CN112003280B - Portable three-phase load balanced type power distribution system for field tent hospital - Google Patents

Abstract

The invention provides a portable three-phase load balanced type power distribution system for field tent hospitals, which belongs to the technical field of power supply and distribution of field tent hospitals and comprises a generator set, a power supply transfer box and a distribution box, wherein the distribution box is provided with a switching power supply, an auxiliary controller and a contactor, the power supply transfer box is provided with a current transmitter and a main controller, and the main controller is in signal connection with the auxiliary controller; a phase sequence change-over switch is arranged in a power supply line of the distribution box, and manual adjustment of three-phase load balance can be achieved. The main controller judges whether the three-phase load is balanced or not by comparing the current difference between any two phases, and controls the contact action of the contactor through the auxiliary controller according to the received phase sequence information of the distribution box, so as to realize the online automatic adjustment of the three-phase load; the complete box type structure is convenient for carrying, airborne transportation and wiring; the power distribution system has reliable performance and stable power supply, and meets the power utilization requirements of field tent hospitals with various centralized or distributed expansion operation modes.

Description

Portable three-phase load balanced type power distribution system for field tent hospital

The application is a divisional application with application date 2018, 12 and 19, application number 201811558320.3 and invention name 'three-phase load balance type power guarantee system and method for field tent hospital'. The modifications are based on the text published by the mother case on 19/04 in 2019.

Technical Field

The invention belongs to the technical field of power supply and distribution of field tent hospitals, and particularly relates to a portable three-phase load balanced type power distribution system for field tent hospitals.

Background

The power supply and distribution system of the existing field tent hospital is usually integrated on a trailer, and supplies power to power utilization units such as medical treatment, illumination, medical oxygen, medical water, air conditioners and the like in various functional tents in a trailer-guaranteeing mode, and each general trailer can guarantee two tents, so that the multifunctional field tent hospital has the advantages that the functions are concentrated, the unfolding and the folding are rapid, but the multifunctional field tent hospital has the following defects for the full-element field tent hospital with full functions and large scale: (1) the method has the advantages that the method is not suitable for airborne transportation, and for the hospital deployment of the full-element field tent, a plurality of guarantee trailers are usually needed to meet the power supply and distribution requirements, the transportation capacity is greatly increased, and particularly, when a road is damaged, the box assembly cannot be completely realized, so that the method is not beneficial to the rapid delivery in the field; (2) the existing trailer type power supply and distribution system does not have a three-phase load balancing function, faults such as tripping operation, power failure and the like easily occur, an output interface is limited, the requirements of flexible layout and combination are not met, and wiring is not flexible.

Disclosure of Invention

In order to solve the problems, the invention provides a portable three-phase load balanced type power distribution system for field tent hospitals.

The invention adopts the following technical scheme:

the utility model provides a field tent hospital is with carrying three-phase load balanced formula distribution system of operation, includes generating set (1) and distribution unit, distribution unit includes power transfer box (2) and block terminal (4), and power transfer box (2) connect the electric power that generating set (1) produced to block terminal (4) in each tent to by block terminal (4) convert three phase current into single phase current and each consumer of configuration in the direct current 24V power access tent, wherein:

the power distribution box (4) is provided with a switching power supply (42), an auxiliary controller (41) and a contactor (43), the switching power supply (42) is used for converting any alternating voltage in a three-phase power supply line of the power distribution box (4) into direct voltage and providing power for the auxiliary controller (41), a control coil of the contactor (43) is respectively connected to the output end of the auxiliary controller (41), contacts of KM1, KM2 and KM3 of the contactor (43) are respectively connected in series in the three-phase power supply line, and the auxiliary controller (41) is used for detecting phase sequence information of the power distribution box (4) connected with the auxiliary controller;

the power supply transfer box (2) is provided with a current transmitter (22) and a main controller (21), the main controller (21) is in signal connection with an auxiliary controller (41), the main controller (21) is used for receiving three-phase current information fed back by the current transmitter (22), whether three-phase load is balanced or not is judged by comparing a current difference value between any two phases with a set value, phase sequence information of a distribution box is sent to the auxiliary controller (41) in the distribution box needing to adjust the phase sequence, the auxiliary controller (41) controls contact action of a contactor (43), and a power supply line of the distribution box (4) in the phase sequence state with the heaviest load is adjusted to be in the phase sequence state with the lightest load.

In the portable three-phase load balanced type power distribution system for the field tent hospital, the power supply transfer box (2) is provided with the first communication module (23), the distribution box (4) is provided with the second communication module (44), and the main controller (21) is communicated with the auxiliary controller (41) through the first communication module (23) and the second communication module (44).

In the portable three-phase load balanced distribution system for the field tent hospital, the signal connection mode between the main controller (21) and the auxiliary controller (41) is a wired communication mode, a wireless short-range communication mode or a power carrier mode, wherein the wireless short-range communication mode is any one of a Wireless Local Area Network (WLAN), a Bluetooth, a ZigbBee, a near field wireless transmission (NFC) and a wireless fidelity (Wifi).

In the above-mentioned field tent hospital is with carrying in operation three-phase load balanced type distribution system, power supply changeover box (2) includes:

the input end (24) comprises a three-phase input end (241) and a single-phase input end (242) which are respectively connected with a three-phase output power supply and a single-phase output power supply of the generating set (1);

the first power main switch (213) is connected in series in a power supply line and has the functions of short circuit and overload protection;

and the power supply change-over switch (28) is connected between the input end (24) and the first power supply main switch (213) in series and is used for switching between the single-phase input end (242) and the three-phase input end (241).

In the portable three-phase load balanced power distribution system for the field tent hospital, the power adapter box (2) comprises a phase sequence protection module (215), the phase sequence protection module (215) is connected into a three-phase power supply line of a three-phase input end (241), and comprises a phase sequence protection relay KA1, a phase sequence fault audible and visual alarm HL4, a contactor KM4 and a safety FU2, the contactor KM4 is divided into two parts, one part is a KM4 control coil and is connected to an output end OUT1 of the phase sequence protection relay KA1 through a safety FU2, and the other part is a KM4 contact, namely a P1-P2 contact, a P3-P4 contact and a P5-P6 contact which are respectively connected in series in the three-phase power supply line; and the phase sequence fault audible and visual alarm HL4 is connected to the output end OUT3 of the phase sequence protection relay KA 1.

The invention also provides another portable three-phase load balanced distribution system for field tent hospitals, which comprises a generator set (1), a power supply transfer box (2) and a distribution box (4), wherein the power supply transfer box (2) transfers the power generated by the generator set (1) to the distribution box (4) in each tent, and the distribution box (4) converts a three-phase power supply into a single-phase power supply and a direct-current 24V power supply to be connected to each power utilization device configured in the tent, wherein:

an ammeter (27) is arranged on a power supply line between the power supply transfer box (2) and the generator set (1), and the ammeter (27) is a three-phase ammeter and is used for detecting and displaying current values of the A phase, the B phase and the C phase;

the distribution box (4) is provided with a three-phase input interface (48), a second circuit breaker (413) and a phase sequence conversion switch (45), the three-phase input interface (48) leads out a plurality of single-phase output interfaces (410) through the second circuit breaker (413), the phase sequence conversion switch (45) is connected in series on a power supply line between the second circuit breaker (413) and the three-phase input interface (48), and the phase sequence conversion switch (45) is provided with a knob capable of indicating the phase sequence of the phase sequence conversion switch;

wherein, the display value of the ammeter (27) is used for comparing the current difference between any two phases with a set value to judge whether the three-phase load is balanced; and the phase sequence change-over switch (45) is used for indicating the power phase sequence of the equipment connected with the corresponding distribution box (4) according to the position of the knob of the phase sequence change-over switch, and adjusting the power phase sequence of the equipment connected with the distribution box by rotating the knob of the phase sequence change-over switch (45) so as to realize three-phase load balance.

In the portable three-phase load balanced distribution system for the field tent hospital, the phase sequence transfer switch (45) has eight pairs of contacts, the input ends of the contacts Q1, Q3, Q5 and Q7 are respectively electrically connected with the phase A, the phase B, the phase C and the zero line N in a three-phase circuit, the zero line N of the single-phase output interface (410) is led out from the output end of the contact Q8, the output ends of the contacts Q2, Q4 and Q6 are connected together and electrically connected with the input end of the second circuit breaker (413), and the pull-in or the disconnection between the output ends of the contacts Q1, Q3 and Q5 and the input ends of the contacts Q2, Q4 and Q6 and between the output end of the contact Q7 and the input end of the contact Q8 are controlled by the knob of the phase sequence transfer switch (45).

In the above-mentioned field tent hospital is with carrying in operation three-phase load balanced type distribution system, power supply changeover box (2) includes:

the input end (24) comprises a three-phase input end (241) and a single-phase input end (242) which are respectively connected with a three-phase output power supply and a single-phase output power supply of the generating set (1);

the first power main switch (213) is connected in series in a power supply line and has the functions of short circuit and overload protection;

a power supply changeover switch (28) connected in series between the input terminal (24) and the first power main switch (213) for switching between the single-phase input terminal (242) and the three-phase input terminal (241);

and the output end (25) comprises a three-phase output end (251) and a single-phase output end (252), the three-phase output end (251) is led out from the output end of the power supply change-over switch (28) through the first power supply main switch (213) and the first circuit breaker (214) in sequence, and the single-phase output end (252) is led out from the output end of the power supply change-over switch (28) through the first power supply main switch (213).

In the portable three-phase load balanced power distribution system for the field tent hospital, the power adapter box (2) comprises a phase sequence protection module (215), the phase sequence protection module (215) is connected into a three-phase power supply line of a three-phase input end (241), and comprises a phase sequence protection relay KA1, a phase sequence fault audible and visual alarm HL4, a contactor KM4 and a safety FU2, the contactor KM4 is divided into two parts, one part is a KM4 control coil and is connected to an output end OUT1 of the phase sequence protection relay KA1 through a safety FU2, and the other part is a KM4 contact, namely a P1-P2 contact, a P3-P4 contact and a P5-P6 contact which are respectively connected in series in the three-phase power supply line; and the phase sequence fault audible and visual alarm HL4 is connected to the output end OUT3 of the phase sequence protection relay KA 1.

In the above-mentioned field tent hospital is with carrying in operation three-phase load balanced type distribution system, power transfer box (2) still includes:

the leakage protection power switch (218), the leakage protection power switch (218) is connected in series in the power supply line between the first power main switch (213) and the first breaker (214);

a voltmeter (26) and a first indicator light (29) on a power supply line between a first main power switch (213) and a first circuit breaker (214);

the lightning arrester (210) is arranged at a single-phase input end (242) and a three-phase input end (241) of the power supply transfer box (2) respectively and connected between a single-phase line or a three-phase line and a ground wire.

Different from the prior art, the invention has the following beneficial effects:

(1) through set up main control unit in the power transfer box, set up auxiliary control unit in the block terminal, auxiliary control unit detects the power phase sequence that all electrical equipment that its connection connects, and feed back the phase sequence information that each block terminal is located to main control unit, main control unit is through the size of comparison three-phase current, judge the block terminal that needs to switch the power supply line phase sequence, and send control command to auxiliary control unit, the block terminal of the power supply line of control load heaviest switches to the power supply line of load lightest, realize online automatically regulated three-phase load.

(2) The phase sequence change-over switch is arranged on the power supply line of the power supply transfer box, the ammeter is arranged on the power supply line of the power supply transfer box, the power distribution box is connected with the output end of the power supply transfer box, and the phase sequence of the power supply line of the electrical equipment connected with the power distribution box can be changed by manually adjusting the phase sequence change-over switch of the corresponding power distribution box according to the three-phase load condition displayed by the ammeter so as to realize the balance of the three-phase load.

(3) The power supply changeover switch is arranged in the power supply changeover box, so that the three-phase power supply (380V) and the single-phase power supply (220V) can be flexibly switched according to actual conditions, the operation of rewiring is omitted, and meanwhile, the wiring error is avoided; and the phase sequence protection module is connected to the three-phase input end of the power supply transfer box, and once the three-phase power supply sequence is connected in a wrong way, the power supply circuit is cut off in time, so that the electrical equipment on the power supply circuit is protected.

(4) The box type structure is completely realized through the structures of the power supply transfer box, the lighting accessory box and the distribution box, and the carrying, the airborne transportation and the wiring are convenient;

(5) the power supply transfer box is internally provided with a bracket and a cable reel which can be rotatably arranged on the bracket, and the bracket is of a detachable structure and can be fixed by a clamping mechanism, so that a main power supply circuit can be conveniently and quickly erected; the upper end of block terminal is provided with a handle, and firstly the transport of being convenient for, secondly can hang on the couple of tent through the handle, the installation wiring of being convenient for.

The three-phase load balanced power distribution system has reliable performance and stable power supply, and meets the power utilization requirements of field tent hospitals with various centralized or distributed expansion operation modes.

Drawings

FIG. 1 is a schematic view of the deployment of the field tent hospital based on a centralized layout of the present invention;

FIG. 2 is a schematic diagram of the deployment of the field tent hospital based on a decentralized layout of the present invention;

FIG. 3 is a schematic block circuit diagram of a power adapter box;

FIG. 3A is a circuit schematic of a phase sequence protection module;

FIG. 4 is a schematic front view of a power adapter box;

FIG. 5 is a rear schematic view of a power adapter box;

FIG. 6 is a circuit schematic of a power transfer switch;

fig. 6A is an external plan view of the power supply changeover switch;

FIG. 7 is a schematic view of the closed configuration of the lighting accessory cabinet;

FIG. 8 is a schematic view of the lighting accessory cabinet shown open;

FIG. 9 is a schematic block circuit diagram of a distribution box;

FIG. 10 is a schematic diagram of the distribution box after opening;

FIG. 11 is a circuit schematic of a distribution box;

fig. 12 is an external plan view of the phase-sequence changeover switch;

FIG. 13 is a schematic diagram of a phase sequence switch;

FIG. 13A is an equivalent circuit schematic diagram of the phase sequence switch switching to phase A supply;

FIG. 13B is an equivalent circuit schematic diagram of the phase sequence switch switching to the B phase supply;

fig. 14 is a schematic diagram of connection of an Uninterruptible Power Supply (UPS).

FIG. 15 is a control schematic of three phase load self balancing;

FIG. 16 is a control schematic of the auxiliary controller;

FIG. 17 is a schematic diagram of the operation of the primary and secondary controllers using wired communication;

fig. 18 is a control flow chart of three-phase load self-balancing.

The main reference numbers:

1-a generator set;

2-a power supply transfer box, 21-a main controller, 22-a current transmitter, 23-a first communication module, 24-an input end, 241-a three-phase input end, 242-a single-phase input end and 243-a grounding pile; 25-output, 251-three-phase output, 252-single-phase output; 26-voltmeter, 27-ammeter, 28-power supply change-over switch, 29-first indicator light, 210-lightning arrester, 211-lightning protection switch, 212-three-phase output switch group, 213-first power supply main switch, 214-first circuit breaker, 215-phase sequence protection module, 216-cable reel, 217-bracket, 218-leakage protection power supply switch;

3-lighting accessory box, 31-emergency lamp, 32-tent lighting lamp, 33-cable, 34-power strip, 35-box body, 36-box cover;

4-distribution box, 41-auxiliary controller, 42-switching power supply, 43-contactor, 44-second communication module, 45-phase sequence transfer switch, 46-second indicator light, 47-grounding terminal, 48-three-phase input interface, 49-three-phase output interface, 410-single-phase output interface, 411-single-phase output switch group, 412-second power main switch (with leakage protection), 413-second circuit breaker, 414-lighting output interface; 415-box, 416-handle;

5: an Uninterruptible Power Supply (UPS).

Detailed Description

In order to ensure that the field tent hospital can smoothly carry out medical treatment and treatment under the field condition, the rapid deployment and normal operation of a power supply system are required to be ensured, and the problems of difficult airborne transportation (incomplete box type structure), inflexible wiring, three-phase imbalance of a power grid and the like of the conventional power supply and distribution equipment of the field tent hospital are solved, the invention provides a three-phase load balanced power guarantee system for the field tent hospital, namely a three-phase load balanced distribution system (hereinafter, the three-phase load balanced power guarantee system is the three-phase load balanced distribution system) for carrying and running in field tent hospitals, the system realizes the balance of three-phase load by manually or automatically adjusting the phase sequence of the power supply lines of the distribution boxes in each tent, through reasonable box-type and box-type structural design, airborne transportation, carrying and wiring are facilitated, and a box-type structure is realized; the system adopts various technical means to ensure the reliability and stability of power supply of the power system, can realize quick erection of a power supply line, and is convenient for fault location and maintenance.

The following describes in detail a three-phase load balancing type power support system and method for a field tent hospital according to the present invention with reference to the accompanying drawings and specific embodiments.

The field tent hospital generally comprises functional modules for commanding, triage, operation, first aid, inspection/pharmacy, sickroom, X-ray diagnosis, medical technology support and the like, and can deploy the power support system according to the centralized layout (see figure 1) or the distributed layout (see figure 2) according to the site terrain, the ground conditions and the requirements of a task execution site during field operation. As shown in fig. 1 and 2, the three-phase load balancing type power support system of the present invention includes a generator set 1, a power supply adaptor box 2, and a distribution box 4, wherein the generator set 1 generates power according to the total power demand, and is connected to each power consumption device through the power supply adaptor box 2 and the distribution box 4.

According to the electricity demand of the tent hospital, the generator set 1 can be a single set or a plurality of sets; when a plurality of sets are adopted, an independent power supply mode or a grid-connected power supply mode can be adopted; the type selection of the generator set 1 is influenced by factors such as the total power consumption of electric equipment in the field tent hospital, the storage and transportation mode, the layout mode of the field tent hospital and the like, for example, in the embodiment shown in fig. 1, the field tent hospital is in a centralized layout, the total power consumption is about 82kW, in actual operation, not all the equipment are in a simultaneous use state, usually, the maximum power consumption is 80% -90% of the maximum power consumption, the required maximum power supply electric quantity is not more than 75kW, 2 generator sets with a grid-connected function and 2 portable generator sets with 8.5kW are combined, and the total power supply is 77 kW. The generator set 1 provides at least one single phase output power supply (typically provided by an 8.5kW portable generator) and at least one three phase output power supply, typically providing 380V power, typically 220.

The power supply transfer box 2 is mainly used for transferring an external power supply to the distribution box 4 in each tent. As shown in fig. 3 to 6, the power supply junction box 2 includes an input terminal 24, a power supply changeover switch 28, a first power main switch 213, an output terminal 25, and a first circuit breaker 214, wherein:

the input terminal 24 includes a three-phase input terminal 241 and a single-phase input terminal 242, and may be implemented as a standard plug or a lead-out connector, which are respectively connected to a three-phase output power supply and a single-phase output power supply of the generator set 1, in the embodiment shown in fig. 5, both the three-phase input terminal 241 and the single-phase input terminal 242 are in the form of a socket.

The power supply change-over switch 28 is connected in series between the input end 24 and the first power supply main switch 213, the single-phase input end 242 and the three-phase input end 241 are both connected to the power supply change-over switch 28, and the power supply change-over switch 28 is used for switching between the single-phase input end 242 and the three-phase input end 241, so that the three-phase power supply and the single-phase power supply can be freely switched for different application occasions, frequent wiring operation is omitted, and errors are avoided. Referring to fig. 6, the status bits of the switching process of the power switch 28 are shown in table 1, and the following details are shown:

as shown in fig. 6A, when the power source changeover switch 28 is rotated to 0 ° (the knob is in the vertical direction), the power supply line is in the off state, and at this time, the contacts S1 to S16 are all in the off state; when the power supply changeover switch 28 rotates to-60 degrees, the power supply line is switched to a three-phase power supply for supplying power, at the moment, the contacts S1 to S8 are in a pull-in state, and the contacts S9 to S16 are in a disconnected state; when the power supply changeover switch 28 rotates to 60 degrees, the power supply line is switched to the single-phase power supply, at the moment, the contacts S1 to S8 are in an off state, and the contacts S9 to S16 are in an attraction state.

TABLE 1 Power supply changeover switch status bits in the Power supply changeover Box

Contact point	-60 ° (three phases)	0 degree (Break)	60 ° (single phase)
				S1——S2	Tong (Chinese character of 'tong')	Disconnect	Disconnect
S3——S4	Tong (Chinese character of 'tong')	Disconnect	Disconnect
				S5——S6	Tong (Chinese character of 'tong')	Disconnect	Disconnect
S7——S8	Tong (Chinese character of 'tong')	Disconnect	Disconnect
				S9——S10	Disconnect	Disconnect	Tong (Chinese character of 'tong')
S11——S12	Disconnect	Disconnect	Tong (Chinese character of 'tong')
				S13——S14	Disconnect	Disconnect	Tong (Chinese character of 'tong')
S15——S16	Disconnect	Disconnect	Tong (Chinese character of 'tong')

As shown in fig. 3, the output terminal 25 includes a three-phase output terminal 251 and a single-phase output terminal 252, the three-phase output terminal 251 is led out from the output terminal of the power switch 28 through the first power main switch 213 and the first circuit breaker 214, and the single-phase output terminal 252 is led out from the output terminal of the power switch 28 through the first power main switch 213.

The first power main switch 213 is connected in series in the power supply line and has short circuit and overload protection functions; a leakage protection power switch 218 is also connected in series in the power supply line between the first power main switch 213 and the output end 25, mainly has a leakage protection function, and can cut off the power supply when the line or equipment leaks electricity to protect personnel safety; the voltmeter 26, the ammeter 27 and the first indicator lamp 29 are connected to lines among the first power main switch 213, the leakage protection power switch 218 and the first circuit breaker 214, the first indicator lamp 29 is used for indicating the working state of the A, B, C three-phase circuit, the voltmeter 26 and the ammeter 27 are both three-phase ammeters, three-phase electrical parameters (voltage or current values) can be measured in real time, the voltmeter 26 is directly connected to the three-phase circuit, the ammeter 27 is connected to the three-phase circuit through a mutual inductor and is converted into a small current signal value of 4-20 mA or a small voltage signal value of 0-5V, the small current signal values are fed back to the ammeter 27 to be processed, and the calculated phase A, phase B and phase C current values are displayed on an ammeter LED display window.

The single-phase input end 242 and the three-phase input end 241 of the power supply transfer box 2 are both provided with the lightning arrester 210, and the lightning arrester 210 is respectively connected between a single-phase line or a three-phase line and a ground wire, so that the line or electrical equipment is prevented from being damaged by lightning overvoltage and operation overvoltage. The first circuit breaker 214 is embedded with an overcurrent/overvoltage module, which has short circuit, overcurrent, and overvoltage protection functions, and respectively controls on/off of each power supply branch to protect electrical equipment connected to each branch.

The three-phase input end 241 is further provided with a phase sequence protection module 215, the phase sequence protection module 215 is connected into a three-phase line, and when the phase sequence in the line does not accord with the specified phase sequence, the phase sequence relay triggers to act, cut off the power supply of the line and protect the line and electrical equipment on the line. Fig. 3A is a schematic circuit diagram of the phase sequence protection module 215, and as shown in fig. 3A, the phase sequence protection module 215 includes a phase sequence protection relay KA1, a phase sequence fault audible and visual alarm HL4, a contactor KM4 and a safety FU2, the contactor KM4 is divided into two parts, one part is a KM4 control coil, and is connected to an output terminal OUT1 of the phase sequence protection relay KA1 through the safety FU2, and the other part is a KM4 contact, that is, a P1-P2 contact, a P3-P4 contact and a P5-P6 contact, which are respectively connected in series in a three-phase line.

When the three-phase input phase sequence of the power adapter box 2 is correct, the output end OUT1 of the phase sequence protection relay KA1 outputs voltage, two ends of a control coil of the contactor KM4 are electrified, so that a P1-P2 contact, a P3-P4 contact and a P5-P6 contact of the contactor KM4 are attracted, and the power adapter box 2 outputs three-phase electricity meeting the phase sequence requirement to each three-phase electrical device; when the three-phase input phase sequence of the power supply transfer box 2 is incorrect, the output end OUT3 of the phase sequence protection relay KA1 outputs voltage, the phase sequence fault audible and visual alarm HL4 is electrified to send OUT audible and visual alarm information to remind a worker to adjust the phase sequence of the three-phase input end, at the moment, the output end OUT1 of the phase sequence protection relay KA1 does not output voltage, the control coil of the contactor KM4 is not electrified, then the P1-P6 of the contactor KM4 does not attract, and the circuit of the power supply transfer box 2 is disconnected.

Referring to fig. 4 and 5, in this embodiment, the power adapter box 2 is a box structure, and a front panel of the power adapter box 2 is provided with a first indicator light 29, a display screen of the voltmeter 26 and the ammeter 27, and a knob of the power switch 28, where in this embodiment, the first indicator light 29 includes an indicator light and a phase sequence fault indicator light of an a-phase, a B-phase, and a C-phase three-phase power supply; the inside support 217 and the rotatable cable drum 216 of installing on support 217 that is provided with of box of power transfer box 2, support 217 are detachable construction, and an accessible chucking mechanism is fixed, is convenient for erect main power supply circuit fast. The rear panel of the power supply transfer box 2 is provided with a three-phase input end (380V)241, a single-phase input end (220V)242, a grounding pile 243, a three-phase output end (380V)251, a single-phase output end (220V)252, a three-phase output switch group 212, an arrester 210, an arrester switch 211 and a first power supply main switch 213. Preferably, the front panel and the rear panel of the power supply transfer box 2 are both provided with a box door which can be hinged with the box body, and the front panel and the rear panel can be sealed in the box body after the box door is buckled or locked.

Fig. 7 and 8 are structural views of the lighting accessory box 3. As shown in fig. 7 and 8, the lighting accessory box 3 includes a box main body 35 and a box cover 36, the box cover 36 is hinged to the box main body 35, the box cover 36 can be turned over along the hinged portion, the box main body 35 is a box body with an upper opening, a buffer lining made of a damping sponge (made of polyurethane or polyethylene foam buffer material) is arranged in the box main body 35, a plurality of grooves are formed in the buffer lining and used for accommodating the emergency lamp 31, the tent lighting lamp 32, the cable 33, the power strip 34, the grounding pile 243 and the distribution box 4 respectively, and the box cover 36 covers the opening of the box main body 35, so that the box is convenient to carry and protects all components from being damaged in the transportation process.

The distribution box 4 converts the three-phase power supply of the power supply transfer box 2 into a single-phase power supply and a 24V power supply, supplies the single-phase power supply and the 24V power supply to the electric equipment with low power in the tent, and can directly transfer the power from the power supply transfer box 2 to the electric equipment with high power. As shown in fig. 9 to 11 (fig. 11 shows the components and numbers represented by the symbols in each case in conformity with those shown in table 2), the distribution box 4 includes a three-phase input interface 48, a three-phase output interface 49, a second main power switch (with leakage protection) 412, a second circuit breaker 413, a lighting output interface 414, a single-phase output interface 410, a second indicator light 46, and a phase sequence changeover switch 45, wherein:

the three-phase input interface 48 is electrically connected with the three-phase output end 251 of the power supply adapter box 2, the input aviation plug of the cable 33 in the lighting accessory box 3 in the tent can be connected with the three-phase output aviation plug of the power supply adapter box 2 in a fast plug mode, and the output aviation plug of the cable 33 is connected with the input aviation plug of the three-phase input interface 48 of the power distribution box 4 in the tent in a fast plug mode. The three-phase output interface 49 leads directly from the three-phase input interface 48 for supplying electrical power to the electrical device with a higher power.

The second power main switch 412 is connected in series in the power supply line of the distribution box, and controls the on/off of the power supply line of the distribution box 4. The three-phase input interface 48 leads out a plurality of single-phase output interfaces 410 through a second power main switch 412 and a second circuit breaker 413, the three-phase input interface 48 leads out an illumination output interface 414 through the second power main switch 412, the second circuit breaker 413 and a direct-current power converter G1, and the second circuit breaker 413 has functions of short-circuit protection and overload protection.

TABLE 2 reference table of circuit symbol, part name and label

The phase sequence transfer switch 45 is connected between the second circuit breaker 413 and the second power main switch 412 in series, and the phase sequence transfer switch 45 can transfer the electrical equipment connected with the single-phase output interface 410 and the lighting output interface 414 to the a phase, the B phase or the C phase, so that the three-phase load balance is facilitated by adjusting the load of the three-phase power supply. Referring to fig. 13, the state bits of the phase-sequence transfer switch 45 during the conversion process are shown in table 3, which is as follows:

in fig. 13, the dotted line portion is an internal contact structure of a phase sequence transfer switch (SA1)45, and there are eight pairs of contacts, the input ends of contacts Q1, Q3, Q5 and Q7 are respectively electrically connected with phase a, phase B, phase C live wire and neutral wire N in a three-phase line, the output end of contact Q8 leads out the neutral wire N of the single-phase output interface 410, the output ends of contacts Q2, Q4 and Q6 are connected together and electrically connected with the input end of the second circuit breaker 413, and the engagement or disengagement between the output ends of contacts Q1, Q3 and Q5 and the input ends of contacts Q2, Q4 and Q6 and between the output end of contact Q7 and the input end of contact Q8 is controlled by a knob of the phase sequence transfer switch 45.

The phase sequence change-over switch status bits are shown in table 3. As shown in fig. 12, when the phase-sequence changeover switch 45 is rotated to 0 ° (the knob is vertically upward), the power supply line is in an off state, and at this time, the Q1 to Q8 contacts are all in an off state; when the phase sequence change-over switch 45 rotates to-90 degrees, the power supply circuit provides power for the electrical equipment with single-phase voltage (220V, 50Hz) consisting of an A-phase live wire, a zero line N and a ground wire, at the moment, the contacts Q1-Q2 and Q7-Q8 are in a pull-in state, and the contacts Q3-Q4 and Q5-Q6 are in a disconnection state (see FIG. 13A); when the phase sequence change-over switch 45 rotates to 90 degrees, the power supply line provides power for the electrical equipment, and the power supply line provides single-phase voltage (220V, 50Hz) consisting of a B-phase live wire, a zero line N and a ground wire, at the moment, the contacts Q3-Q4 and Q7-Q8 are in attraction states, and the contacts Q1-Q2 and Q5-Q6 are in disconnection states (see FIG. 13B); similarly, when the phase sequence switch 45 rotates to 180 °, the power supply line supplies a single-phase voltage (220V, 50Hz) composed of a C-phase live wire, a neutral wire N and a ground wire to the electrical device, and at this time, the Q5-Q6 contact and the Q7-Q8 contact are both in a pull-in state, and the Q1-Q2 contact and the Q3-Q4 contact are both in a disconnection state.

TABLE 3 phase sequence Change-over switch status bit

A second indicator lamp 46 is further arranged on the power supply line between the second power main switch 412 and the phase sequence change-over switch 45 and used for indicating the power supply states of the A-phase, B-phase and C-phase three-phase lines in the power supply line.

As shown in fig. 10, a second indicator lamp 46, a knob of the phase sequence change-over switch 45, a second main power switch 412, a single-phase output switch group 411, a single-phase output interface 410, a three-phase input interface 48, a three-phase output interface 49, and a second grounding pole 47 are arranged on a front panel of the distribution box 4, the single-phase output switch group 411 includes three single-phase output switches and one lighting switch, each switch can be independently switched on and off, and a three-phase or single-phase output socket is also arranged on a side surface of a box body 415 of the distribution box 4, so that as many output interfaces as possible are expanded. The distribution box 4 is a box-shaped structure, and a handle 416 is arranged at the upper end of the box body 415 of the distribution box 4, so that the distribution box is convenient to carry, and can be hung on a hook of a tent through the handle 416, and the installation and wiring are convenient.

In emergency operation occasions in emergency treatment and operation tents in field tent hospitals, continuous power supply needs to be ensured so as to ensure the smooth proceeding of emergency medical treatment such as emergency treatment and operation (see fig. 1). The invention relates to a UPS (uninterrupted power supply) 5 which is connected between a distribution box 4 and electrical equipment in series, and particularly to a device shown in figure 14.

The UPS uninterruptible power supply 5 has two structural forms, and its operating modes are:

the first mode of operation: the power at the output end of the distribution box 4 is inverted by a storage battery inside the UPS and then is supplied to the electrical equipment, and the output end of the distribution box 4 is used as a power supply to be rectified and then is charged to the storage battery;

the second working mode is as follows: the UPS is internally provided with a control circuit which can monitor an external power supply, and when the condition that the external power supply normally supplies power is monitored, the control circuit of the UPS sends out a control command to directly supply power to the electrical equipment by the external power supply; when the external power supply is suddenly powered off, the UPS control circuit sends a control command, the working mode that the internal storage battery is inverted to supply power to the electrical equipment is immediately switched, the switching time is usually ms, and emergency medical treatment such as operation and first aid is not influenced.

The three-phase load balance type power guarantee system is formed by installing the components in the connection relation, can realize three-phase load balance of the power guarantee system of a field tent hospital through manual adjustment, and specifically comprises the following steps:

step one, whether three-phase load is balanced or not is judged by observing the display numerical value of an ammeter 27 of the power supply transfer box 2, namely whether the difference value of the current numerical values of any two phases of the A phase, the B phase and the C phase exceeds a set value or not, if the difference value is judged to be unbalanced, the step two is carried out, and if the difference value is not balanced, the step one is carried out, otherwise, the step one is repeated until the power supply of a field tent hospital is finished.

Step two, observing the position of a knob of a phase sequence change-over switch 45 on a distribution box 4 connected with the power supply transfer box 2, judging the phase sequence of the power supply used by the electrical equipment of the tent in which the distribution box 4 is positioned, if the power supply used by the electrical equipment connected with the distribution box 4 is in the phase sequence state with the heaviest load, rotating the knob of the phase sequence change-over switch 45, and returning to the step one when the rotation is changed to the phase sequence state with the lightest load; otherwise, observing the phase sequence state of the next distribution box 4, and repeating other operations in the second step.

The adjusting scheme has the advantages that under the field condition, the equipment is simplified and lightened manually, the tent where the adjusted distribution box 4 is located can be informed through manual intervention, the key operation work is stopped during adjustment, and the proper time is selected, so that the influence of power supply disturbance caused by phase sequence conversion on electrical equipment is avoided; the method has the defects that the scheme mainly depends on manual experience and judgment, the labor intensity is high, and the adjustment is not timely.

In order to reduce labor intensity and save labor cost, an automatic adjustment method can be adopted, and the implementation of the method needs to add matched hardware, that is, as shown in fig. 15 and fig. 16, a main controller 21, a current transmitter 22 and a first communication module 23 are additionally arranged in a power supply transfer box 2, an auxiliary controller 41, a switching power supply 42, a contactor 43 and a second communication module 44 are additionally arranged in a distribution box 4, the current transmitter 22 is used for detecting each phase current of a three-phase output power supply 11 of a generator set 1 and converting the current parameter thereof into a 4mA-20mA signal to be output to the main controller 21, the switching power supply 42 converts any alternating current 220V voltage in a three-phase input interface 48 of the distribution box 4 into 24V or 12V direct current voltage and provides power for the auxiliary controller 41, the output end of the auxiliary controller 41 is respectively connected to a control coil of the contactor 43 and is respectively used for controlling KM1 contact, KM1 contact point, point and point in a three-phase power supply line, KM2 contact and KM3 contact, the secondary controller 41 communicates with the primary controller 21 through the second communication module 44, the first communication module 23.

The auxiliary controller 41 detects the power phase sequence used by all the electric devices connected with the auxiliary controller 41, feeds the phase sequence information of each distribution box 4 back to the main controller 21, the main controller 21 judges the distribution box 4 needing to switch the phase sequence of the power supply line by comparing the magnitude of the three-phase current, and sends a control instruction to the auxiliary controller 41, the auxiliary controller 41 controls the contactor 43, and the distribution box of the power supply line with the heaviest load is switched to the power supply line with the lightest load; the communication mode between the first communication module 23 and the second communication module 44 may be a wired communication mode, a wireless short-range communication mode or a power carrier mode, and the wireless short-range communication mode may use a wireless local area network WLAN technology, a Bluetooth (Bluetooth) technology, a ZigBee technology, a near field communication NFC (near field communication), a Wifi technology, or the like.

Taking wired communication as an example, a schematic diagram of a wired communication circuit of the main controller 21 of the power supply junction box 2 and the auxiliary controller 41 of the distribution box 4 is shown in fig. 17, in the embodiment, two power supply junction boxes 2 are adopted, each power supply junction box 2 provides eight paths of three-phase power supply output and can be connected with the distribution boxes 4 in eight tents; the main controller 21 selects any one of the sixteen distribution boxes 4 by a four-bit distribution box channel selection code (binary code), and the auxiliary controller 41 selects "no power supply", a-phase, B-phase, or C-phase power supply lines by a two-bit distribution box channel selection code (binary code). As shown in fig. 16 and 17, when the outlet code of the main controller 21 is "0010" and the outlet code of the auxiliary controller 41 is "11", the auxiliary controller 41 of the 3# distribution box responds to the command of the main controller 21 and sends a control command to the phase-C contactor KM3 to pull the contacts of the phase-C contactor in an engaged state, while the phase-a contactor KM1 and the phase-B contactor KM2 do not receive the control command and do not pull the contacts in an open state, and at this time, the phase-C distribution box supplies power to the phase-3 distribution box.

With the above hardware configuration, on-line automatic adjustment of the three-phase load can be realized, as shown in fig. 18, including the following steps:

step one, the main controller 21 receives three-phase current information fed back by the current transducer 22, compares current difference values between any two phases, judges that the current difference values of any two phases of the A phase, the B phase and the C phase are unbalanced when the current difference values of any two phases of the A phase, the B phase and the C phase exceed a set value, and then turns to step two, or repeats step one until the power supply of the field tent hospital is finished.

And step two, the main controller 21 automatically judges the distribution box to be adjusted according to the phase sequence of the power supply line in which the distribution box 4 in each tent is located, then sends an instruction for adjusting the power supply line (for example, switching from the phase-A power supply to the phase-B power supply) to the auxiliary controller 41 in the distribution box 4 to be adjusted in phase sequence through the first communication module 23 and the second communication module 44, controls the contact action of the contactor 43 through the auxiliary controller 41, adjusts the power supply line of the distribution box 4 in the phase sequence state with the heaviest load to the phase sequence state with the lightest load, and returns to the step one.

Although the method for automatically adjusting the three-phase load on line can reduce the labor intensity, save the labor cost and adjust in time, the UPS is arranged in the method for automatically adjusting the three-phase load, and the UPS is still set through the program of the main controller 21 in order to prevent the failure of the storage battery of the UPS and the like in the emergency medical treatment process such as emergency treatment, operation and the like, so that the electric equipment powered by the distribution box 4 in the tent such as emergency treatment, operation and the like is excluded from the automatic adjustment range.

The three-phase load balanced type power guarantee system realizes the balance of three-phase loads by manually or automatically adjusting the phase sequence of the power supply circuit of the distribution box in each tent, and is convenient to carry, transport on board and wire by reasonable box type and box type structure design; the system adopts various technical means to ensure the reliability and stability of power supply of the power system, can realize quick erection of a power supply line, is convenient for fault location and maintenance, and is suitable for centralized or decentralized field tent hospitals.

It will be understood by those skilled in the art that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention, and that various equivalent modifications and changes may be made thereto without departing from the scope of the present invention.

Claims (10)

1. The utility model provides a field tent hospital is with carrying three-phase load balanced type distribution system of moving, includes generating set (1) and distribution unit, distribution unit includes power transfer box (2) and each block terminal (4) of setting in each tent, block terminal (4) are connected with a plurality of consumer electricity that correspond in the tent, power transfer box (2) are changeed the electric power that generating set (1) produced to block terminal (4) in each tent to by block terminal (4) convert three phase current into single phase current and each consumer of direct current 24V power configuration in the access tent, its characterized in that:

the power distribution box (4) is provided with a switching power supply (42), an auxiliary controller (41) and a contactor (43), the switching power supply (42) is used for converting any alternating voltage in a three-phase power supply line of the power distribution box (4) into direct voltage and providing power for the auxiliary controller (41), a control coil of the contactor (43) is respectively connected to the output end of the auxiliary controller (41), contacts of KM1, KM2 and KM3 of the contactor (43) are respectively connected in series in the three-phase power supply line, and the auxiliary controller (41) is used for detecting phase sequence information of the power distribution box (4) connected with the auxiliary controller;

the power supply transfer box (2) is provided with a current transmitter (22) and a main controller (21), and the main controller (21) is in signal connection with the auxiliary controllers (41) of the distribution boxes (4); the main controller (21) receives three-phase current information fed back by the current transmitter (22) and power supply line phase sequence information of a corresponding distribution box (4) fed back by each auxiliary controller, judges whether three-phase loads are balanced or not by comparing the current difference value between any two phases with a set value, if the three-phase loads are judged to be unbalanced, the main controller (21) automatically judges the distribution box required to be adjusted according to the phase sequence of the power supply line where the distribution box (4) is located in each tent, sends a control instruction to the auxiliary controller (41) in the distribution box, and controls the contact action of the corresponding contactor (43) through the auxiliary controller (41) so as to adjust the phase sequence with the heaviest load in the power supply line of the electric equipment connected with the distribution box (4) into the phase sequence with the lightest load.

2. The portable three-phase load balanced distribution system for field tent hospitals according to claim 1, wherein the power supply transfer box (2) is provided with a first communication module (23), the distribution box (4) is provided with a second communication module (44), and the main controller (21) communicates with the auxiliary controller (41) through the first communication module (23) and the second communication module (44).

3. The portable three-phase load balanced distribution system for field tent hospitals according to claim 1 or 2, wherein the signal connection mode between the main controller (21) and the auxiliary controller (41) is a wired communication mode, a wireless short-range communication mode or a power carrier mode, wherein the wireless short-range communication mode is any one of a Wireless Local Area Network (WLAN), a Bluetooth, a ZigbBee, a Near Field Communication (NFC) and a wireless fidelity (Wifi).

4. The portable three-phase load-balanced power distribution system for field tent hospitals according to any one of claims 1 to 3, wherein the power supply adaptor box (2) comprises:

the input end (24) comprises a three-phase input end (241) and a single-phase input end (242) which are respectively connected with a three-phase output power supply and a single-phase output power supply of the generating set (1);

the first power main switch (213) is connected in series in a power supply line and has the functions of short circuit and overload protection;

and the power supply change-over switch (28) is connected between the input end (24) and the first power supply main switch (213) in series and is used for switching between the single-phase input end (242) and the three-phase input end (241).

5. The portable three-phase load balanced distribution system for field tent hospitals according to any one of claims 1 to 4, wherein the power adapter box (2) comprises a phase sequence protection module (215), the phase sequence protection module (215) is connected into a three-phase power supply line of a three-phase input end (241), and comprises a phase sequence protection relay KA1, a phase sequence fault audible and visual alarm HL4, a contactor KM4 and a safety FU2, the contactor KM4 is divided into two parts, one part is a KM4 control coil and is connected to an output end OUT1 of the phase sequence protection relay KA1 through a safety FU 35 2, and the other part is a KM4 contact, namely a P1-P2 contact, a P3-P4 contact and a P5-P6 contact, which are respectively connected in series in the three-phase power supply line; and the phase sequence fault audible and visual alarm HL4 is connected to the output end OUT3 of the phase sequence protection relay KA 1.

6. The utility model provides a field tent hospital is with carrying three-phase load balanced type distribution system of moving, including generating set (1), power transfer box (2) and each block terminal (4) of setting in each tent, block terminal (4) are connected with a plurality of consumer electricity that correspond in the tent, power transfer box (2) connect the electric power that generating set (1) produced to block terminal (4) in each tent to convert three phase current into single phase current and each consumer of configuration in the direct current 24V power access tent by block terminal (4), its characterized in that:

an ammeter (27) is arranged on a power supply line between the power supply transfer box (2) and the generator set (1), and the ammeter (27) is a three-phase ammeter and is used for detecting and displaying current values of the A phase, the B phase and the C phase;

the power distribution box (4) is provided with a three-phase input interface (48), a second circuit breaker (413) and a phase sequence conversion switch (45), the three-phase input interface (48) leads out a plurality of single-phase output interfaces (410) through the second circuit breaker (413), the phase sequence conversion switch (45) is connected in series on a power supply circuit between the second circuit breaker (413) and the three-phase input interface (48), and the phase sequence conversion switch (45) is provided with a knob capable of indicating the phase sequence of a power supply circuit of connected electric equipment;

wherein, whether the three-phase load is balanced is judged by comparing the current difference value between any two phases with the set value by observing the display value of the ammeter (27); and the phase sequence change-over switch (45) is used for indicating the phase sequence of the power supply line of the electric equipment connected with the corresponding distribution box (4) according to the position of the knob of the phase sequence change-over switch, and adjusting the phase sequence of the power supply line of the electric equipment connected with the phase sequence change-over switch (45) by rotating the knob of the phase sequence change-over switch (45) so as to realize three-phase load balance.

7. The portable three-phase load balanced power distribution system for field tent hospitals according to claim 6, wherein the phase sequence switch (45) has eight pairs of contacts, the input terminals of the contacts Q1, Q3, Q5 and Q7 are electrically connected with the phase A, phase B, phase C live wire and neutral wire N of the three-phase line, respectively, the output terminal of the contact Q8 leads out the neutral wire N of the single-phase output interface (410), the output terminals of the contacts Q2, Q4 and Q6 are connected together and electrically connected with the input terminal of the second circuit breaker (413), and the engagement or disengagement of the output terminals of the contacts Q1, Q3 and Q5 with the input terminals of the contacts Q2, Q4 and Q6 and the output terminal of the contact Q7 and the input terminal of the contact Q8 is controlled by a knob of the phase sequence switch (45).

8. The portable three-phase load-balanced power distribution system for field tent hospitals according to claim 6 or 7, wherein the power supply junction box (2) comprises:

the input end (24) comprises a three-phase input end (241) and a single-phase input end (242) which are respectively connected with a three-phase output power supply and a single-phase output power supply of the generating set (1);

the first power main switch (213) is connected in series in a power supply line and has the functions of short circuit and overload protection;

a power supply changeover switch (28) connected in series between the input terminal (24) and the first power main switch (213) for switching between the single-phase input terminal (242) and the three-phase input terminal (241);

and the output end (25) comprises a three-phase output end (251) and a single-phase output end (252), the three-phase output end (251) is led out from the output end of the power supply change-over switch (28) through the first power supply main switch (213) and the first circuit breaker (214) in sequence, and the single-phase output end (252) is led out from the output end of the power supply change-over switch (28) through the first power supply main switch (213).

9. The portable three-phase load balanced power distribution system for field tent hospitals according to claim 8, wherein the power adapter box (2) comprises a phase sequence protection module (215), the phase sequence protection module (215) is connected into a three-phase power supply line of a three-phase input end (241) and comprises a phase sequence protection relay KA1, a phase sequence failure audible and visual alarm HL4, a contactor KM4 and a safety FU2, the contactor KM4 is divided into two parts, one part is a KM4 control coil and is connected to an output end OUT1 of the phase sequence protection relay KA1 through a safety FU2, and the other part is a KM4 contact, namely a P1-P2 contact, a P3-P4 contact and a P5-P6 contact, which are respectively connected in series in the three-phase power supply line; and the phase sequence fault audible and visual alarm HL4 is connected to the output end OUT3 of the phase sequence protection relay KA 1.

10. The portable three-phase load-balanced power distribution system for field tent hospitals according to claim 8 or 9, wherein the power supply adaptor box (2) further comprises:

the leakage protection power switch (218), the leakage protection power switch (218) is connected in series in the power supply line between the first power main switch (213) and the first breaker (214);

a voltmeter (26) and a first indicator light (29) on a power supply line between a first main power switch (213) and a first circuit breaker (214);

the lightning arrester (210) is arranged at a single-phase input end (242) and a three-phase input end (241) of the power supply transfer box (2) respectively and connected between a single-phase line or a three-phase line and a ground wire.

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