CN112319338A - Box door alarm control system, box door alarm control method and working vehicle - Google Patents

Abstract

The invention provides a box door alarm control system, a box door alarm control method and an operation vehicle. The door alarm control system includes: a first circuit; the second circuit is connected with the first circuit in parallel; the alarm circuit power supply is used for respectively supplying power to the first circuit and the second circuit; the first relay comprises a first relay coil and a first relay normally closed contact; the at least one induction switch comprises at least one induction switch normally open contact, and the at least one induction switch normally open contact and the first relay coil are connected in series in the first circuit; the first alarm device and the normally closed contact of the first relay are connected in series in the second circuit. The invention can accurately detect the opening and closing state of the door of the working vehicle.

Description

Box door alarm control system, box door alarm control method and working vehicle

Technical Field

The invention relates to the technical field of working vehicles, in particular to a box door alarm control system, a box door alarm control method and a working vehicle.

Background

A variety of rescue or fire fighting equipment is required in a fire fighting vehicle, and such equipment is placed in an equipment box of the fire fighting vehicle. A door, such as a tambour door, is positioned above the equipment cabinet. The rescue or fire-extinguishing equipment is taken and placed by the fire rescue personnel in the opening state of the box door, and the rescue or fire-extinguishing equipment is prevented from falling off in the running process of the fire-fighting vehicle in the closing state of the box door. In order to ensure the driving safety and the equipment safety, the accurate detection of the closing and opening states of the box door is very necessary. The related art lacks an apparatus or method capable of accurately detecting the open/close state of the door.

Disclosure of Invention

The present invention is directed to solving at least one of the above problems.

To this end, a first aspect of the invention provides a box door alarm control system.

The invention provides a box door alarm control method in a second aspect.

A third aspect of the invention provides a work vehicle.

To achieve the first aspect of the present invention, a box door alarm control system for a work vehicle according to an aspect of the present invention includes: a first circuit; a second circuit connected in parallel with the first circuit; the alarm circuit power supply is used for respectively supplying power to the first circuit and the second circuit; the first relay comprises a first relay coil and a first relay normally closed contact; the at least one inductive switch comprises at least one inductive switch normally open contact, and the at least one inductive switch normally open contact and the first relay coil are connected in series in the first circuit; the first alarm device, the first alarm device and the normally closed contact of the first relay are connected in series in the second circuit.

This technical scheme can monitor the open and close state of any chamber door in at least one chamber door, effectively protects the fire-fighting equipment among the operation vehicle from this.

In addition, the door alarm control system of the above technical scheme of the present invention may also have the following additional technical features:

in the above technical solution, the door alarm control system further includes: at least one third circuit connected in parallel with the first circuit; the work vehicle includes at least one lighting device, the at least one inductive switch further includes at least one inductive switch normally closed contact, the at least one inductive switch normally closed contact and the at least one lighting device are connected in series in the at least one third circuit.

According to the technical scheme, the control mode of at least one lighting device is simplified, and the fire rescue personnel can conveniently take and place the fire rescue equipment.

In any of the above technical solutions, the door alarm control system further includes: a fourth circuit connected in parallel with the first circuit; the second relay comprises a second relay coil and a second relay normally-closed contact, and the second relay coil is arranged in the fourth circuit; the delay relay comprises a delay relay coil; the second relay normally closed contact and the time delay relay coil are connected in series and are connected in parallel with the first alarm device.

According to the technical scheme, the second relay normally-closed contact and the time delay relay coil are connected in series and are connected in parallel with the first alarm device together, so that the first alarm device is controlled to alarm the opening and closing state of the box door.

In any of the above technical solutions, the door alarm control system further includes: the fifth circuit is connected with the first circuit in parallel; the second alarm device is arranged on the fifth circuit; the time delay relay also comprises a time delay relay normally open contact, and the time delay relay normally open contact and the second alarm device are connected in series in a fifth circuit; the first alarm device comprises a light alarm device, and the second alarm device comprises a sound alarm device.

According to the technical scheme, the second alarm device is turned off in a delayed mode through the circuit structure arrangement, and therefore the accuracy of alarming is improved. And light alarm device and sound alarm device mutually support, and the suggestion of second alarm device buzzing is when the strong circumstances of light, the suggestion of first alarm device light when noisy environment to further improve driving safety degree and the degree of protection to the equipment.

In any of the above technical solutions, the door alarm control system further includes: a controller; the chassis circuit system is arranged on the working vehicle so as to acquire the vehicle state of the working vehicle through the chassis circuit system; the controller controls the on-off of the second alarm device through the alarm signal line according to the vehicle state, and controls the on-off of the second relay coil through the neutral signal line according to the vehicle state.

According to the technical scheme, the second alarm device is directly controlled according to the vehicle state, so that the logic judgment of the box door alarm control system can be guaranteed to be reasonable under various conditions such as different vehicle states, different power states and different gear states, and the problem of false alarm of the second alarm device is avoided.

In order to implement the second aspect of the present invention, a technical solution of the present invention provides a box door alarm control method, where, by using the box door alarm control system according to any one of the technical solutions of the present invention, the box door alarm control method includes: at least one inductive switch detects the open and close state of the box door of the working vehicle; on the basis of the opening and closing state, all the box doors are closed, the normally open contacts of the inductive switches are all closed, and the normally closed contact of the first relay is opened, so that the first alarm device is closed; and on the basis of the opening and closing state, the part of the box doors are not closed, the normally open contact of at least one induction switch is disconnected, and the normally closed contact of the first relay is closed, so that the first alarm device is opened and gives an alarm.

The technical scheme can provide a reasonable alarm control logic for the unclosed doors of a plurality of equipment boxes. The door alarm control system adopts the door alarm control system according to any technical scheme of the invention, so that the door alarm control system has all the beneficial effects of the door alarm control system according to any technical scheme of the invention.

In addition, the door alarm control method of the above technical scheme of the present invention may also have the following additional technical features:

in the above technical solution, the door alarm control method further includes: and the controller controls the second alarm device of the box door alarm control system to open and close according to the vehicle state of the working vehicle based on the condition that the opening and closing state is that part of the box doors are not closed.

One of the purposes of the technical scheme is to provide a reasonable alarm control logic for the unclosed doors in different vehicle states, different power states and different gear states. By adopting the box door alarm control method in the technical scheme, the working vehicle can execute different control logics under different vehicle states, so that the detection and judgment structure for the opening and closing state of the box door of the working vehicle corresponds to the specific vehicle state of the working vehicle, the misjudgment problem is avoided, and the driving safety and the rescue efficiency are ensured.

In any one of the above technical solutions, the vehicle state includes a vehicle driving state, a vehicle power take-off state and a vehicle gear state, and the controller controls the opening and closing of the second alarm device of the door alarm control system according to the vehicle state of the working vehicle, and specifically includes: the controller controls the second alarm device to be started and give an alarm based on the vehicle running state; the controller controls the second alarm device to be opened and closed according to the power take-off state and the gear position state of the vehicle based on the fact that the vehicle is not running.

Based on the fact that the opening and closing state is that part of the box doors are not closed and the vehicle running state is that the vehicle runs, the situation that the box doors are not completely or completely closed necessarily occurs, and therefore the technical scheme controls the second alarm device to be opened and give an alarm under the situation. If the opening and closing state is that part of the box doors are not closed and the vehicle running state is that the vehicle does not run, the box doors may be opened because the rescue workers take and place the rescue equipment. At the moment, the second alarm device is controlled to be opened and closed according to the power taking state and the gear state of the vehicle, so that misjudgment and interference on rescuers are avoided.

Among the above-mentioned any technical scheme, the controller specifically includes according to the switching of vehicle power takeoff state and vehicle gear state control second alarm device: the controller controls the second alarm device to be closed based on the vehicle power take-off state to load and take off power on the vehicle; based on the power take-off state of the vehicle, power take-off is carried out on the chassis of the vehicle, and the gear state of the vehicle is that the vehicle is not in neutral or the vehicle is switched to the non-neutral, the controller controls the second alarm device to be started and give an alarm; based on the power taking state of the vehicle, the power taking state of the vehicle chassis is the power taking state of the vehicle chassis, the gear state of the vehicle is the neutral gear of the vehicle or the vehicle is switched to the neutral gear, the controller controls the second alarm device to be started and give an alarm, and controls the second relay coil of the box door alarm control system to be disconnected, the second relay normally-closed contact to be closed, the time delay relay coil to be closed, and the time delay relay normally-open contact to be disconnected, so that the second alarm device is closed in a time delay mode after being started.

Based on the fact that the vehicle does not run according to the running state of the vehicle, the power take-off state and the gear state of the vehicle are further judged according to the technical scheme. Wherein the vehicle power-on indicates that the work vehicle is performing rescue, and the second warning device is controlled to be turned off at the moment. Based on the vehicle driving state being that the vehicle is not driving and the vehicle power take-off state being that the vehicle chassis power take-off, the vehicle gear state needs to be further judged. Specifically, if the vehicle gear state is that the vehicle is not in neutral or the vehicle is switched to non-neutral, the working vehicle is indicated to be running or about to start, and the door opening at the moment belongs to abnormal opening, so that the second alarm device is controlled to be opened and give an alarm. Accordingly, if the power take-off state of the vehicle is the power take-off state of the vehicle chassis, and the gear state of the vehicle is the neutral gear of the vehicle or the vehicle is switched to the neutral gear, the second warning device needs to be turned off after being turned on in a delayed manner. Thereby. When a driver gets off the vehicle and puts the vehicle into the neutral position before closing the door, the delay relay delays for a certain time and then cuts off the power, the audible and visual alarm continues to light and buzzes, and after a certain time, the audible and visual alarm stops working.

In order to realize the third aspect of the invention, the technical scheme of the invention provides a working vehicle, which comprises at least one equipment box and a box door alarm control system according to any one of the technical schemes of the invention, wherein the at least one equipment box is provided with at least one box door; or the working vehicle alarms by adopting the box door alarm control method according to any technical scheme of the invention.

The working vehicle according to the technical scheme of the invention has all the beneficial effects of the box door alarm control system or the box door alarm control method according to any technical scheme of the invention.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic diagram of the components of a door alarm control system according to one embodiment of the present invention;

FIG. 2 is a schematic illustration of the construction of at least one equipment rack of one embodiment of the present invention;

FIG. 3 is a schematic diagram of the first and second alarm devices in cooperation with a controller according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of the components of a door alarm control system in accordance with one embodiment of the present invention;

FIG. 5 is a circuit diagram of a door alarm control system in accordance with one embodiment of the present invention;

FIG. 6 is a flowchart illustrating steps of a door alarm control method according to one embodiment of the present invention;

FIG. 7 is a flowchart illustrating a second step of a door alarm control method according to an embodiment of the present invention;

FIG. 8 is a third flowchart illustrating the steps of a door alarm control method according to an embodiment of the present invention;

FIG. 9 is a fourth flowchart illustrating the steps of a door alarm control method according to one embodiment of the present invention;

FIG. 10 is a flowchart illustrating a fifth step of a door alarm control method according to an embodiment of the present invention;

fig. 11 is a schematic composition diagram of a work vehicle according to an embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the part names in fig. 1 to 5 and 11 is:

100: work vehicle, 200: cab, 210: controller, 222: first warning device, 224: second warning device, 300: a chassis, 310: at least one equipment box, 320: at least one lighting device, 330: at least one door, 400: vehicle power supply, 500: chassis circuitry, 600: door alarm control system, 610: alarm circuit power supply, 612: positive electrode, 614: negative electrode, 616: power switch, 618: safety device, 620: at least one inductive switch, 622: at least one inductive switch normally open contact, 624: at least one inductive switch normally closed contact, 630: first relay, 632: first relay coil, 634: first relay normally closed contact, 640: second relay, 642: second relay coil, 644: second relay normally closed contact, 650: time delay relay, 652: time delay relay coil, 654: time delay relay normally open contact, 660: neutral signal line, 670: alarm signal line, 682: first circuit, 684: second circuit, 686: at least one third circuit, 688: fourth circuit, 690: and a fifth circuit.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

A box door alarm control system 600, a box door alarm control method, and a work vehicle 100 according to some embodiments of the present invention will be described below with reference to fig. 1 to 11.

Example 1:

as shown in fig. 1 and 4, the present embodiment provides a box door alarm control system 600 for a work vehicle 100, the box door alarm control system 600 including: a first circuit 682, a second circuit 684, an alarm circuit power supply 610, a first relay 630, at least one inductive switch 620, and a first alarm device 222. The second circuit 684 is connected in parallel with the first circuit 682. The alarm circuit power supply 610 is used to power the first circuit 682 and the second circuit 684, respectively. The first relay 630 includes a first relay coil 632 and a first relay normally closed contact 634. The at least one inductive switch 620 includes at least one inductive switch normally open contact 622, the at least one inductive switch normally open contact 622 and the first relay coil 632 are connected in series in a first circuit 682. The first alarm device 222 and the first relay normally closed contact 634 are connected in series in a second circuit 684.

The working vehicle 100 of the embodiment is an emergency rescue vehicle mainly composed of a chassis 300, a foam system, a waterway system, an electrical system, a lighting alarm system and the like, and the working vehicle 100 can carry emergency rescue equipment and equipment along with the vehicle so as to quickly reach an fire-extinguishing rescue site and implement the purpose of fire-extinguishing rescue. Work vehicle 100 is typically equipped with equipment such as water guns, hoses, portable fire extinguishers, portable lights, protective tools, demolition tools, emergency tools, and the like. The electric control cabinet comprises a wired and wireless remote controller or a small control box and other control systems, and is generally distributed in at least one equipment box 310 on the left side, the right side or the tail of the vehicle.

At least one equipment box 310 of the working vehicle 100 is shielded by adopting a box door structure, at least one box door 330 is simple in structure, convenient to open and close and high in reliability, and can be an aluminum alloy pull rod box door, the box door lock catch can be automatically folded by slightly lifting upwards when the box door is opened, and the box door lock catch can be automatically locked by downwards and forcibly pulling the box door lock catch to the limiting stopper when the box door is closed.

For the working vehicle 100, if the doors are not closed or not closed in place after the rescue workers take and place the equipment, at least one equipment box 310 may be automatically opened in the driving process, so that economic losses such as loss of fire-fighting equipment in the vehicle and the like are caused, and therefore, in the embodiment, the driving cab 200 is provided with the alarm device to warn the driver, so that driving safety is improved, and property safety is guaranteed.

To this end, the present embodiment provides a box door alarm control system 600 for the work vehicle 100. As shown in fig. 2, at least one equipment box 310, which may be one or more in number, is disposed on the chassis 300 of the work vehicle 100, and each of the at least one equipment box 310 is equipped with a box door. An inductive switch is disposed on each of the at least one box door 330, and the inductive switch is an electromagnetic inductive switch. Each of the at least one inductive switches 620 is provided with at least one inductive switch normally open contact 622 and at least one inductive switch normally closed contact 624.

The door alarm control system 600 is powered by an alarm circuit power supply 610, the alarm circuit power supply 610 being two 12 volt dc power supplies connected in series to output a 24 volt power supply. The alarm circuit power supply 610 includes: a power switch 616 and a fuse 618. The power switch 616 is connected in series with the first circuit 682 and the second circuit 684 respectively, and is used for controlling the on/off of the first circuit 682 and the second circuit 684. A safety device 618 is provided between the positive 612 and negative 614 poles of the alarm circuit power supply 610 and is connected in series with the power switch 616. As shown in fig. 3, the alarm device includes a first alarm device 222 and a second alarm device 224, wherein the first alarm device 222 is an alarm lamp, and the second alarm device 224 is an alarm horn.

As shown in fig. 4, the alarm circuit power supply 610 is a first circuit 682 and a second circuit 684, wherein the normally open contacts of each of the at least one inductive switches 620 are connected in series with each other and ultimately in series with the first relay coil 632 of the first relay 630 in the first circuit 682. The second circuit 684 is connected in parallel with the first circuit 682. The first relay normally closed contact 634 of the first relay 630 is connected in series with the first alarm device 222 in a second circuit 684.

Thus, when all of the at least one doors 330 are normally closed, each of the at least one inductive switch normally open contacts 622 is closed, each of the at least one inductive switch normally closed contacts 624 is open, the first relay coil 632 is closed, the first relay normally closed contact 634 is open, the second circuit 684 is open, and the first alarm device 222 does not alarm.

When one or more doors of at least one door 330 are not closed or are accidentally opened, one or more of the at least one inductive switch normally open contacts 622 are open, one or more inductive switch normally closed contacts of the at least one inductive switch normally closed contacts 624 remain closed, the first relay coil 632 is open, the first relay normally closed contact 634 is closed, the first circuit 682 and the second circuit 684 are connected, and the first alarm device 222 alarms.

Thus, the present embodiment can monitor the open/closed state of any one of at least one of the doors 330, thereby effectively protecting fire equipment in the work vehicle 100.

Example 2:

as shown in fig. 3, the present embodiment provides a box door alarm control system 600, and in addition to the technical features of the above embodiment, the present embodiment further includes the following technical features.

Door alarm control system 600 further includes: at least one third circuit 686. At least one third circuit 686 is connected in parallel with the first circuit 682. The work vehicle 100 includes at least one lighting device 320, the at least one inductive switch 620 further includes at least one inductive switch normally closed contact 624, and the at least one inductive switch normally closed contact 624 and the at least one lighting device 320 are connected in series in at least one third circuit 686.

In this embodiment, any one of the at least one third circuit 686 is connected with a normally closed contact of an inductive switch. In other words, each of the at least one inductive switch normally closed contacts 624 is disposed in each of the at least one third circuits 686, respectively. In addition, a lighting device connected in series with the normally closed contact of the inductive switch is connected to each of the at least one third circuit 686. In other words, each of the at least one lighting fixture 320 is provided in each of the at least one third circuit 686, respectively.

As each of the at least one inductive switch normally closed contacts 624 respectively mate with each of the at least one inductive switch normally open contacts 622 in pairs. Therefore, when one or more doors of at least one door 330 are opened, the normally open contact of the corresponding inductive switch is opened, and the normally closed contact of the corresponding inductive switch is kept closed, so that the third circuit corresponding to a certain door in the at least one third circuit 686 is turned on, and the lighting device corresponding to a certain door in the at least one lighting device 320 is turned on, so as to realize lighting of the internal space of a certain door.

Therefore, the present embodiment simplifies the control manner of the at least one lighting device 320, and facilitates the fire rescue personnel to take and place the fire rescue equipment.

Example 3:

as shown in fig. 3 and 5, the present embodiment provides a box door alarm control system 600, and in addition to the technical features of the above embodiments, the present embodiment further includes the following technical features.

Door alarm control system 600 further includes: a fourth circuit 688, a second relay 640, and a time delay relay 650. The fourth circuit 688 is connected in parallel with the first circuit 682. The second relay 640 includes a second relay coil 642 and a second relay normally-closed contact 644, and the second relay coil 642 is provided in the fourth circuit 688. Delay relay 650 includes a delay relay coil 652. The second relay normally closed contact 644 and the time delay relay coil 652 are connected in series and are connected in parallel with the first alarm device 222.

The second relay normally closed contact 644 and the delay relay coil 652 are connected in series and are connected in parallel with the first alarm device 222 together to control the first alarm device 222 to alarm the opening and closing state of the door.

Example 4:

as shown in fig. 3 and 5, the present embodiment provides a box door alarm control system 600, and in addition to the technical features of embodiment 3, the present embodiment further includes the following technical features.

Door alarm control system 600 further includes: a fifth circuit 690 and a second alarm device 224, the second alarm device 224 being provided in the fifth circuit 690. The fifth circuit 690 is connected in parallel with the first circuit 682. The time delay relay 650 further includes a time delay relay normally open contact 654, and the time delay relay normally open contact 654 and the second warning device 224 are connected in series in a fifth circuit 690. Wherein the first alarm device 222 comprises a light alarm device and the second alarm device 224 comprises an audible alarm device.

In this embodiment, the second relay 640 and the time delay relay 650 cooperate to jointly control the second alarm device 224. It should be noted that the first alarm device 222 includes a light alarm device, and the second alarm device 224 includes an audible alarm device. A light alarm device and a sound alarm device are provided in the cab 200. Wherein if a rescue operation is performed due to parking, at least one door 330 is opened, thereby enabling the first alarm device 222 to be opened. However, if the second alarm device 224, specifically an audible alarm device, is also always turned on, it may cause interference to the fire rescue personnel, resulting in misoperation of the fire rescue personnel and waste of rescue time. For example, when the work vehicle 100 is engaged in a non-neutral warning, the driver may miss the off-hook and close the trolley door to engage in neutral, and the warning disappears. Therefore, the present embodiment, through the above circuit structure arrangement, makes the second alarm device 224 turn off with a delay, and thereby improves the accuracy of the alarm. Light alarm device and sound alarm device mutually support, and second alarm device 224 buzzing suggestion under the stronger condition of light is first alarm device 222 light suggestion when in noisy environment to further improve driving safety degree and the degree of protection to the equipment.

Example 5:

as shown in fig. 3 and 5, the present embodiment provides a box door alarm control system 600, and in addition to the technical features of the above embodiments, the present embodiment further includes the following technical features.

Door alarm control system 600 further includes: controller 210 and chassis circuitry 500. The chassis circuitry 500 is provided to the work vehicle 100 to obtain a vehicle state of the work vehicle 100 through the chassis circuitry 500. The controller 210 controls the second alarm device 224 to be turned on and off through an alarm signal line 670 according to the vehicle state, and controls the second relay coil 642 to be turned on and off through a neutral signal line 660 according to the vehicle state.

In this embodiment, the controller 210 can directly control the on/off of the second alarm device 224 through the alarm signal line 670, and control the on/off of the second relay coil 642 through the neutral signal line 660. Therefore, in the present embodiment, the second alarm device 224 is directly controlled according to the vehicle state, so that the logic determination of the door alarm control system 600 can be guaranteed to be reasonable under various conditions such as different vehicle states, different power states, different gear states, and the like, and the false alarm problem of the second alarm device 224 can be avoided.

Example 6:

as shown in fig. 6, this embodiment provides a door alarm control method, and with the door alarm control system according to any embodiment of the present invention, the door alarm control method includes:

step S102, at least one inductive switch detects the opening and closing state of a box door of the working vehicle;

step S104, based on the opening and closing state, all the box doors are closed, the normally open contacts of the inductive switches are all closed, and the normally closed contact of the first relay is opened, so that the first alarm device is closed;

and S106, based on the opening and closing state that part of the box door is not closed, the normally open contact of at least one inductive switch is opened, and the normally closed contact of the first relay is closed, so that the first alarm device is opened and gives an alarm.

The embodiment can provide a reasonable alarm control logic for the unclosed doors of a plurality of equipment boxes. The door alarm control system according to any embodiment of the present invention is adopted, and thus, the door alarm control system according to any embodiment of the present invention has all the advantages.

Example 7:

as shown in fig. 7, the present embodiment provides a box door alarm control method, which employs the box door alarm control system according to any embodiment of the present invention, and in addition to the technical features of embodiment 6, the present embodiment further includes the following technical features.

The door alarm control method comprises the following steps:

step S202, at least one inductive switch detects the opening and closing state of a box door of the working vehicle;

and step S204, based on the opening and closing state that part of the box doors are not closed, the controller controls the opening and closing of a second alarm device of the box door alarm control system according to the vehicle state of the working vehicle.

One of the objectives of the present embodiment is to provide a reasonable alarm control logic for the door not closed in different vehicle states, different power states, and different gear states. By adopting the door alarm control method of the embodiment, the working vehicle 100 can execute different control logics in different vehicle states, so that the detection and judgment structure for the opening and closing state of the door of the working vehicle corresponds to the specific vehicle state of the working vehicle 100, the occurrence of misjudgment is avoided, and the driving safety and the rescue efficiency are ensured.

Example 8:

as shown in fig. 8, the present embodiment provides a box door alarm control method, which employs the box door alarm control system according to any embodiment of the present invention, and in addition to the technical features of embodiment 7, the present embodiment further includes the following technical features.

The vehicle state includes a vehicle running state, a vehicle power take-off state, and a vehicle gear state. The controller is according to the switching of the second alarm device of the vehicle state control chamber door alarm control system of work vehicle, specifically includes:

step S302, controlling a second alarm device to be started and give an alarm by a controller based on the vehicle running state;

and step S304, based on the vehicle running state that the vehicle does not run, the controller controls the second alarm device to be opened and closed according to the power taking state and the gear position state of the vehicle.

In the present embodiment, the vehicle running state includes two states of vehicle running and vehicle non-running. The vehicle power take-off state comprises two states of vehicle on-board power take-off and vehicle chassis power take-off. The vehicle gear state is that the vehicle is in neutral or the vehicle is switched to neutral, and the vehicle is not in neutral or the vehicle is switched to the non-neutral.

Based on the fact that the opening and closing state is that part of the door is not closed and the vehicle running state is that the vehicle runs, the door is not completely or completely closed, so the second alarm device is controlled to be opened and give an alarm in this case. If the opening and closing state is that part of the box doors are not closed and the vehicle running state is that the vehicle does not run, the box doors may be opened because the rescue workers take and place the rescue equipment. At the moment, the second alarm device is controlled to be opened and closed according to the power taking state and the gear state of the vehicle, so that misjudgment and interference on rescuers are avoided.

Example 9:

as shown in fig. 9, the present embodiment provides a box door alarm control method, which employs the box door alarm control system according to any embodiment of the present invention, and in addition to the technical features of embodiment 8, the present embodiment further includes the following technical features.

The controller is according to the switching of vehicle power takeoff state and vehicle gear state control second alarm device, specifically includes:

step S402, controlling a second alarm device to be closed by a controller based on the vehicle power take-off state as the vehicle power take-off state;

step S404, based on the power take-off state of the vehicle as the power take-off of the vehicle chassis and the gear state of the vehicle as the non-neutral gear of the vehicle or the switching of the vehicle to the non-neutral gear, the controller controls the second alarm device to be started and give an alarm;

and S406, based on the power taking state of the vehicle, power is taken from the chassis of the vehicle, the gear state of the vehicle is in neutral gear of the vehicle or the vehicle is switched to neutral gear, the controller controls the second alarm device to be started and give an alarm, and controls a second relay coil of the box door alarm control system to be disconnected, a normally closed contact of the second relay is closed, a time delay relay coil is closed, and a normally open contact of the time delay relay is opened, so that the second alarm device is closed in a time delay mode after being started.

Based on the vehicle running state being that the vehicle is not running, the present embodiment further determines the vehicle power take-off state and the vehicle gear position state. Wherein the vehicle on-board power take off indicates that the work vehicle 100 is performing rescue, and therefore controls the second warning device to turn off at this time. Based on the vehicle driving state being that the vehicle is not driving and the vehicle power take-off state being that the vehicle chassis power take-off, the vehicle gear state needs to be further judged. Specifically, if the vehicle gear state is that the vehicle is not in neutral or the vehicle is shifted to non-neutral, it indicates that the work vehicle 100 is traveling or is about to start, and the door opening at this time is abnormal, so the second warning device is controlled to open and warn. Accordingly, if the power take-off state of the vehicle is the power take-off state of the vehicle chassis, and the gear state of the vehicle is the neutral gear of the vehicle or the vehicle is switched to the neutral gear, the second warning device needs to be turned off after being turned on in a delayed manner. Thereby. When a driver gets off the vehicle and puts the vehicle into the neutral position before closing the door, the delay relay delays for a certain time and then cuts off the power, the audible and visual alarm continues to light and buzzes, and after a certain time, the audible and visual alarm stops working. The specific time of the delay may be 60 seconds or 40 seconds or 80 seconds.

Example 10:

as shown in fig. 11, the present embodiment provides a work vehicle 100, the work vehicle 100 comprising at least one equipment box 310 and a box door alarm control system 600 according to any of the embodiments of the present invention, the at least one equipment box 310 being provided with at least one box door 330; or the work vehicle 100 alarms using the box door alarm control method according to any of the embodiments of the present invention.

Example 11:

the embodiment can provide an accurate alarm control logic that the doors are not closed under different vehicle states, different power states and different gear states. The accurate alarm control logic of the unclosed doors of a plurality of equipment boxes can be solved. In addition, this embodiment can provide audible and visual alarm when equipment case chamber door is not closed, buzzing suggestion under the stronger condition of light, light suggestion when in noisy environment. In addition, in the related art, after the vehicle is in a non-neutral alarm, the driver gets off and closes the draw bar box door to be in a neutral position, and the alarm disappears at the moment, so that repeated operation can mistakenly determine that the gear is in a problem. The present embodiment addresses the above-mentioned false alarm risk by the following control logic.

As shown in fig. 10, the present embodiment provides a box door alarm control system 600 and a box door alarm control method, where the box door alarm control method includes the following steps:

step S502, judging whether the box door is completely closed;

if yes, ending the process, and if no, executing step S504;

step S504, the audible and visual alarm gives an alarm;

step S506, judging whether the vehicle is in a running state;

if yes, go to step S512, otherwise go to step S508;

step S508, judging whether the chassis takes power;

if yes, executing step S510, otherwise ending;

step S510, judging whether the neutral position is not achieved;

if yes, go to step S512, otherwise go to step S514;

step S512, the audible and visual alarm gives an alarm;

and step S514, starting the time delay relay.

The door alarm control system 600 of the present embodiment is as follows. Work vehicle 100 includes a cab 200 and a chassis 300. Above the chassis 300 are provided at least one fixture box 310 and at least one lighting fixture 320. At least one equipment cabinet 310 and at least one door 330 and at least one inductive switch 620. Each equipment box of the at least one equipment box 310 is respectively provided with a box door and a sensing switch positioned at the closed position of the tail end of each box door. Each door is provided with at least one lighting device 320 on its side.

Work vehicle 100 also includes a vehicle power supply 400, chassis circuitry 500. A controller 210 arranged in the cab 200, and an audible and visual alarm combined by a first alarm device 222 and a second alarm device 224 and arranged in the cab 200. The controller 210 is connected to the chassis circuitry 500 and the relays and controls the audible and visual alarm. The controller 210 is ultimately connected to the circuitry of the vehicle power supply 400. The light wire and the horn wire of the audible and visual alarm are independently led out, each inductive switch in the at least one inductive switch 620 is respectively provided with two groups of normally open contacts and normally closed contacts, the controller 210 collects the vehicle running state, the vehicle power taking state and the vehicle gear state of the work vehicle 100, controls the second relay 640 and the time delay relay 650 which are specifically intermediate relays to work, and controls the light output of the first alarm device 222 and the sound output of the second alarm device 224 in the audible and visual alarm.

Specifically, the controller 210 collects the vehicle state, the power takeoff state, and the gear state of the chassis 300 in real time through a hard wire or a bus, and outputs the neutral signal and the warning signal in real time through a hard wire or a bus. Each equipment box is provided with a box door, and each box door is provided with an inductive switch. The positive pole 612 of the alarm circuit power supply 610 is connected in series with at least one inductive switch normally open contact 622 of the at least one inductive switch 620, and in series with the first relay coil 632 of the first relay 630, and then to the negative pole 614 of the alarm circuit power supply 610. The neutral signal line 660 is connected to the second relay coil 642 of the second relay 640 and then to the negative electrode 614 of the alarm circuit power supply 610. The second relay normally closed contact 644 of the second relay 640 is connected in series with the delay relay coil 652 of the delay relay 650, then connected in parallel with the lamp line of the first alarm device 222 in the audible and visual alarm, and then connected in series with the first relay normally closed contact 634 as a whole. The alarm signal line 670 of the controller 210 is connected in series with the normally open contact 654 of the time delay relay and the horn wire of the second alarm device 224 in the audible and visual alarm and then connected to the negative electrode 614 of the alarm circuit power supply 610. The at least one inductive switch normally closed contact 624 of the at least one inductive switch 620 is connected in series with the light line of the at least one lighting device 320 of the at least one pod door 330 and then in parallel with the first circuit 682.

The door alarm control method of the present embodiment is specifically as follows.

The controller 210 first determines the open/close state of at least one door 330, and when all doors are closed, the determination is directly finished. If the number of open doors in at least one door 330 is greater than or equal to 1, the light of the first alarm device 222 is turned on regardless of any operating condition.

Then, the present embodiment determines the vehicle state. The specific judgment method is as follows: when the vehicle is in a driving state, the controller 210 directly outputs a high level to operate the horn of the second alarm device 224 until all doors are closed. When the vehicle is in the parked state, the next step is performed.

The next step is: and judging the power state. Wherein the power of the vehicle is directly ended when used in the top-mount. When the power of the vehicle is used in the chassis, the next step is performed.

The next step is: and judging the gear state. Wherein, when the vehicle gear is in the non-neutral position or the neutral position is switched to the non-neutral position, the controller 210 outputs a high level to operate the horn of the second warning device 224 until all the doors are closed. When the vehicle gear is in neutral or shifts from non-neutral to neutral, the horn of the second warning device 224 is turned off after a delay of 60 seconds.

The box door alarm control system 600 is simple in circuit and reliable in control. The box door alarm control method has strict logic, and solves the problems of alarm control circuits and logics of the working vehicle that the box doors are not closed under different vehicle states, different power states and different gear states. The embodiment has the following characteristics and advantages: the alarm with light can be realized after any box door is opened. The horn does not work when the working vehicle 100 is parked for the top-loading fire extinguishing operation, so that noise and error prompt are reduced; under other working conditions, the operation vehicle 100 can accurately use the sound-light alarm to prompt the doors of drivers and passengers to be not closed, and the defect that the gears are mistakenly considered to be the gear problem during gear switching is effectively overcome.

In summary, the embodiment of the invention has the following beneficial effects:

1. embodiments of the present invention can monitor the open/closed state of any one of at least one door 330, thereby effectively protecting fire equipment in work vehicle 100.

2. In the embodiment of the invention, the light alarm device and the sound alarm device are mutually matched, the second alarm device 224 buzzes for prompting under the condition of stronger light, and the first alarm device 222 lights for prompting in a noisy environment, so that the driving safety degree and the protection degree of equipment are further improved.

3. The embodiment of the invention can provide a reasonable alarm control logic for unclosed doors in different vehicle states, different power states and different gear states. The work vehicle 100 can execute different control logics in different vehicle states, so that the detection and judgment structure of the opening and closing state of the doors of the work vehicle corresponds to the specific vehicle state of the work vehicle 100, the problem of misjudgment is avoided, and the driving safety and the rescue efficiency are ensured.

In the present invention, the terms "first", "second", and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; the term "plurality" means two or more unless expressly limited otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "left", "right", "front", "rear", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or unit must have a specific direction, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A door alarm control system for a work vehicle, comprising:

a first circuit;

a second circuit in parallel with the first circuit;

an alarm circuit power supply for supplying power to the first circuit and the second circuit, respectively;

a first relay comprising a first relay coil and a first relay normally closed contact;

at least one inductive switch including at least one inductive switch normally open contact, the at least one inductive switch normally open contact and the first relay coil being connected in series in the first circuit;

and the first alarm device and the normally closed contact of the first relay are connected in series in the second circuit.

2. The chamber door alarm control system of claim 1, further comprising:

at least one third circuit in parallel with the first circuit;

the work vehicle includes at least one lighting device, the at least one inductive switch further includes at least one inductive switch normally closed contact, the at least one inductive switch normally closed contact and the at least one lighting device are connected in series in the at least one third circuit.

3. The chamber door alarm control system of claim 1, further comprising:

a fourth circuit in parallel with the first circuit;

the second relay comprises a second relay coil and a second relay normally-closed contact, and the second relay coil is arranged in the fourth circuit;

a delay relay comprising a delay relay coil;

the second relay normally-closed contact and the time delay relay coil are connected in series and are connected with the first alarm device in parallel.

4. The chamber door alarm control system of claim 3, further comprising:

a fifth circuit in parallel with the first circuit;

the second alarm device is arranged on the fifth circuit;

the time delay relay further comprises a time delay relay normally open contact, and the time delay relay normally open contact and the second alarm device are connected in series in the fifth circuit;

the first alarm device comprises a light alarm device, and the second alarm device comprises a sound alarm device.

5. The chamber door alarm control system of claim 4, further comprising:

a controller;

the chassis circuit system is arranged on the working vehicle so as to acquire the vehicle state of the working vehicle through the chassis circuit system;

the controller controls the on-off of the second alarm device through an alarm signal line according to the vehicle state, and controls the on-off of the second relay coil through a neutral signal line according to the vehicle state.

6. A cabinet door alarm control method, characterized in that, the cabinet door alarm control system according to any one of claims 1 to 5 is adopted, and the cabinet door alarm control method comprises:

the at least one inductive switch detects the opening and closing state of a box door of the working vehicle;

on the basis that the opening and closing state is that all the box doors are closed, the normally open contacts of the inductive switches are all closed, and the normally closed contact of the first relay is opened, so that the first alarm device is closed;

and on the basis that the opening and closing state is that part of the box doors are not closed, the normally open contact of the at least one induction switch is opened, and the normally closed contact of the first relay is closed, so that the first alarm device is opened and gives an alarm.

7. The door alarm control method of claim 6, further comprising:

and based on the fact that the opening and closing state is that part of the box doors are not closed, the controller controls the opening and closing of a second alarm device of the box door alarm control system according to the vehicle state of the working vehicle.

8. The door alarm control method according to claim 7, wherein the vehicle state includes a vehicle driving state, a vehicle power take-off state, and a vehicle gear position state, and the controller controls opening and closing of the second alarm device of the door alarm control system according to the vehicle state of the work vehicle, specifically comprising:

the controller controls the second alarm device to be started and give an alarm based on the vehicle running state as vehicle running;

and based on the fact that the vehicle is not running in the vehicle running state, the controller controls the second alarm device to be opened and closed according to the power taking state and the gear position state of the vehicle.

9. The door alarm control method according to claim 8, wherein the controller controls the second alarm device to open or close according to the vehicle power take-off state and the vehicle gear state, and specifically comprises:

the controller controls the second alarm device to be turned off based on the vehicle power take-off state as the vehicle power take-off state;

the controller controls the second alarm device to be started and alarm based on the vehicle power taking state as the vehicle chassis power taking state and the vehicle gear state as the vehicle non-neutral gear or the vehicle is switched to the non-neutral gear;

and based on the fact that the power take-off state of the vehicle is that the power take-off state of the vehicle chassis is that the vehicle is in neutral gear or the vehicle is switched to neutral gear, the controller controls the second alarm device to be started and give an alarm, and controls a second relay coil of the box door alarm control system to be disconnected, a second relay normally-closed contact is closed, a time delay relay coil is closed, and a time delay relay normally-open contact is disconnected, so that the second alarm device is closed in a time delay mode after being started.

10. A working vehicle is characterized in that,

the work vehicle comprising at least one equipment box provided with at least one box door and the box door alarm control system of any one of claims 1 to 5; or

The work vehicle performs alarming by using the box door alarm control method according to any one of claims 6 to 9.

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