CN209938918U - Control device for tethered balloon ice and snow removing equipment - Google Patents

Abstract

The utility model discloses a controlling means for mooring balloon removes ice and snow equipment, start and stop the control unit including combustor start-stop control unit, combustor strong start control unit, alarm control unit, combustor big fire control unit, circulating pump activestandby pump start-stop control unit, moisturizing pump activestandby pump start-stop control unit, wiring row, program controller, combustor, circulating pump and moisturizing pump, combustor start-stop control unit, combustor strong start control unit, alarm control unit, combustor big fire control unit, circulating pump activestandby pump start-stop control unit and moisturizing pump activestandby pump start-stop control unit are connected with each port of wiring row respectively, and each port of wiring row is connected with the input of program controller, the input of circulating pump and the input of moisturizing pump respectively, and the output of program controller is connected with the combustor; the utility model has the advantages that: in bad weather such as ice and snow, the captive balloon can maintain buoyancy under a predetermined wind load condition.

Description

Control device for tethered balloon ice and snow removing equipment

Technical Field

The utility model relates to a captive balloon ground mooring field, more specifically relate to a controlling means for captive balloon removes ice and snow equipment.

Background

At present, the aerostat products in China are already produced in batches and delivered to users, and due to the fact that the accompanying guarantee period of the products is limited, the users may face the situation that the performance of the aerostat products is not completely mastered, the safe use of the aerostat products under various sudden conditions in ice and snow weather cannot be guaranteed, and particularly the use and maintenance of the aerostat products in the later period are stopped along with guarantee. In order to guarantee the use safety of aerostat products with higher quality, a control device of ice and snow removing equipment is additionally arranged.

The captive balloon belongs to one of aerostats, realizes air floating by utilizing buoyancy, is used as a carrying platform of various communication, monitoring, radar and other equipment, and has very important function and incomparable advantages. When the captive balloon is in a ground captive working state, the buoyancy of the captive balloon needs to be sufficient, the captive balloon adapts to extremely severe weather (strong snowfall and ultralow temperature), and task requirements under various working conditions are met. If the control strategy of the ice and snow removing equipment control device fails during ice and snow resistance, the balloon cannot maintain buoyancy under the specified wind load condition, and the working reliability and safety of the captive balloon are greatly influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that when the control strategy of the ice and snow removal equipment control device in the prior art is invalid, the balloon can not maintain the problem of buoyancy under the specified wind load condition.

The utility model discloses a solve above-mentioned technical problem through following technical scheme: a control device for captive balloon ice and snow removal equipment comprises a burner start-stop control unit, a burner forced start control unit, an alarm control unit, a burner large and small fire control unit, a circulating pump main and standby pump start-stop control unit, a water supplementing pump main and standby pump start-stop control unit, a wiring bar, a program controller, a burner, a circulating pump and a water supplementing pump, wherein the burner start-stop control unit, the burner forced start control unit, the alarm control unit, the burner large and small fire control unit, the circulating pump main and standby pump start-stop control unit and the water supplementing pump main and standby pump start-stop control unit are respectively connected with ports of the wiring bar, the ports of the wiring bar are respectively connected with the input end of the program controller, the input end of the circulating pump and the input end of the water supplementing pump, and the output end of the program controller. The utility model discloses be applied to captive balloon ground mooring state, remove ice and snow equipment controlling means and pass through each the control unit of knob on-off control, realize that the combustor is automatic/manual, start/stop, big fire/little fire, the circulating pump is automatic/manual, start/stop, the moisturizing pump opens/stops control, the continuous monitoring combustor, the circulating pump, moisturizing pump system operating condition, can provide the capacity hot water for the balloon when anti ice and snow, guarantee ice and snow in time to melt, the corresponding buoyancy of automatic maintenance spheroid under the wind-load condition of regulation, satisfy other operating mode requirements of captive balloon under ground mooring state.

Preferably, the burner start-stop control unit comprises a fault alarm relay J1, a flameout alarm relay J2, a start-stop switch SA1, an indicator lamp HL1 and a breaker QF1, the fault alarm relay J1 comprises a normally open contact J11, a normally closed contact J12 and a coil J13, the fault alarm relay J2 comprises a normally open contact J21, a normally closed contact J22 and a coil J23, the wiring bar comprises 25 wiring ports numbered in sequence, one end of the coil J13 is connected with a seventh wiring port of the wiring bar, the other end of the coil J13 is grounded, the seventh wiring port of the wiring bar is connected to the input end of the program controller, and a second wiring port of the wiring bar is connected with a zero line of a 220V power supply; one end of the coil J23 is connected with the thirteenth wiring port of the wiring bar, the other end of the coil J23 is grounded, and the thirteenth wiring port of the wiring bar is connected to the input end of the program controller; one end of the normally closed contact J22 is connected with the eighth wiring port of the wiring bar, the other end of the normally closed contact J12 is connected with one end of the normally closed contact J12, the other end of the normally closed contact J12 is connected with one end of the start-stop switch SA1, the other end of the start-stop switch SA1 is connected with the ninth wiring port of the wiring bar, and the ninth wiring port and the twelfth wiring port of the wiring bar are respectively connected with the two-phase wiring terminals of the program controller; a normally open contact J11 and a normally open contact J21 are connected to a loop where the alarm control unit is located;

one end of the indicator light HL1 is connected with one end of the breaker QF1, and the other end of the indicator light HL1 is grounded; the other end of the circuit breaker QF1 is connected with the fifth terminal of the wiring bank, and the fifth terminal of the wiring bank is connected with the live wire of the 220V power supply.

Preferably, the burner strong start control unit comprises a strong start switch SA3, one end of the strong start switch SA3 is connected with one end of the start-stop switch SA1, and the other end of the strong start switch SA3 is connected with an eighth wiring port of the wiring bank.

Preferably, the alarm control unit comprises an indicator lamp HL2 and an indicator lamp HL3, one end of the indicator lamp HL2 is connected with the twenty-second wiring port of the wiring bank, the other end of the indicator lamp HL2 is connected with one end of the indicator lamp HL3 through a normally open contact J11, two ends of the normally open contact J11 are connected with the normally open contact J21 in parallel, the other end of the indicator lamp HL3 is grounded, and one end of the indicator lamp HL1 is connected with the other end of the indicator lamp HL 2.

Preferably, the big and small fire control unit of the combustion engine comprises a relay J3 and an on-off switch SA2, the relay J3 comprises a normally open contact J31, a normally closed contact J32 and a coil J33, one end of the coil J33 is connected with one end of the on-off switch SA2, the other end of the on-off switch SA2 is connected with one end of a breaker QF1, and the other end of the coil J33 is grounded;

one end of the normally open contact J31 is connected with one end of the normally closed contact J32 and is connected with the twelfth wiring port of the wiring bank, the tenth wiring port of the other end of the normally open contact J31 is connected with the wiring bank, the eleventh wiring port of the other end of the normally open contact J32 is connected with the wiring bank, the tenth wiring port of the wiring bank is connected with the big fire control switch of the combustion engine, the eleventh wiring port of the wiring bank is connected with the small fire control switch of the combustion engine, and the big fire control switch of the combustion engine and the small fire control switch of the combustion engine are both normally closed switches.

Preferably, the main and standby circulating pump start-stop control unit comprises a main circulating pump start-stop interlocking switch and a standby circulating pump start-stop interlocking switch, the main circulating pump start-stop interlocking switch comprises a normally closed switch SA41 and a normally open switch SA42, the standby circulating pump start-stop interlocking switch comprises a normally closed switch SA51 and a normally open switch SA52, one end of the normally closed switch SA41 is connected with a fourteenth wiring port of the wiring bank, and the other end of the normally closed switch SA41 is connected with a fifteenth wiring port of the wiring bank; a fourteenth wiring port and a fifteenth wiring port of the wiring bar are respectively connected with two ends of a main pump of the circulating pump, one end of a normally closed switch SA51 is connected with a sixteenth wiring port of the wiring bar, the sixteenth wiring port of the wiring bar is connected with the input end of the main pump of the circulating pump, the other end of a normally closed switch SA51 is connected with one end of a normally open switch SA42, and the other end of the normally open switch SA42 is connected with one end of an indicator lamp HL 1; one end of the normally open switch SA52 is connected with the seventeenth wiring port of the wiring bar, the other end of the normally open switch SA52 is connected with the other end of the normally closed switch SA51, and the seventeenth wiring port of the wiring bar is connected with the input end of the circulating pump standby pump.

Preferably, the main and standby water replenishing pump start-stop control unit comprises a main water replenishing pump start-stop interlocking switch and a standby water replenishing pump start-stop interlocking switch, the main water replenishing pump start-stop interlocking switch comprises a normally closed switch SA61 and a normally open switch SA62, the standby water replenishing pump start-stop interlocking switch comprises a normally closed switch SA71 and a normally open switch SA72, one end of the normally closed switch SA61 is connected with an eighteenth wiring port of the wiring bank, and the other end of the normally closed switch SA61 is connected with a nineteenth wiring port of the wiring bank; an eighteenth wiring port of the wiring bar and a nineteenth wiring port of the wiring bar are respectively connected with two ends of a main pump of a water replenishing pump, one end of a normally closed switch SA71 is connected with a twentieth wiring port of the wiring bar, the twentieth wiring port of the wiring bar is connected with the input end of the main pump of the water replenishing pump, the other end of the normally closed switch SA71 is connected with one end of a normally open switch SA62, and the other end of the normally open switch SA62 is connected with one end of an indicator lamp HL 1; one end of the normally open switch SA72 is connected with the twenty-first wiring port of the wiring bar, the other end of the normally open switch SA72 is connected with the other end of the normally closed switch SA71, and the twenty-first wiring port of the wiring bar is connected with the input end of the water replenishing pump standby pump.

Preferably, the programmer is a burner controller of SIEMENS series, model number LME22.331C2.

Compared with the prior art, the utility model has the following advantages:

(1) the utility model discloses a combustor opens the setting of control unit by force, if control system control strategy when anti ice and snow became invalid, force to start the combustor, after the start-up, big or small fire of control unit control combustor through big or small fire of combustor, make the balloon can provide capacity hot water when anti ice and snow, guarantee ice and snow in time to melt, automatic corresponding buoyancy of spheroid that keeps under the wind-load condition of regulation, avoid the spheroid because of the buoyancy undersize, cause the condition that radome fairing or fin landed to appear in the balloon, or the utricule material is damaged and is torn because of the mechanical load who bears surpasss the specified value, thereby cause the damage to load system, cause the major accident, threaten whole equipment safety.

(2) Through the setting that the control unit is started and stopped to the main spare pump of circulating pump and the main spare pump of make-up pump, when circulating pump main pump and make-up pump main pump broke down, switch to the stand-by pump, play emergent backup effect, guarantee that combustor work all has sufficient water supply under any state, guarantee that the balloon can provide capacity hot water when anti ice and snow.

(3) Through the setting of alarm control unit, under the condition that the combustor breaks down, fault signal triggers malfunction alerting relay J1 or flame-out alerting relay J2, after malfunction alerting relay J1 or flame-out alerting relay J2's coil got electric, trigger normally closed switch J12 or normally closed switch J22 disconnection, open stop switch SA1 place return circuit outage, the combustor stop work, corresponding normally open switch J11 or normally open switch J21 are closed, alarm indicator HL2 or HL3 light, indicate the combustor trouble.

Drawings

Fig. 1 is a block diagram of a control device for a captive balloon ice and snow removal apparatus according to an embodiment of the present invention;

fig. 2 is a schematic circuit diagram of a control device for a captive balloon ice and snow removal apparatus according to an embodiment of the present invention;

fig. 3 is an external view of a control device for a captive balloon ice and snow removal apparatus according to an embodiment of the present invention;

fig. 4 is a front view of an appearance of a control device for a captive balloon ice and snow removing apparatus according to an embodiment of the present invention.

Detailed Description

The embodiments of the present invention will be described in detail below, and the present embodiment is implemented on the premise of the technical solution of the present invention, and a detailed implementation manner and a specific operation process are given, but the scope of the present invention is not limited to the following embodiments.

As shown in fig. 1, a control device for captive balloon ice and snow removal equipment comprises a burner start-stop control unit, a burner strong start control unit, an alarm control unit, a burner big and small fire control unit, a circulating pump main and standby pump start-stop control unit, a water replenishing pump main and standby pump start-stop control unit, a wiring bank, a program controller, a burner, a circulating pump and a water replenishing pump, wherein the burner start-stop control unit, the burner strong start control unit, the alarm control unit, the burner big and small fire control unit, the circulating pump main and standby pump start-stop control unit and the water replenishing pump main and standby pump start-stop control unit are respectively connected with each port of the wiring bank, each port of the wiring bank is respectively connected with an input end of a program controller, an input end of a circulating pump and an input end of a water replenishing pump, and an output end of. The composition and connection relationship of each control unit will be described in detail by fig. 2.

As shown in fig. 2, the burner start-stop control unit comprises a fault alarm relay J1, a flameout alarm relay J2, a start-stop switch SA1, an indicator lamp HL1 and a circuit breaker QF1, the fault alarm relay J1 comprises a normally open contact J11, a normally closed contact J12 and a coil J13, the fault alarm relay J2 comprises a normally open contact J21, a normally closed contact J22 and a coil J23, the wiring bar comprises 25 wiring ports which are numbered in sequence, one end of the coil J13 is connected with a seventh wiring port of the wiring bar, the other end of the coil is grounded, the seventh wiring port of the wiring bar is connected to the input end of the program controller, and the second wiring port of the wiring bar is connected with the zero line of the 220V power supply; one end of the coil J23 is connected with the thirteenth wiring port of the wiring bar, the other end of the coil J23 is grounded, and the thirteenth wiring port of the wiring bar is connected to the input end of the program controller; one end of the normally closed contact J22 is connected with the eighth wiring port of the wiring bar, the other end of the normally closed contact J12 is connected with one end of the normally closed contact J12, the other end of the normally closed contact J12 is connected with one end of the start-stop switch SA1, the other end of the start-stop switch SA1 is connected with the ninth wiring port of the wiring bar, and the ninth wiring port and the twelfth wiring port of the wiring bar are respectively connected with the two-phase wiring terminals of the program controller; a normally open contact J11 and a normally open contact J21 are connected to a loop where the alarm control unit is located;

one end of the indicator light HL1 is connected with one end of the breaker QF1, and the other end of the indicator light HL1 is grounded; the other end of the circuit breaker QF1 is connected with the fifth terminal of the wiring bank, and the fifth terminal of the wiring bank is connected with the live wire of the 220V power supply.

The combustor forced start control unit comprises a forced start switch SA3, one end of the forced start switch SA3 is connected with one end of the start-stop switch SA1, and the other end of the forced start switch SA3 is connected with an eighth wiring port of the wiring bank.

The alarm control unit includes pilot lamp HL2 and pilot lamp HL3, the twenty second wiring port of a termination row of pilot lamp HL2, the other end of pilot lamp HL2 connects the one end of pilot lamp HL3 through normally open contact J11, the both ends parallel connection of normally open contact J11 normally open contact J21, the other end ground connection of pilot lamp HL3, the one end of pilot lamp HL1 is connected with the other end of pilot lamp HL 2.

The big and small fire control unit of the combustion engine comprises a relay J3 and an on-off switch SA2, the relay J3 comprises a normally open contact J31, a normally closed contact J32 and a coil J33, one end of the coil J33 is connected with one end of the on-off switch SA2, the other end of the on-off switch SA2 is connected with one end of a breaker QF1, and the other end of the coil J33 is grounded;

one end of the normally open contact J31 is connected with one end of the normally closed contact J32 and is connected with the twelfth wiring port of the wiring bank, the tenth wiring port of the other end of the normally open contact J31 is connected with the wiring bank, the eleventh wiring port of the other end of the normally open contact J32 is connected with the wiring bank, the tenth wiring port of the wiring bank is connected with the big fire control switch of the combustion engine, the eleventh wiring port of the wiring bank is connected with the small fire control switch of the combustion engine, and the big fire control switch of the combustion engine and the small fire control switch of the combustion engine are both normally closed switches.

The main and standby circulating pump start-stop control unit comprises a main circulating pump start-stop interlocking switch and a standby circulating pump start-stop interlocking switch, the main circulating pump start-stop interlocking switch comprises a normally closed switch SA41 and a normally open switch SA42, the standby circulating pump start-stop interlocking switch comprises a normally closed switch SA51 and a normally open switch SA52, one end of the normally closed switch SA41 is connected with a fourteenth wiring port of the wiring row, and the other end of the normally closed switch SA41 is connected with a fifteenth wiring port of the wiring row; a fourteenth wiring port and a fifteenth wiring port of the wiring bar are respectively connected with two ends of a main pump of the circulating pump, one end of a normally closed switch SA51 is connected with a sixteenth wiring port of the wiring bar, the sixteenth wiring port of the wiring bar is connected with the input end of the main pump of the circulating pump, the other end of a normally closed switch SA51 is connected with one end of a normally open switch SA42, and the other end of the normally open switch SA42 is connected with one end of an indicator lamp HL 1; one end of the normally open switch SA52 is connected with the seventeenth wiring port of the wiring bar, the other end of the normally open switch SA52 is connected with the other end of the normally closed switch SA51, and the seventeenth wiring port of the wiring bar is connected with the input end of the circulating pump standby pump.

The main and standby water replenishing pump start-stop control unit comprises a main water replenishing pump start-stop interlocking switch and a standby water replenishing pump start-stop interlocking switch, the main water replenishing pump start-stop interlocking switch comprises a normally closed switch SA61 and a normally open switch SA62, the standby water replenishing pump start-stop interlocking switch comprises a normally closed switch SA71 and a normally open switch SA72, one end of the normally closed switch SA61 is connected with an eighteenth wiring port of the wiring bank, and the other end of the normally closed switch SA61 is connected with a nineteenth wiring port of the wiring bank; an eighteenth wiring port of the wiring bar and a nineteenth wiring port of the wiring bar are respectively connected with two ends of a main pump of a water replenishing pump, one end of a normally closed switch SA71 is connected with a twentieth wiring port of the wiring bar, the twentieth wiring port of the wiring bar is connected with the input end of the main pump of the water replenishing pump, the other end of the normally closed switch SA71 is connected with one end of a normally open switch SA62, and the other end of the normally open switch SA62 is connected with one end of an indicator lamp HL 1; one end of the normally open switch SA72 is connected with the twenty-first wiring port of the wiring bar, the other end of the normally open switch SA72 is connected with the other end of the normally closed switch SA71, and the twenty-first wiring port of the wiring bar is connected with the input end of the water replenishing pump standby pump.

As a specific embodiment of the present invention, the program controller is SIEMENS series, and the model is LME22.331C2 burner controller.

As shown in fig. 3 and 4, the appearance of the control device for captive balloon ice and snow removing equipment of the present invention is that a plurality of buttons are provided on a control cabinet, and the switches corresponding to the buttons are controlled by the buttons, wherein the switch corresponding to the automatic/manual control button of the combustion machine is SA1, the switch corresponding to the control button of big fire and small fire of the combustion machine is SA2, the switch corresponding to the control button of strong start of the combustion machine is SA3, the switch corresponding to the automatic/stop/start control button of the circulating pump is SA41, the switch corresponding to the switching control button of the main pump/backup pump is SA51, the switch corresponding to the automatic/stop/start control button of the water replenishing pump is SA61, the switch corresponding to the switching control button of the water replenishing pump/backup pump is SA71, two fault indicator lights HL2 and indicator light HL3 are provided, the combustion machine is lighted when a fault occurs, and a power indicator light HL1 is provided, when the power supply is switched on, the LED display is lightened, and all devices and connecting wires among the devices are integrated into the control cabinet.

In order to avoid electric shock, all grounding points of the relevant equipment are grounded at one point, the grounding points are directly connected with the ground, the grounding wires are as short as possible, and the thick wire diameter is used to conform to the applicable electrical specification. To avoid electromagnetic interference, the equipment wiring in the device avoids the need to run low voltage signal lines, communication cables, and ac power lines along with high energy, very high switching frequency dc lines.

The utility model discloses a theory of operation and working process do: after a second wiring port and a fifth wiring port of the wiring bank are respectively externally connected with a zero line and a live line of a 220V power supply, a circuit breaker QF1 is closed, and a power indicator HL1 is lightened; after closing switch SA1, the combustor opens and stops the signal and send back end program controller start-up combustor work, if the combustor has the trouble, corresponding alarm signal triggers relay J1, and relay J1's coil J13 gets electric, and normally open contact J11 is closed, and system fault indicator HL2 and HL3 light. Similarly, if there is a flameout fault, the relay J2 operates, the coil J23 of the relay J2 is energized, the normally open contact J21 is closed, and the system fault indicator lights HL2 and HL3 are lit. Under the condition that the combustion engine has a fault, at the moment, normally closed contacts of the relay J1 and the relay J2 are disconnected, namely the normally open contact J12 and/or the normally open contact J22 are disconnected, a loop where the start-stop switch SA1 is located is powered off, and the combustion engine cannot be driven to act even if the start-stop switch SA1 is closed. At the moment, if the burner is to be started, a burner strong start switch SA3 is selected to be closed, a start-stop signal is sent to a program controller directly to start the burner by force by skipping contacts of a relay J1 and a relay J2 which act due to alarm in a circuit, meanwhile, a big-fire gear and a small-fire gear are selected, namely an on-off switch SA2 is selected, the on-off switch SA2 is closed, a relay J3 is driven, a coil J33 of the relay J3 is electrified, a normally open contact J31 of the relay J3 is closed, a normally closed contact J32 is disconnected, the burner is switched to a big fire, similarly, the on-off switch SA2 is pressed again, the on-off switch SA2 is disconnected, a relay J3 is driven, a coil J33 of the relay J3 is disconnected, a contact J31 of the relay J3 is switched from closed to open, a normally closed contact J32 is switched from open to closed, the burner is switched to a small fire, and;

be in interlocking state under the circulating pump automatic condition, the circulating pump main pump opens and stops normally closed switch SA41 one end circulating pump main pump's input and connect promptly, and the other end is connected with the output of circulating pump main pump, and normally closed switch SA41 is in normally closed state, and normally open switch SA42 is in normally open state, and the circulating pump is in the circular telegram operating condition automatic status promptly. When the circulating pump is in the manual position, the circulating pump main pump start-stop interlocking switch is pressed to enable the normally open switch SA42 to be closed, the normally closed switch SA41 is disconnected, the circulating pump standby pump start-stop interlocking switch is used for switching between the normally closed switch SA51 and the normally open switch SA52 to control the main pump and the standby pump, the circulating pump standby pump start-stop interlocking switch is pressed, the normally closed switch SA51 is disconnected and the normally open switch SA52 is closed, the circulating pump standby pump is switched, the switch button is pressed again, the normally closed switch SA51 is closed, the normally open switch SA52 is disconnected, and the circulating pump main pump is. Similarly, the automatic control of the water replenishing pump and the switching of the main pump and the standby pump are the same working processes, and are not described herein.

Through above technical scheme, the utility model provides a controlling means for mooring balloon removes ice and snow equipment, when bad weather such as ice and snow, mooring balloon removes ice and snow equipment control system trouble, under the condition that the combustor can not work, open the combustor by force through opening the switch by force, and main pump and the stand-by pump that main pump and stand-by pump through the circulating pump freely switch over and the moisturizing pump freely switch over, guarantee that the balloon can provide the capacity hot water when anti ice and snow, guarantee ice and snow in time to melt, keep the corresponding buoyancy of spheroid automatically under the wind load condition of regulation, avoid the spheroid to cause major accident because of the buoyancy undersize, threaten whole equipment safety.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. A control device for captive balloon ice and snow removal equipment is characterized by comprising a burner start-stop control unit, a burner strong start control unit, an alarm control unit, a burner large and small fire control unit, a circulating pump main and standby pump start-stop control unit, a water supplementing pump main and standby pump start-stop control unit, a wiring bank, a program controller, a burner, a circulating pump and a water supplementing pump, wherein the burner start-stop control unit, the burner strong start control unit, the alarm control unit, the burner large and small fire control unit, the main and standby pump start-stop control unit and the water supplementing pump main and standby pump start-stop control unit are respectively connected with each port of the wiring bank, each port of the wiring bank is respectively connected with an input end of a program controller, an input end of a circulating pump and an input end of the water supplementing pump, and an output end of the program controller is connected.

2. The control device for the captive balloon deicing apparatus according to claim 1, wherein the burner start-stop control unit comprises a fault alarm relay J1, a flameout alarm relay J2, a start-stop switch SA1, an indicator lamp HL1 and a circuit breaker QF1, the fault alarm relay J1 comprises a normally open contact J11, a normally closed contact J12 and a coil J13, the fault alarm relay J2 comprises a normally open contact J21, a normally closed contact J22 and a coil J23, the wiring bar comprises 25 wiring ports numbered in sequence, one end of the coil J13 is connected with a seventh wiring port of the wiring bar, the other end of the coil J2 is grounded, the seventh wiring port of the wiring bar is connected to an input end of the program controller, and a second wiring port of the wiring bar is connected with a zero line of a 220V power supply; one end of the coil J23 is connected with the thirteenth wiring port of the wiring bar, the other end of the coil J23 is grounded, and the thirteenth wiring port of the wiring bar is connected to the input end of the program controller; one end of the normally closed contact J22 is connected with the eighth wiring port of the wiring bar, the other end of the normally closed contact J12 is connected with one end of the normally closed contact J12, the other end of the normally closed contact J12 is connected with one end of the start-stop switch SA1, the other end of the start-stop switch SA1 is connected with the ninth wiring port of the wiring bar, and the ninth wiring port and the twelfth wiring port of the wiring bar are respectively connected with the two-phase wiring terminals of the program controller; a normally open contact J11 and a normally open contact J21 are connected to a loop where the alarm control unit is located;

one end of the indicator light HL1 is connected with one end of the breaker QF1, and the other end of the indicator light HL1 is grounded; the other end of the circuit breaker QF1 is connected with the fifth terminal of the wiring bank, and the fifth terminal of the wiring bank is connected with the live wire of the 220V power supply.

3. The control device for the captive balloon ice and snow removing apparatus of claim 2, wherein the combustor forced start control unit comprises a forced start switch SA3, one end of the forced start switch SA3 is connected with one end of the start-stop switch SA1, and the other end of the forced start switch SA3 is connected with the eighth wiring port of the wiring bank.

4. The control device for the captive balloon ice and snow removing equipment according to claim 2, wherein the alarm control unit comprises an indicator lamp HL2 and an indicator lamp HL3, one end of the indicator lamp HL2 is connected with the twenty-second wiring port of the wiring bank, the other end of the indicator lamp HL2 is connected with one end of an indicator lamp HL3 through a normally open contact J11, two ends of the normally open contact J11 are connected with the normally open contact J21 in parallel, the other end of the indicator lamp HL3 is grounded, and one end of the indicator lamp HL1 is connected with the other end of the indicator lamp HL 2.

5. The control device for the captive balloon ice and snow removing equipment according to claim 2, wherein the burner big and small fire control unit comprises a relay J3 and an on-off switch SA2, the relay J3 comprises a normally open contact J31, a normally closed contact J32 and a coil J33, one end of the coil J33 is connected with one end of the on-off switch SA2, the other end of the on-off switch SA2 is connected with one end of a breaker QF1, and the other end of the coil J33 is grounded;

one end of the normally open contact J31 is connected with one end of the normally closed contact J32 and is connected with the twelfth wiring port of the wiring bank, the tenth wiring port of the other end of the normally open contact J31 is connected with the wiring bank, the eleventh wiring port of the other end of the normally open contact J32 is connected with the wiring bank, the tenth wiring port of the wiring bank is connected with the big fire control switch of the combustion engine, the eleventh wiring port of the wiring bank is connected with the small fire control switch of the combustion engine, and the big fire control switch of the combustion engine and the small fire control switch of the combustion engine are both normally closed switches.

6. The control device for the captive balloon ice and snow removal equipment according to claim 2, wherein the main and standby circulating pump start-stop control unit comprises a main circulating pump start-stop interlocking switch and a standby circulating pump start-stop interlocking switch, the main circulating pump start-stop interlocking switch comprises a normally closed switch SA41 and a normally open switch SA42, the standby circulating pump start-stop interlocking switch comprises a normally closed switch SA51 and a normally open switch SA52, one end of the normally closed switch SA41 is connected with a fourteenth wiring port of the wiring bank, and the other end of the normally closed switch SA41 is connected with a fifteenth wiring port of the wiring bank; a fourteenth wiring port and a fifteenth wiring port of the wiring bar are respectively connected with two ends of a main pump of the circulating pump, one end of a normally closed switch SA51 is connected with a sixteenth wiring port of the wiring bar, the sixteenth wiring port of the wiring bar is connected with the input end of the main pump of the circulating pump, the other end of a normally closed switch SA51 is connected with one end of a normally open switch SA42, and the other end of the normally open switch SA42 is connected with one end of an indicator lamp HL 1; one end of the normally open switch SA52 is connected with the seventeenth wiring port of the wiring bar, the other end of the normally open switch SA52 is connected with the other end of the normally closed switch SA51, and the seventeenth wiring port of the wiring bar is connected with the input end of the circulating pump standby pump.

7. The control device for the captive balloon ice and snow removal equipment according to claim 2, wherein the main and standby water replenishing pump start and stop control unit comprises a main water replenishing pump start and stop interlocking switch and a standby water replenishing pump start and stop interlocking switch, the main water replenishing pump start and stop interlocking switch comprises a normally closed switch SA61 and a normally open switch SA62, the standby water replenishing pump start and stop interlocking switch comprises a normally closed switch SA71 and a normally open switch SA72, one end of the normally closed switch SA61 is connected with an eighteenth wiring port of the wiring bank, and the other end of the normally closed switch SA61 is connected with a nineteenth wiring port of the wiring bank; an eighteenth wiring port of the wiring bar and a nineteenth wiring port of the wiring bar are respectively connected with two ends of a main pump of a water replenishing pump, one end of a normally closed switch SA71 is connected with a twentieth wiring port of the wiring bar, the twentieth wiring port of the wiring bar is connected with the input end of the main pump of the water replenishing pump, the other end of the normally closed switch SA71 is connected with one end of a normally open switch SA62, and the other end of the normally open switch SA62 is connected with one end of an indicator lamp HL 1; one end of the normally open switch SA72 is connected with the twenty-first wiring port of the wiring bar, the other end of the normally open switch SA72 is connected with the other end of the normally closed switch SA71, and the twenty-first wiring port of the wiring bar is connected with the input end of the water replenishing pump standby pump.

8. A control apparatus for a captive balloon ice and snow dislodging apparatus as claimed in claim 1, wherein the programmer is a model LME22.331C2 burner controller of SIEMENS series.

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