CN203966379U - A kind of anti-people is because of error trainer - Google Patents

Abstract

The utility model provides a kind of anti-people because of error trainer, comprises the first water tank, the second water tank, the first current conveying device, the first valve, the second valve and the first T-valve; The water pipe picking out from the water delivering orifice of described the first water tank connects the oral siphon of described the first current conveying device after described the first valve; The water pipe picking out from the rising pipe of described the second water tank, connects the oral siphon of described the first current conveying device behind the door through described second valve; The water pipe picking out from the first rising pipe of described the first current conveying device is connected to the water inlet of described the first T-valve, the water pipe picking out from the first water delivering orifice of described the first T-valve is connected to the first water inlet of described the first water tank, and the water pipe picking out from the second water delivering orifice of described the first T-valve is connected to the first water inlet of described the second water tank.The utility model functional unit is less, by the ingenious layout of pipeline, makes flow path very various.

Description

A kind of anti-people is because of error trainer

Technical field

The utility model relates to the trainer that carries out operation training for nuclear power technology personnel, is specifically related to a kind of anti-people because of error trainer.

Background technology

The safe and stable operation of nuclear power plant not only needs to improve the reliability of equipment, and the behavioural norm, the minimizing people that improve staff are also very important aspects because slipping up.Both at home and abroad nuclear power colleague's good practice shows: by carrying out behavior at training chest, train, can effectively improve employee's operation habit, reduce its people in working at the scene because of error.

Current domestic minority nuclear power plant has come to realise anti-people because of the importance of error training, and developed a small amount of trainer, but these install, all function is comparatively single, although met indivedual professionals' basic anti-people because of error practical operation training demand, but all lack enough coverage rates, that is: the personnel that cannot simultaneously meet a plurality of specialties of nuclear power plant carry out anti-people because of the needs of error training.In addition, due to applicable object and content limited, aspect facility utilization ratio, having much room for improvement.Simultaneously, existing anti-people because of error trainer circuit design simple, alternative water route is few, naturally restricting the quantity of the operating process that can develop, although these trainers how can be overlapped to simple superposition combination, alternative water route is increased, but must become multiple, increase pipeline quantity, owing to being many cover simple superposition, wherein the nature of the functional unit in every suit utilization factor is low.

Utility model content

For solving existing anti-people because of the few technical matters in the error alternative water route of trainer, the utility model proposes a kind of anti-people because of error trainer, comprise the first water tank, the second water tank, the first current conveying device, the first valve, the second valve and the first T-valve; The water pipe picking out from the water delivering orifice of described the first water tank connects the oral siphon of described the first current conveying device after described the first valve; The water pipe picking out from the rising pipe of described the second water tank, connects the oral siphon of described the first current conveying device behind the door through described second valve; The water pipe picking out from the first rising pipe of described the first current conveying device is connected to the water inlet of described the first T-valve, the water pipe picking out from the first water delivering orifice of described the first T-valve is connected to the first water inlet of described the first water tank, and the water pipe picking out from the second water delivering orifice of described the first T-valve is connected to the first water inlet of described the second water tank.

Described trainer also comprises the second current conveying device and the second T-valve, and the water pipe picking out from the water delivering orifice of described the second water tank also connects the oral siphon of described the second current conveying device behind the door through described second valve; The water pipe picking out from the first rising pipe of described the second current conveying device is connected to the water inlet of described the second T-valve, the water pipe picking out from the first water delivering orifice of described the second T-valve is connected to the second water inlet of described the first water tank, and the water pipe picking out from the second water delivering orifice of described the second T-valve is connected to the second water inlet of described the second water tank.

The second rising pipe of described the first current conveying device is connected with the 3rd water inlet of described the first water tank by water pipe; The second rising pipe of described the second current conveying device is connected with the 3rd water inlet of described the second water tank by water pipe.

Described the first current conveying device comprises the first isolation valve, the second isolation valve, the first water pump, the second water pump, the first reverse checkvalve, the second reverse checkvalve, the 3rd isolation valve, the 4th isolation valve, the 5th isolation valve, the 6th isolation valve, the first filtrator and the 7th isolation valve, in described the first current conveying device, the water pipe picking out from the oral siphon of described the first current conveying device, described the first isolation valve is passed through on one tunnel successively, described the first water pump, described the first reverse checkvalve, described the 3rd isolation valve and described the 5th isolation valve are connected to the first rising pipe of described the first current conveying device, described the second isolation valve is passed through on another road successively, described the second water pump, described the second reverse checkvalve, described the 4th isolation valve, described the 6th isolation valve, described the first filtrator and described the 7th isolation valve are connected to the first rising pipe of described the first current conveying device, the water pipe and the cross current that is connected described the 4th isolation valve and described the 6th isolation valve that connect described the 3rd isolation valve and described the 5th isolation valve.

Described the first current conveying device also comprises the 8th isolation valve, the 3rd valve and the 4th valve; The water pipe picking out from described the 5th isolation valve is connected to the first rising pipe of described the first current conveying device after described the 8th isolation valve, and the first rising pipe of described the first current conveying device is provided with described the 4th valve; The water pipe that connects described the 5th isolation valve and described the 8th isolation valve is communicated with the second rising pipe of described the first current conveying device again, and the second rising pipe of described the first current conveying device is provided with described the 3rd valve.

Described the first current conveying device also comprises the first electronic isolation valve, the 9th isolation valve, the first pressure unit, the first drain valve, the second drain valve, the tenth isolation valve, first tensimeter, the 11 isolation valve, second tensimeter, the 12 isolation valve and the second pressure unit on the spot on the spot; Described the first electronic isolation valve is located on the water inlet pipe of described the first current conveying device, and the water pipe picking out from described the first pressure unit is connected to the water inlet pipe of described the first current conveying device after described the 9th isolation valve; Described the first drain valve is located at the water pipe place that connects described the first isolation valve and described the first water pump, and described the second drain valve is located at the water pipe place that connects described the second isolation valve and described the second water pump; From the described first water pipe that tensimeter picks out on the spot after described the tenth isolation valve with the cross current that is connected described the first reverse checkvalve and described the 3rd isolation valve, from the described second water pipe that tensimeter picks out on the spot after described the 11 isolation valve with the cross current that is connected described the second reverse checkvalve and described the 4th isolation valve; The water pipe picking out from described the second pressure unit is communicated with the first rising pipe of described the first current conveying device after described the 12 isolation valve.

Described trainer also comprises heat exchanger; The water pipe picking out from the first rising pipe of described the first current conveying device is connected to the water inlet of described heat exchanger first passage, and the water delivering orifice of described heat exchanger first passage is communicated with the water inlet of described the first T-valve by water pipe; The water pipe picking out from the first rising pipe of described the second current conveying device is connected to the water inlet of described heat exchanger second channel, and the water delivering orifice of described heat exchanger second channel is communicated with the water inlet of described the second T-valve by water pipe.

On the water route between the first rising pipe of described the first current conveying device and the water inlet of described heat exchanger first passage, be provided with manual modulation valve combination unit; Described manual modulation valve combination unit comprises the first manual modulation valve, the second manual modulation valve, first flow transmitter and second transmitter; The water pipe picking out from the first rising pipe of described the first current conveying device divides makes two-way, one road water pipe connects the rising pipe of described manual modulation valve combination unit successively through described the first manual modulation valve and described first flow transmitter, another road water pipe connects the rising pipe of described manual modulation valve combination unit successively through described the second manual modulation valve and described second transmitter.

Described trainer also comprises container; In described container, be provided with described the first T-valve and described the second T-valve; The water pipe that connects the water inlet of described the first T-valve and the water delivering orifice of described heat exchanger first passage is provided with the first manual isolation valve, the water pipe that connects the second water delivering orifice of described the first T-valve and the first water delivering orifice of described water tank is provided with the second manual isolation valve, and the water pipe that connects the first water delivering orifice of described the first T-valve and the first water inlet of described water tank is provided with the 3rd manual isolation valve; The water pipe that connects the water inlet of described the second T-valve and the water delivering orifice of described heat exchanger second channel is provided with the 4th manual isolation valve, the water pipe that connects the second water delivering orifice of described the second T-valve and the second water inlet of described the second water tank is provided with the 5th manual isolation valve, and the water pipe that connects the first water delivering orifice of described the second T-valve and the second water inlet of described the first water tank is provided with the 6th manual isolation valve.

Described the first water tank is also provided with the first water compensating valve, first row air valve, the 3rd drain valve and the first overpressure protection valve; The first rising pipe place of described the first current conveying device is provided with the 4th drain valve; Described heat exchanger is provided with the 5th drain valve; The rising pipe place of described manual modulation valve combination unit is provided with the 3rd flow transmitter; The first rising pipe place of described the second current conveying device is provided with the 4th flow transmitter; Connect on the water pipe of described the first valve and described the second valve and be provided with successively the 13 isolation valve, the first pneumatic stopping valve and the 14 isolation valve; Described the first valve and described the second valve are manual isolation valve; Described the 4th valve is pneumatic control valve or electric control valve.

The utlity model has following beneficial effect: the anti-people of the utility model because of the related functional unit of trainer less, but by dexterously pipeline being arranged, make flow path very various, by selecting different flow paths, can realize different operation functions.Thus, training teacher can write out various training programs on this function basis, allows student according to program executable operations.

The anti-people of the utility model because trainer has made up existing various anti-people because of the above-mentioned deficiency of trainer.First, it has multifunctionality, this covering device can realize respectively nuclear power plant operations staff, rotary machine maintainer, stationary machine maintainer, instrument control maintainer and electrical overhaul personnel anti-people because of error training need.Secondly, due in this device, by the multi-form combination of distinct device, can realize various training functions, greatly improve the utilization ratio of exercise equipment, reduce construction cost.

The anti-people of the present utility model trainer of slipping up be take curriculum development as guiding, actual training requirement based on each professional of nuclear power plant is carried out design, can meet a plurality of professional needs, in addition simultaneously, according to minimum system principle, design, greatly reduced construction cost.The anti-people of the utility model because of a lot of equipment of error trainer be not required for meeting the training of some specialties, but because it is combined and has formed a set of " comprehensive training system ", the personnel of different majors can develop corresponding training content according to the needs of oneself, and above-mentioned facilities and equipment can be realized multiple use.This system is made every effort to the diversity of unit type, structure, and the number of devices of every kind of structure model is controlled in 2-4 cover, and being only equipped with that price is slightly expensive is a set of, has met thus training demand, has controlled again construction cost as far as possible.And domestic current various anti-people is because of in trainer, there is no this trainer for operations staff and training content, to mechanical personnel's trainer and the trainer to instrument control personnel, due to design at the beginning of with regard to function singleness, its structure is also too simple, can not produce more " variation " at all, cannot meet operations staff's diversified anti-people because of error training demand.

The anti-people of the utility model because of error trainer be the training facilities being highly profitable, by carrying out training, student exposes the various people that may occur in routine work because of error symptom at this, and is repaired, and according to correct behavioural norm, repeatedly strengthens.After it comes back in work, will to corresponding people because of error trap more responsive, and the correct professional standard of voluntary observance.In training process, teacher can arrange various " people is because of traps " aspect training file, equipment sign and equipment running status, and student must adopt correct method of work, observes operations staff's criterion behavior standard that is:, could find and evade above-mentioned people because of trap, otherwise will make a mistake.If student makes a mistake (people is because of error), teacher will analyze because of type of mistake targetedly according to student's people, then arrange intensive training (being conventionally replaced with another task), by repetition training, the correct behavioural norm of strengthening student.In fact, in Daya Bay, Guangdong, China nuclear power base, utilized so anti-people because of error trainer, by carrying out corresponding training, particularly the employee for the new recruitment of nuclear power plant carries out anti-people because of training, can its behavior of very effective standard, greatly reduce on-the-spot people because of fault rate.As shown in Figure 8, Fig. 8 be Daya Bay, Guangdong, China nuclear power people from base because of event statistical graph (unit: part), data show, in wide core Daya Gulf nuclear power base people in recent years because event is reducing year by year, wherein carry out this type of training and played very important contribution.

Accompanying drawing explanation

Fig. 1 is that the anti-people of the utility model is because of the structural representation of error trainer one embodiment;

Fig. 2 is the structural representation of the utility model the first current conveying device one embodiment;

Fig. 3 is the structural representation of the utility model the second current conveying device one embodiment;

Fig. 4 is the structural representation of the utility model manual modulation valve combination unit and heat exchanger one embodiment;

Fig. 5 is the structural representation of the utility model the first container and periphery pipeline one embodiment;

Fig. 6 is the structural representation of the utility model the first water tank and periphery pipeline one embodiment;

Fig. 7 is the structural representation of the utility model the second water tank and periphery pipeline one embodiment;

Fig. 8 is that Daya Bay, Guangdong, China nuclear power people from base is because of event statistical graph (unit: part).

Embodiment

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

As shown in Figure 1, Fig. 1 is that the anti-people of the utility model is because of the structural representation of error trainer one embodiment; The anti-people of the present embodiment, because of error trainer, comprises the first water tank 001BA, the second water tank 002BA, the first current conveying device 1, the first valve 101VP, the second valve 201VP and the first T-valve 310VP; The water pipe picking out from the water delivering orifice of the first water tank 001BA connects the oral siphon of the first current conveying device 1 after the first valve 101VP; The water pipe picking out from the rising pipe of the second water tank 002BA connects the oral siphon of the first current conveying device 1 after the second valve 201VP; The water pipe picking out from the first rising pipe of the first current conveying device 1 is connected to the water inlet of the first T-valve 310VP, the water pipe picking out from the first water delivering orifice of the first T-valve 310VP is connected to the first water inlet of the first water tank 001BA, and the water pipe picking out from the second water delivering orifice of the first T-valve 310VP is connected to the first water inlet of the second water tank 002BA.By the first current conveying device 1, provide power, by the first T-valve 310VP, select flow direction again, can realize current and from the first water tank 001BA, be delivered to the second water tank 002BA, the second water tank 002BA and be delivered to the first water tank 001BA, the first water tank 001BA water circulation and the second water tank 002BA water circulation.

As shown in Figure 1, the trainer of the present embodiment also comprises the second current conveying device 2, the water pipe picking out from the water delivering orifice of the second water tank 002BA minute is made two-way after the second valve 201VP, one road water pipe is connected to the oral siphon of the first current conveying device 1, and another road water pipe is connected to the oral siphon of the second current conveying device 2; The water pipe picking out from the first rising pipe of the second current conveying device 2 is connected to the water inlet of the second T-valve 320VP, the water pipe picking out from the first water delivering orifice of the second T-valve 320VP is connected to the second water inlet of the first water tank 001BA, and the water pipe picking out from the second water delivering orifice of the second T-valve 320VP is connected to the second water inlet of the second water tank 002BA.By with the first current conveying device 1 phase mirror image the second current conveying device 2 and associated pipe thereof is set, selectable water route is multiplied, be beneficial to and more flow operations scheme is set for training tutor, selects, to train better student.

As shown in Figure 1, the second rising pipe of the first current conveying device 1 is connected with the 3rd water inlet of the first water tank 001BA by water pipe; The second rising pipe of the second current conveying device 2 is connected with the 3rd water inlet of the second water tank 002BA by water pipe.The 3rd rising pipe of the first current conveying device 1 is connected with the 4th water inlet of the first water tank 001BA by water pipe; The 3rd rising pipe of the second current conveying device 2 is connected with the 4th water inlet of the second water tank 002BA by water pipe.Each current conveying device is all set up second, third rising pipe, and each current conveying device has increased two self-loopa water routes newly.

As shown in Figure 2, Fig. 2 is the structural representation of the utility model the first current conveying device 1 one embodiment, the first current conveying device 1 comprises the first isolation valve 102VP, the second isolation valve 103VP, the first water pump 001PO, the second water pump 003PO, the first reverse checkvalve 106VP, the second reverse checkvalve 107VP, the 3rd isolation valve 110VP, the 4th isolation valve 111VP, the 5th isolation valve 112VP, the 6th isolation valve 116VP, the first filtrator 001FI and the 7th isolation valve 117VP, in the first current conveying device 1, the water pipe picking out from the oral siphon of the first current conveying device 1 divides makes two-way, one road water pipe is successively through the first isolation valve 102VP, the first water pump 001PO, the first reverse checkvalve 106VP, the 3rd isolation valve 110VP and the 5th isolation valve 112VP are connected to the first rising pipe of the first current conveying device 1, another road water pipe is successively through the second isolation valve 103VP, the second water pump 003PO, the second reverse checkvalve 107VP, the 4th isolation valve 111VP, the 6th isolation valve 116VP, the first filtrator 001FI and the 7th isolation valve 117VP are connected to the first rising pipe of the first current conveying device 1, the water pipe and the cross current that is connected the 4th isolation valve 111VP and the 6th isolation valve 116VP that connect the 3rd isolation valve 110VP and the 5th isolation valve 112VP.

As shown in Figure 3, Fig. 3 is the structural representation of the utility model the second current conveying device 2 one embodiment, the second current conveying device 2 comprises the 15 isolation valve 202VP, the 16 isolation valve 203VP, the 3rd water pump 002PO, the 4th water pump 004PO, the 3rd reverse checkvalve 206VP, the 4th reverse checkvalve 207VP, the 17 isolation valve 210VP, the 18 isolation valve 211VP, the 19 isolation valve 212VP, the 20 isolation valve 216VP, the second filtrator 002FI and the 21 isolation valve 217VP, in the second current conveying device 2, the water pipe picking out from the oral siphon of the second current conveying device 2 divides makes two-way, one road water pipe is successively through the 15 isolation valve 202VP, the 3rd water pump 002PO, the 3rd reverse checkvalve 206VP, the 17 isolation valve 210VP and the 19 isolation valve 212VP are connected to the first rising pipe of the second current conveying device 2, another road water pipe is successively through the 16 isolation valve 203VP, the 4th water pump 004PO, the 4th reverse checkvalve 207VP, the 18 isolation valve 211VP, the 20 isolation valve 216VP, the second filtrator 002FI and the 21 isolation valve 217VP are connected to the first rising pipe of the second current conveying device 2, the water pipe and the cross current that is connected the 18 isolation valve 211VP and the 20 isolation valve 216VP that connect the 17 isolation valve 210VP and the 19 isolation valve 212VP.

Like this, two inner two-way or multi-channel parallel modes of adopting of current conveying device, also can realize the selection in water route, and each current conveying device inside relate to multiple device, for formulating more training program, provides more choices in each current conveying device.

As shown in Figure 2, the first current conveying device 1 also comprises the 8th isolation valve 114VP, the 3rd valve 118VP and the 4th valve 150VP; The water pipe picking out from the 5th isolation valve 112VP is connected to the first rising pipe of the first current conveying device 1 after the 8th isolation valve 114VP, and the first rising pipe of the first current conveying device 1 is provided with the 4th valve 150VP; The water pipe that connects the 5th isolation valve 112VP and the 8th isolation valve 114VP is communicated with the second rising pipe of the first current conveying device 1 again, and the second rising pipe of the first current conveying device 1 is provided with the 3rd valve 118VP.The first current conveying device 1 also comprises the 22 isolation valve 113VP, the 23 isolation valve 115VP and the 5th valve 119VP; The water pipe that connects the 4th isolation valve 111VP and the 6th isolation valve 116VP is separately communicated with the first rising pipe of the first current conveying device 1 through the 22 isolation valve 113VP and the 23 isolation valve 115VP successively; The water pipe that connects the 22 isolation valve 113VP and the 23 isolation valve 115VP is communicated with the 3rd rising pipe of the first current conveying device 1 again, and the 3rd rising pipe of the first current conveying device 1 is provided with the 5th valve 119VP.

As shown in Figure 3, the second current conveying device 2 also comprises the 24 isolation valve 214VP, the 6th valve 218VP and the 7th valve 250VP; The water pipe picking out from the 19 isolation valve 212VP is connected to the first rising pipe of the second current conveying device 2 after the 24 isolation valve 214VP, and the first rising pipe of the second current conveying device 2 is provided with the 7th valve 250VP; The water pipe that connects the 19 isolation valve 212VP and the 24 isolation valve 214VP is communicated with the second rising pipe of the second current conveying device 2 again, and the second rising pipe of the second current conveying device 2 is provided with the 6th valve 218VP.The second current conveying device 2 also comprises the 25 isolation valve 213VP, the 26 isolation valve 215VP and the 8th valve 219VP; The water pipe that connects the 18 isolation valve 211VP and the 20 isolation valve 216VP is separately communicated with the first rising pipe of the second current conveying device 2 through the 25 isolation valve 213VP and the 26 isolation valve 215VP successively; The water pipe that connects the 25 isolation valve 213VP and the 26 isolation valve 215VP is communicated with the 3rd rising pipe of the second current conveying device 2 again, and the 3rd rising pipe of the second current conveying device 2 is provided with the 8th valve 219VP.

Like this, in each current conveying device inside, be just that the second rising pipe and the 3rd rising pipe have designed supporting path control structure, control leading to, closing of the second rising pipe, the 3rd rising pipe.

As shown in Figure 2, the first current conveying device 1 also comprises the first electronic isolation valve 100VP, the 9th isolation valve 161VP, the first pressure unit 001MP, the first drain valve 104VP, the second drain valve 105VP, the tenth isolation valve 108VP, first tensimeter 101LP, the 11 isolation valve 109VP, second tensimeter 102LP, the 12 isolation valve 163VP and the second pressure unit 003MP on the spot on the spot; The first electronic isolation valve 100VP is located on the water inlet pipe of the first current conveying device 1, and the water pipe picking out from the first pressure unit 001MP is connected to the water inlet pipe of the first current conveying device 1 after the 9th isolation valve 161VP; The first drain valve 104VP is located at the water pipe place that connects the first isolation valve 102VP and the first water pump 001PO, and the second drain valve 105VP is located at the water pipe place that connects the second isolation valve 103VP and the second water pump 003PO; From the first water pipe that tensimeter 101LP picks out on the spot after the tenth isolation valve 108VP with the cross current that is connected the first reverse checkvalve 106VP and the 3rd isolation valve 110VP, from the second water pipe that tensimeter 102LP picks out on the spot after the 11 isolation valve 109VP with the cross current that is connected the second reverse checkvalve 107VP and the 4th isolation valve 111VP; The water pipe picking out from the second pressure unit 003MP is communicated with the first rising pipe of the first current conveying device 1 after the 12 isolation valve 163VP.

As shown in Figure 3, the second current conveying device 2 also comprises the second electronic isolation valve 200VP, the 27 isolation valve 261VP, the 3rd pressure unit 002MP, the 7th drain valve 204VP, the 8th drain valve 205VP, the 28 isolation valve 208VP, the 3rd tensimeter 201LP, the 29 isolation valve 209VP, the 4th tensimeter 202LP, the 30 isolation valve 263VP and the 4th pressure unit 004MP on the spot on the spot; The second electronic isolation valve 200VP is located on the water inlet pipe of the second current conveying device 2, and the water pipe picking out from the 3rd pressure unit 002MP is connected to the water inlet pipe of the second current conveying device 2 after the 27 isolation valve 261VP; The 7th drain valve 204VP is located at the water pipe place that connects the 15 isolation valve 202VP and the 3rd water pump 002PO, and the 8th drain valve 205VP is located at the water pipe place that connects the 16 isolation valve 203VP and the 4th water pump 004PO; From the 3rd water pipe that tensimeter 201LP picks out on the spot after the 28 isolation valve 208VP with the cross current that is connected the 3rd reverse checkvalve 206VP and the 17 isolation valve 210VP, from the 4th water pipe that tensimeter 202LP picks out on the spot after the 29 isolation valve 209VP with the cross current that is connected the 4th reverse checkvalve 207VP and the 18 isolation valve 211VP; The water pipe picking out from the 4th pressure unit 004MP is communicated with the first rising pipe of the second current conveying device 2 after the 30 isolation valve 263VP.

Valve 102VP, 103VP, 110VP, 111VP are the isolation valves before and after water pump in water pump group 001PO/003PO, stop transport, isolate while overhauling and need to close at valve, and reverse checkvalve 106VP, 107VP are for preventing the reversion of water pump 001PO/003PO adverse current impeller; Valve 202VP, 203VP, 210VP, 211VP are the isolation valves before and after water pump in water pump group 002PO/004PO, stop transport, isolate while overhauling and need to close at valve, and reverse checkvalve 206VP, 207VP are for preventing the reversion of water pump adverse current impeller.

Valve 112VP, 113VP, 114VP, 115VP, 116VP, 117VP are for realizing the isolation of the first filtrator 001FI and the recirculating system setting to the first water tank 001BA; Valve 212VP, 213VP, 214VP, 215VP, 216VP, 217VP are for realizing the isolation of the second filtrator 002FI and the recirculating system setting to the second water tank 002BA.

As shown in Figure 1, the trainer of the present embodiment also comprises heat exchanger 001EX; The water pipe picking out from the first rising pipe of the first current conveying device 1 is connected to the water inlet of heat exchanger 001EX first passage, and the water delivering orifice of heat exchanger 001EX first passage is communicated with the water inlet of the first T-valve 310VP by water pipe; The water pipe picking out from the first rising pipe of the second current conveying device 2 is connected to the water inlet of heat exchanger 001EX second channel, and the water delivering orifice of heat exchanger 001EX second channel is communicated with the water inlet of the second T-valve 320VP by water pipe.

As shown in Figure 1, on the water route between the first rising pipe of the first current conveying device 1 and the water inlet of heat exchanger 001EX first passage, be provided with manual modulation valve combination unit 3.As shown in Figure 4, Fig. 4 is the structural representation of the utility model manual modulation valve combination unit 3 and heat exchanger 001EX mono-embodiment; Manual modulation valve combination unit 3 comprises the first manual modulation valve 171VP, the second manual modulation valve 172VP, the 3rd manual modulation valve 173VP, first flow transmitter 003MD, second transmitter 004MD and the 5th flow transmitter 005MD; Water pipe Fen Zuo tri-tunnels that pick out from the first rising pipe of the first current conveying device 1, one road water pipe connects the rising pipe of manual modulation valve combination unit 3 successively through the first manual modulation valve 171VP and first flow transmitter 003MD, another road water pipe connects the rising pipe of manual modulation valve combination unit 3 successively through the second manual modulation valve 172VP and second transmitter 004MD, also have a road water pipe through the 3rd manual modulation valve 173VP and the 5th flow transmitter 005MD, to connect successively the rising pipe of manual modulation valve combination unit 3.

As shown in Figure 5, Fig. 5 is the structural representation of the utility model container 010BA and periphery pipeline one embodiment; The trainer of the present embodiment also comprises container 010BA; The first T-valve 310VP and the second T-valve 320VP are located in container 010BA; The water pipe that connects the water inlet of the first T-valve 310VP and the water delivering orifice of heat exchanger 001EX first passage is provided with the first manual isolation valve 120VP, the water pipe that connects the second water delivering orifice of the first T-valve 310VP and the first water delivering orifice of the second water tank 002BA is provided with the second manual isolation valve 311VP, and the water pipe that connects the first water delivering orifice of the first T-valve 310VP and the first water inlet of the first water tank 001BA is provided with the 3rd manual isolation valve 312VP; The water pipe that connects the water inlet of the second T-valve 320VP and the water delivering orifice of heat exchanger 001EX second channel is provided with the 4th manual isolation valve 220VP, the water pipe that connects the second water delivering orifice of the second T-valve 320VP and the second water inlet of the second water tank 002BA is provided with the 5th manual isolation valve 321VP, and the water pipe that connects the first water delivering orifice of the second T-valve 320VP and the second water inlet of the first water tank 001BA is provided with the 6th manual isolation valve 322VP.

As shown in Figure 6 and Figure 7, Fig. 6 is the structural representation of the utility model the first water tank 001BA and periphery pipeline one embodiment; Fig. 7 is the structural representation of the utility model the second water tank 002BA and periphery pipeline one embodiment; For the first water tank 001BA, the second water tank 002BA realize water-filling, exhaust and hydrophobic emptying; the first water tank 001BA is also provided with the first water compensating valve 122VP, first row air valve 121VP, the 3rd drain valve 123VP and the first overpressure protection valve 361VP, and the second water tank 002BA is also provided with the second water compensating valve 222VP, second row air valve 221VP and the 6th drain valve 223VP.The first rising pipe place of the first current conveying device 1 is provided with the 4th drain valve 151VP (as shown in Figure 2); Heat exchanger 001EX is provided with the 5th drain valve 251VP (as shown in Figure 4); The rising pipe place of manual modulation valve combination unit 3 is provided with the 3rd flow transmitter 001MD (as shown in Figure 4); The first rising pipe place of the second current conveying device 2 is provided with the 4th flow transmitter 002MD (as shown in Figure 3); As shown in Figure 1, on the water pipe of connection the first valve 101VP and the second valve 201VP, be provided with successively the 13 isolation valve 301VP, the first pneumatic stopping valve 300VP and the 14 isolation valve 302VP; The first valve 101VP and the second valve 201VP are manual isolation valve, and the 4th valve 150VP is pneumatic control valve, and the 7th valve 250VP is electric control valve.

In whole trainer, be provided with a lot of hydrophobic points, so that whole device is emptying, consider especially the north of China freezing weather in winter, if remaining in pipeline, there is water, after freezing, may cause pipeline burst, therefore in this trainer, be designed with a lot of drainage points, for example: drain valve 104VP, 105VP, 151VP, 251VP, 204VP and 205VP.

For operations staff's anti-people, because of error training demand, the trainer of the present embodiment can be realized and the method for operation such as between single-row operation, parallel running, row, switch.On this basis, operations staff's behavior training course that can exploitation place various ways.

Below, several training courses that can select will be enumerated.

(1) can start the first water pump 001PO and/or the second water pump 003PO, the water in the first water tank 001BA is transported in the second water tank 002BA water tank;

Concrete flow path is: the first water tank 001BA---the first valve 101VP---the first electronic isolation valve 100VP---water pump group 001PO/003PO---the first filtrator 001FI---the 4th valve 150VP---manual modulation valve group 171VP/172VP/173VP---heat exchanger 001EX---the first T-valve 310VP---second manual isolation valve 311VP---the second water tank 002BA.

(2) can start the 3rd water pump 002PO and/or the 4th water pump 004PO, the water in the second water tank 002BA is transported in the first water tank 001BA;

Concrete flow path is: the second water tank 002BA---the second valve 201VP---the second electronic isolation valve 200VP---water pump group 002PO/004PO---the second filtrator 002FI---the 7th valve 250VP---heat exchanger 001EX---the second T-valve 320VP---the 6th manual isolation valve 322VP---the first water tank 001BA.

(3) if close the second valve 201VP, open valve 301VP, 300VP and 302VP, realized the in parallel of water pump group 001PO/003PO and water pump group 002PO/004PO, now can the water in the first water tank 001BA be transported in the second water tank 002BA with any water pump wherein;

Concrete flow path is: the first water tank 001BA---the first valve 101VP, divides afterwards and makes two-way:

One path, tunnel is: the first electronic isolation valve 100VP---water pump group 001PO/003PO---the first filtrator 001FI---the 4th valve 150VP---manual modulation valve group 171VP/172VP/173VP---heat exchanger 001EX---the first T-valve 310VP---second manual isolation valve 311VP---the second water tank 002BA;

Another path, road is: valve 301VP, 300VP, 302VP---the second electronic isolation valve 200VP---water pump group 002PO/004PO---the second filtrator 002FI---heat exchanger 001EX---the second T-valve 320VP---the 5th manual isolation valve 321VP---the second water tank 002BA.

(4) if close the first valve 101VP, open valve 302VP, 300VP and 301VP, realized the in parallel of water pump group 001PO/003PO and water pump group 002PO/004PO, now can the water in the second water tank 002BA be transported in the first water tank 001BA with any water pump wherein;

Concrete flow path is: the second water tank 002BA---the second valve 201VP, divides afterwards and makes two-way:

One path, tunnel is: the second electronic isolation valve 200VP---water pump group 002PO/004PO---the second filtrator 002FI---the 7th valve 250VP---heat exchanger 001EX---the second T-valve 320VP---the 6th manual isolation valve 322VP---the first water tank 001BA;

Another path is: valve 302VP, 300VP, 301VP---the first electronic isolation valve 100VP---water pump group 001PO/003PO---the first filtrator 001FI---heat exchanger 001EX---the first T-valve 310VP---the 3rd manual isolation valve 312VP---the first water tank 001BA.

(5) open recycle valve---the 3rd valve 118VP, can utilize water pump group 001PO/003PO to realize the water circulation of the first water tank 001BA;

Concrete flow path is: the first water tank 001BA---the first valve 101VP---the first electronic isolation valve 100VP---water pump group 001PO/003PO---the 3rd valve 118VP---the first water tank 001BA.

(6) open recycle valve---the 6th valve 218VP, can utilize water pump group 002PO/004PO to realize the water circulation of the second water tank 002BA;

Concrete flow path is: the second water tank 002BA---the second valve 201VP---the second electronic isolation valve 200VP---water pump group 002PO/004PO---the 6th valve 218VP---the second water tank 002BA.

For machinery overhaul personnel's anti-people, because of error training demand, this trainer has comprised valve and the water pump of Multiple Type, and all kinds of container, can meet thus the maintenance personal's of nuclear power plant various training demands.Domestic some nuclear power plant divides work " stationary machine personnel " and " rotary machine personnel " by machinery overhaul personnel at present, and this division is not yet done by some newly-built nuclear power plant.And this " operation behaviour standard " difference to some extent two class personnel's operating type is roughly the same, but details in operation pot still exists a lot of difference on requiring, that is:, these differences come from long-term working experience and the summary of lesson.

For stationary machine personnel's anti-people, because of error demand, on the trainer of the present embodiment, can carry out following training:

(1) in trainer, the first water tank 001BA, the second water tank 002BA, container 010BA are containers, can realize the outdoor scene training of " operation in container ";

(2) container 010BA particularly, specialized designs manhole door, blind plate and inner cat ladder, space is larger, can represent more typical closed container operation, is suitable for the most stationary machine personnel's training; Student must take strict anti-foreign matter measure before entering this container, should ventilate, oxygen determination, should take suitable lighting means, and special messenger's monitoring should be set at manhole door place;

(3) heat exchanger 001EX is heat-exchangers of the plate type, and the heat exchanger of the type is comparatively common at nuclear power scene, is suitable for training stationary machine maintainer relevant points for attention when carrying out this type of work;

(4) manual modulation valve group 171VP/172VP/173VP, the machinery personnel of nuclear power plant relate to more in the engineering debug stage, also easily arrange and make mistakes, therefore in this device, this three manual modulation valves have deliberately been increased, and in its downstream, flow transmitter 003MD, 004MD and 005MD have been installed respectively, to check online student whether correct to valve state setting;

(5) the 4th valve 150VP are pneumatic control valves, valve 300VP is pneumatic stop valve, and the 7th valve 250VP is electric control valve, and valve 100VP, 200VP are electronic isolation valves, valve 361VP is spring safety valve, and other valve is various manual isolation valves or manual modulation valve.And the stationary machine personnel of nuclear power plant are daily, just always come into contacts with the valve of these types, how to get rid of all kinds of faults, how to reduce the error in above-mentioned work, had these equipment, just can carry out corresponding anti-people because of error training.

Domestic existing anti-people nearly all isolates because of error training facilities or skill training facility, just valve or or a container just, if just with regard to the training function of individual equipment, the training function of these autonomous devices can meet mechanical personnel's training need, but how they are organically combined, can do you meet flight-line maintenance personnel's multiple training need simultaneously? after student's maintenance, can get into smooth, pass through working medium, so that really whether check " it is qualified to overhaul "? domestic existing trainer all cannot address this problem.And the present embodiment trainer adopts minimum system design, with minimized input, fully met above-mentioned requirements, that is: they are organically combined, can meet flight-line maintenance personnel's multiple training need simultaneously; After student's maintenance, the said equipment can be ventilated in water flowing energising, really gets into smooth, to check student's maintenance effect.

For rotary machine personnel's anti-people, because of error demand, on the trainer of the present embodiment, can carry out following training:

On this trainer, comprise four water pumps (001PO, 002PO, 003PO, 004PO), these water pumps have been selected the modal centrifugal pump of nuclear power plant when type selecting, and are all with shaft coupling, thus, can meet the most conventional training demand of rotary machine personnel.

Domestic just do not have so anti-people for rotary machine personnel design at present because of error training facilities at all.Carry out the research and development of this type of trainer, prerequisite is exactly that the type of mistake that will easily occur favourable turn personnel carries out deep analysis, then just likely carries out corresponding training course design and training facilities design.

For the instrument control class personnel's of nuclear power plant anti-people, because of error training demand, the present embodiment trainer has comprised the transmitter of various models:

(1) in order to meet instrument control electric information maintainer's training need, this system has taken into full account its demand.According to the on-the-spot common several transmitters of nuclear power station, this system has deliberately designed following transmitter: water level transmitter 001MN/002MN, pressure unit 001MP/002MP/003MP/004MP, flow transmitter 001MD/002MD and thermopair (measurement temperature) 001MT; Wherein: water level transmitter 001MN one end is communicated with the first water tank 001BA through the 31 isolation valve 124VP, the other end is communicated with the first water tank 001BA through the 32 isolation valve 125VP; Water level transmitter 002MN one end is communicated with the second water tank 002BA through the 33 isolation valve 224VP, and the other end is communicated with the second water tank 002BA through the 34 isolation valve 225VP.

(2) the various topworkies of corresponding control system, this system electric water pump 001PO-004PO, pneumatic valve (the 4th valve 150VP and the first pneumatic stopping valve 300VP), motorized valve (the first electronic isolation valve 100VP, the second electronic isolation valve 200VP and the 7th valve 250VP), electric heater 001RS.

Above-mentioned instrument control equipment is applicable to instrument control maintainer and carries out anti-people because of error training, compared to domestic current all kinds of anti-people because of trainer or device for training skill, the improvements of the present embodiment trainer are: aspect lectotype selection, fully realize the diversity of equipment principle structure, model, can meet instrument control personnel's power multiple training need simultaneously.Review domestic similar trainer, in lectotype selection, make every effort to " specification is consistent ", reduce the device type relating to as far as possible.If a control system often just controls water level and pressure, can design temperature, flow etc.; If there has been visual instrument on the spot, often dispense transmitter, with this, control cost.Such design no doubt has its saving grace, but aspect " functional diversity ", just must make sacrifice.

The mode of operation of the present embodiment trainer is roughly as follows:

(1) this trainer is placed in shut down condition at ordinary times, and power supply water source source of the gas is all isolated;

(2) carry out before training, user of service prepares in advance according to corresponding file, such as the water supply air feed etc. of switching on;

(3) when needs are carried out training, teacher and student carry out training according to corresponding training file and working specification, and these training files and working specification vary with each individual, and the personnel of different majors are different;

(3) when certain professional personnel carries out training, other specialties try not in this system, to attend class simultaneously, avoid interfering with each other, also avoid occurring the situation that certain equipment is used by two professional personnel simultaneously and may cause thus the mutual afoul situation of equipment state to occur;

(4) finish using, insulating power supply water source source of the gas, emptying water tank and ducted ponding.

Be in conjunction with concrete preferred implementation further detailed description of the utility model as mentioned above, can not assert that concrete enforcement of the present utility model is confined to these explanations.For the utility model person of an ordinary skill in the technical field, not departing under the utility model design prerequisite, can also make some simple deduction or replace, all should be considered as belonging to protection domain of the present utility model.

Claims (10)

1. anti-people, because of an error trainer, is characterized in that: comprise the first water tank (001BA), the second water tank (002BA), the first current conveying device (1), the first valve (101VP), the second valve (201VP) and the first T-valve (310VP); The water pipe picking out from the water delivering orifice of described the first water tank (001BA) connects the oral siphon of described the first current conveying device (1) after described the first valve (101VP); The water pipe picking out from the rising pipe of described the second water tank (002BA) connects the oral siphon of described the first current conveying device (1) after described the second valve (201VP); The water pipe picking out from the first rising pipe of described the first current conveying device (1) is connected to the water inlet of described the first T-valve (310VP), the water pipe picking out from the first water delivering orifice of described the first T-valve (310VP) is connected to the first water inlet of described the first water tank (001BA), and the water pipe picking out from the second water delivering orifice of described the first T-valve (310VP) is connected to the first water inlet of described the second water tank (002BA).

2. trainer according to claim 1, is characterized in that: also comprise the second current conveying device (2) and the second T-valve (320VP); The water pipe picking out from the water delivering orifice of described the second water tank (002BA) also connects the oral siphon of described the second current conveying device (2) after described the second valve (201VP); The water pipe picking out from the first rising pipe of described the second current conveying device (2) is connected to the water inlet of described the second T-valve (320VP), the water pipe picking out from the first water delivering orifice of described the second T-valve (320VP) is connected to the second water inlet of described the first water tank (001BA), and the water pipe picking out from the second water delivering orifice of described the second T-valve (320VP) is connected to the second water inlet of described the second water tank (002BA).

3. trainer according to claim 2, is characterized in that: the second rising pipe of described the first current conveying device (1) is connected with the 3rd water inlet of described the first water tank (001BA) by water pipe; The second rising pipe of described the second current conveying device (2) is connected with the 3rd water inlet of described the second water tank (002BA) by water pipe.

4. trainer according to claim 3, is characterized in that: described the first current conveying device (1) comprises the first isolation valve (102VP), the second isolation valve (103VP), the first water pump (001PO), the second water pump (003PO), the first reverse checkvalve (106VP), the second reverse checkvalve (107VP), the 3rd isolation valve (110VP), the 4th isolation valve (111VP), the 5th isolation valve (112VP), the 6th isolation valve (116VP), the first filtrator (001FI) and the 7th isolation valve (117VP), in described the first current conveying device (1), the water pipe picking out from the oral siphon of described the first current conveying device (1), described the first isolation valve (102VP) is passed through on one tunnel successively, described the first water pump (001PO), described the first reverse checkvalve (106VP), described the 3rd isolation valve (110VP) and described the 5th isolation valve (112VP) are connected to the first rising pipe of described the first current conveying device (1), described the second isolation valve (103VP) is passed through on another road successively, described the second water pump (003PO), described the second reverse checkvalve (107VP), described the 4th isolation valve (111VP), described the 6th isolation valve (116VP), described the first filtrator (001FI) and described the 7th isolation valve (117VP) are connected to the first rising pipe of described the first current conveying device (1), the water pipe and the cross current that is connected described the 4th isolation valve (111VP) and described the 6th isolation valve (116VP) that connect described the 3rd isolation valve (110VP) and described the 5th isolation valve (112VP).

5. trainer according to claim 4, is characterized in that: described the first current conveying device (1) also comprises the 8th isolation valve (114VP), the 3rd valve (118VP) and the 4th valve (150VP); The water pipe picking out from described the 5th isolation valve (112VP) is connected to the first rising pipe of described the first current conveying device (1) after described the 8th isolation valve (114VP), and the first rising pipe of described the first current conveying device (1) is provided with described the 4th valve (150VP); The water pipe that connects described the 5th isolation valve (112VP) and described the 8th isolation valve (114VP) is communicated with the second rising pipe of described the first current conveying device (1) again, and the second rising pipe of described the first current conveying device (1) is provided with described the 3rd valve (118VP).

6. trainer according to claim 5, is characterized in that: described the first current conveying device (1) also comprises the first electronic isolation valve (100VP), the 9th isolation valve (161VP), the first pressure unit (001MP), the first drain valve (104VP), the second drain valve (105VP), the tenth isolation valve (108VP), first tensimeter (101LP), the 11 isolation valve (109VP), second tensimeter (102LP), the 12 isolation valve (163VP) and the second pressure unit (003MP) on the spot on the spot; Described the first electronic isolation valve (100VP) is located on the water inlet pipe of described the first current conveying device (1), and the water pipe picking out from described the first pressure unit (001MP) is connected to the water inlet pipe of described the first current conveying device (1) after described the 9th isolation valve (161VP); Described the first drain valve (104VP) is located at the water pipe place that connects described the first isolation valve (102VP) and described the first water pump (001PO), and described the second drain valve (105VP) is located at the water pipe place that connects described the second isolation valve (103VP) and described the second water pump (003PO); From the described first water pipe that tensimeter (101LP) picks out on the spot after described the tenth isolation valve (108VP) with the cross current that is connected described the first reverse checkvalve (106VP) and described the 3rd isolation valve (110VP), from the described second water pipe that tensimeter (102LP) picks out on the spot after described the 11 isolation valve (109VP) with the cross current that is connected described the second reverse checkvalve (107VP) and described the 4th isolation valve (111VP); The water pipe picking out from described the second pressure unit (003MP) is communicated with the first rising pipe of described the first current conveying device (1) after described the 12 isolation valve (163VP).

7. trainer according to claim 6, is characterized in that: also comprise heat exchanger (001EX); The water pipe picking out from the first rising pipe of described the first current conveying device (1) is connected to the water inlet of described heat exchanger (001EX) first passage, and the water delivering orifice of described heat exchanger (001EX) first passage is communicated with the water inlet of described the first T-valve (310VP) by water pipe; The water pipe picking out from the first rising pipe of described the second current conveying device (2) is connected to the water inlet of described heat exchanger (001EX) second channel, and the water delivering orifice of described heat exchanger (001EX) second channel is communicated with the water inlet of described the second T-valve (320VP) by water pipe.

8. trainer according to claim 7, is characterized in that: on the water route between the first rising pipe of described the first current conveying device (1) and the water inlet of described heat exchanger (001EX) first passage, be provided with manual modulation valve combination unit (3); Described manual modulation valve combination unit (3) comprises the first manual modulation valve (171VP), the second manual modulation valve (172VP), first flow transmitter (003MD) and second transmitter (004MD); The water pipe picking out from the first rising pipe of described the first current conveying device (1) divides makes two-way, one road water pipe passes through the rising pipe that described the first manual modulation valve (171VP) and described first flow transmitter (003MD) connect described manual modulation valve combination unit (3) successively, and another road water pipe connects the rising pipe of described manual modulation valve combination unit (3) successively through described the second manual modulation valve (172VP) and described second transmitter (004MD).

9. trainer according to claim 7, is characterized in that: also comprise container (010BA); Described the first T-valve (310VP) and described the second T-valve (320VP) are located in described container (010BA); The water pipe that connects the water inlet of described the first T-valve (310VP) and the water delivering orifice of described heat exchanger (001EX) first passage is provided with the first manual isolation valve (120VP), the water pipe that connects the second water delivering orifice of described the first T-valve (310VP) and the first water delivering orifice of described water tank (002BA) is provided with the second manual isolation valve (311VP), and the water pipe that connects the first water delivering orifice of described the first T-valve (310VP) and the first water inlet of described water tank (001BA) is provided with the 3rd manual isolation valve (312VP); The water pipe that connects the water inlet of described the second T-valve (320VP) and the water delivering orifice of described heat exchanger (001EX) second channel is provided with the 4th manual isolation valve (220VP), the water pipe that connects the second water delivering orifice of described the second T-valve (320VP) and the second water inlet of described the second water tank (002BA) is provided with the 5th manual isolation valve (321VP), and the water pipe that connects the first water delivering orifice of described the second T-valve (320VP) and the second water inlet of described the first water tank (001BA) is provided with the 6th manual isolation valve (322VP).

10. trainer according to claim 9, is characterized in that: described the first water tank (001BA) is also provided with the first water compensating valve (122VP), first row air valve (121VP), the 3rd drain valve (123VP) and the first overpressure protection valve (361VP); The first rising pipe place of described the first current conveying device (1) is provided with the 4th drain valve (151VP); Described heat exchanger (001EX) is provided with the 5th drain valve (251VP); The rising pipe place of described manual modulation valve combination unit (3) is provided with the 3rd flow transmitter (001MD); The first rising pipe place of described the second current conveying device (2) is provided with the 4th flow transmitter (002MD); Connect on the water pipe of described the first valve (101VP) and described the second valve (201VP) and be provided with successively the 13 isolation valve (301VP), the first pneumatic stopping valve (300VP) and the 14 isolation valve (302VP); Described the first valve (101VP) and described the second valve (201VP) are manual isolation valve; Described the 4th valve (150VP) is pneumatic control valve or electric control valve.