected to the first flow path 408 via a fifth flow path 412, and the fifth flow path 412 is also provided with a solenoid valve.

In this embodiment, the device further comprises an air blowing device 6 for blowing residual fluorescent water in the pipeline; the blowing device 6 comprises an air compressor 601, the air compressor 601 is communicated with the first oil pipeline 408 through a sixth pipeline 602, a blowing switch 109 is arranged on the side wall of the supporting box body 1, and the blowing switch 109 is electrically connected with the PLC. The blowing device 6 is arranged for simulating the process of blowing residual oil in the pipeline, when the blowing device 6 is started, the air compressor 601 blows air to blow out residual fluorescent water in each pipeline, and therefore the simulation process can improve the understanding of a learner on the whole process.

In this embodiment, still be provided with voice broadcast ware 7 and voice broadcast switch 108 on the lateral wall of supporting box 1, voice broadcast ware 7, voice broadcast switch 108 all with PLC controller electric connection. Set up the voice broadcast ware, real-time broadcast explains explanation relevant operating knowledge and key point when simulation exercise, can assist the study personnel to understand and remember, improves study personnel's comprehensive ability, and voice broadcast ware 7 is reported by PLC controller control, and explains the relevant knowledge of corresponding simulation exercise according to the simulation exercise of difference to help the study personnel to understand and remember.

The utility model discloses when using:

firstly, the whole equipment is powered on, then a main switch is turned on, and when the surrounding environment is dark, the lamp strip 5 is turned on by pressing the lamp control switch 107, so that a learner can visually see each structure of the simulation wharf oil depot model 4 in the simulation observation box 2;

and secondly, selectively pressing a ship loading switch 102, a ship unloading switch 103, a loading switch 104, an unloading switch 105 or a tank reversing switch 106 according to the contents to be learned to perform simulation training, and after the simulation training is started, pressing a voice broadcasting switch 108, controlling a voice broadcasting device 7 to start broadcasting the relevant knowledge of the corresponding simulation training by the PLC, so as to assist a learner to understand and learn and master practical skills as soon as possible.

Shipping operation: pressing the ship loading switch 102, starting the simulation training of the ship loading operation, at the moment, the PLC controller controls the loading and unloading ship 401, the oil transportation arm 402 and the oil transportation pump 405 to operate, meanwhile, the solenoid valves on the first oil transportation pipeline 408 and the second oil transportation pipeline 409 are opened, the oil transportation pump 405 reversely operates to convey the fluorescent water in the first floating roof tank 403 or the second floating roof tank 404 to the oil transportation arm 402 through the first oil transportation pipeline 408, the oil transportation arm 402 conveys the received fluorescent water to the loading and unloading ship 401, the process is the ship loading operation, in the simulation process, the fluorescent water can be visually observed to be conveyed to the loading and unloading ship 401 from the first floating roof tank 403 or the second floating roof tank 404 through the second oil transportation pipeline 409, the oil transportation pump 405, the first oil transportation pipeline 408 and the oil transportation arm 402 in sequence, and meanwhile, the voice device 7 explains the relevant knowledge and key points of the ship loading operation in the process, can help the learner to master the key of the shipping operation as soon as possible.

Ship unloading operation: pressing the ship unloading switch 103 to start the simulation training of the ship unloading operation, wherein the PLC controls the loading and unloading ship 401, the oil transportation arm 402 and the oil transportation pump 405 to operate, meanwhile, the electromagnetic valves on the first oil transportation pipeline 408 and the second oil transportation pipeline 409 are opened, the oil transportation arm 402 conveys the fluorescent water on the loading and unloading ship 401 into the first oil transportation pipeline 408, the oil transportation pump 405 conveys the fluorescent water in the first oil transportation pipeline 408 into the first floating roof tank 403 or the second floating roof tank 404 through the second oil transportation pipeline 409, the process is the ship unloading operation, in the simulation process, the fluorescent water can be visually seen to sequentially pass through the oil transportation arm 402, the first oil transportation pipeline 408, the oil transportation pump 405 and the second oil transportation pipeline 409 from the loading and unloading ship 401 to enter the first floating roof tank 403 or the second floating roof tank 404, and simultaneously, the voice broadcast device 7 explains the relevant knowledge and key points of the ship unloading operation in the process, can help the learner to master the ship unloading as soon as possible.

Loading operation: the loading switch 104 is pressed to start the simulation training of the loading operation, at the moment, the PLC controller controls the tank truck 406, the loading arm 407 and the oil transfer pump 405 to operate, meanwhile, the electromagnetic valves on the third oil pipeline 410 and the second oil pipeline 409 are opened, the oil delivery pump 405 reversely runs to deliver the fluorescent water in the first floating roof tank 403 or the second floating roof tank 404 into the loading arm 407 through the third oil pipeline 410 through the second oil pipeline 409, the loading arm 407 delivers the received fluorescent water into the tank truck 406, the process is the loading operation, in the simulation process, the fluorescent water can be visually conveyed from the first floating roof tank 403 or the second floating roof tank 404 to the tank truck 406 through the second conveying pipeline 409, the oil conveying pump 405, the third conveying pipeline 410 and the loading arm 407 in sequence, meanwhile, the voice broadcaster 7 explains the relevant knowledge and key points of the loading operation in the process, and can help the learner to master the key of the loading operation as soon as possible.

Unloading operation: the unloading switch 105 is pressed to start the simulation training of the unloading operation, at the moment, the PLC controller controls the tank truck 406, the loading arm 407 and the oil transfer pump 405 to operate, meanwhile, the electromagnetic valves on the third oil pipeline 410 and the second oil pipeline 409 are opened, the crane pipe 407 conveys the fluorescent water in the tank car 406 to the third oil pipeline 410, the oil transfer pump 405 transfers the fluorescent water in the third oil transfer pipeline 410 to the first floating roof tank 403 or the second floating roof tank 404 through the second oil transfer pipeline 409, the unloading operation is performed, in the simulation process, the fluorescent water is visually conveyed from the tank truck 406 to the first floating roof tank 403 or the fourth floating roof tank 404 through the loading arm 407, the third oil conveying pipe 410, the oil conveying pump 405 and the second oil conveying pipe 409 in sequence, meanwhile, the voice broadcaster 7 explains the relevant knowledge and key points of the unloading operation in the process, and can help the learner to master the unloading requirement as soon as possible.

And (3) tank switching operation: when the reladling switch 106 is pressed, the PLC controller controls the solenoid valve on the fourth oil pipeline 411 to open, so that the communication between the first floating roof tank 403 and the second floating roof tank 404 can be directly seen, and the fluorescent water flows from the floating roof tank with a high liquid level to the floating roof tank with a low liquid level until the liquid levels of the first floating roof tank 403 and the second floating roof tank 404 are balanced.

And (3) blowing operation: when the air blowing switch is pressed, the PLC controls the air compressor 601 to operate, air is blown into the sixth pipeline 602, the flow of the fluorescent water in each pipeline under the action of air pressure can be visually seen, and the fluorescent water flows into the first floating roof tank 403, the second floating roof tank 404, the loading and unloading ship 401 or the tank car 406, so that a learner can clearly know the clear measures and effects of the air blowing device 6 on residual oil in the pipeline.

While one embodiment of the present invention has been described in detail, the description is only a preferred embodiment of the present invention, and should not be considered as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims (10)

1. The utility model provides an oil loading and unloading simulation real behaviour demonstration teaching equipment which characterized in that: the device comprises a supporting box body (1) and a transparent simulation observation box (2), wherein the simulation observation box (2) is fixedly arranged above the supporting box body (1), and a semitransparent simulation wharf oil depot model (4) is arranged in the simulation observation box (2);

the simulation wharf oil depot model (4) comprises a loading and unloading ship (401), an oil conveying arm (402), a first floating roof tank (403), a second floating roof tank (404), an oil conveying pump (405), a tank truck (406) and a crane pipe (407); the loading and unloading ship (401) is connected with an oil conveying arm (402), the oil conveying arm (402) is connected with one end of an oil conveying pump (405) through a first oil conveying pipeline (408), and the other end of the oil conveying pump (405) is connected with a first floating roof tank (403) and a second floating roof tank (404) through a second oil conveying pipeline (409); the tank car (406) is connected with one end of a third oil pipeline (410) through a crane pipe (407), and the other end of the third oil pipeline (410) is communicated with an oil delivery pump (405); the first floating roof tank (403) and the second floating roof tank (404) are communicated through a fourth oil pipeline (411); the first oil pipeline (408), the second oil pipeline (409), the third oil pipeline (410) and the fourth oil pipeline (411) are all provided with electromagnetic valves; fluorescent water with the volume of more than half is contained in the loading and unloading ship (401), the tank car (406) and the first floating roof tank (403);

an equipment control box is arranged in the supporting box body (1), a PLC (programmable logic controller) is arranged in the equipment control box, and a main switch (101), a ship loading switch (102), a ship unloading switch (103), a loading switch (104), an unloading switch (105) and a tank reversing switch (106) are arranged on the supporting box body (1);

the main switch (101), the ship loading switch (102), the ship unloading switch (103), the loading switch (104), the unloading switch (105), the tank reversing switch (106), the electromagnetic valve, the ship loading and unloading (401), the oil conveying arm (402), the tank car (406), the oil filling riser (407) and the oil conveying pump (405) are all electrically connected with the PLC.

2. The oil product handling simulation practice demonstration teaching device as claimed in claim 1, wherein: the simulation observation box (2) is made of transparent glass or transparent plastic.

3. The oil product handling simulation practice demonstration teaching device as claimed in claim 2, wherein: the loading and unloading ship (401), the oil conveying arm (402), the first floating roof tank (403), the second floating roof tank (404), the oil conveying pump (405), the tank truck (406), the loading and unloading arm (407), the first oil conveying pipeline (408), the second oil conveying pipeline (409), the third oil conveying pipeline (410) and the fourth oil conveying pipeline (411) are made of semitransparent acrylic materials.

4. The oil product handling simulation practice demonstration teaching device as claimed in claim 1, wherein: the lamp belt (5) is arranged around the periphery of the side wall at the top of the simulation observation box (2), the lamp control switch (107) is further arranged on the supporting box body (1) and used for controlling the opening and closing of the lamp belt (5), and the lamp belt (5) and the lamp control switch (107) are both electrically connected with the PLC.

5. The oil product handling simulation practice demonstration teaching device as claimed in claim 1, wherein: the loading and unloading ship (401) is provided with at least one, and every loading and unloading ship (401) all is connected with oil transportation arm (402), oil transportation arm (402) are linked together with first defeated oil pipe way (408).

6. The oil product handling simulation practice demonstration teaching device as claimed in claim 1, wherein: the oil delivery pump (405) is provided with two, two wherein one end parallel connection of oil delivery pump (405) is on second defeated oil pipe way (409), one of them first defeated oil pipe way (408) are connected to the other end of oil delivery pump (405), another third defeated oil pipe way (410) are connected to the other end of oil delivery pump (405).

7. The oil handling simulation practice demonstration teaching device of claim 6, wherein: the third oil pipeline (410) is communicated with the first oil pipeline (408) through a fifth oil pipeline (412), and the fifth oil pipeline (412) is also provided with an electromagnetic valve.

8. The oil product handling simulation practice demonstration teaching device as claimed in claim 3, 5 or 6, wherein: the loading and unloading ship (401), the oil conveying arm (402), the oil conveying pump (405), the first floating roof tank (403), the second floating roof tank (404), the first oil conveying pipeline (408) and the second oil conveying pipeline (409) form a loading and unloading ship simulation system;

the tank car (406), the loading arm (407), the oil transfer pump (405), the first floating roof tank (403), the second floating roof tank (404), the second oil transfer pipeline (409) and the third oil transfer pipeline (410) form a loading and unloading simulation system;

the first floating roof tank (403), the second floating roof tank (404) and the fourth oil pipeline (411) form a tank-dumping operation simulation system.

9. The oil product handling simulation practice demonstration teaching device as claimed in claim 1, wherein: the device also comprises an air blowing device (6) used for blowing residual fluorescent water in the pipeline; gas blowing device (6) include air compressor machine (601), air compressor machine (601) are through sixth pipeline (602) and first defeated oil pipe way (408) intercommunication, be provided with on the lateral wall of supporting box (1) blowing switch (109), blowing switch (109) and PLC controller electric connection.

10. The oil product handling simulation practice demonstration teaching device as claimed in claim 1, wherein: still be provided with voice broadcast ware (7) and voice broadcast switch (108) on the lateral wall of supporting box body (1), voice broadcast ware (7), voice broadcast switch (108) all with PLC controller electric connection.

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