BE1029238B1 - A control device for the hydrogen fuel battery electric propulsion system - Google Patents

Abstract

The present invention describes a control device for the hydrogen fuel battery electric propulsion system, including the main body installed at the top of the installation plane and the monitoring system, two plugs are installed at the bottom of the main body subscribed, and a slot is opened at the top of the installation plane, the lower end of the plugs is inserted into the slot, an anti-detachment structure is installed on two sides of the upper part of the installation plane with respect to each slot, the anti-detachment structure includes a base plate and a rotating lock bar, the subscribed base plate is installed on the surface of the upper part of the installation plane; the stability of the electric relay can be effectively improved after installation by the installed anti-detachment device to avoid detachment even falling of the electric relay during subsequent use, to ensure the stability of the electric relay during operation and not affect the normal assembly and disassembly of the electrical relay; Through the installed monitoring system, real-time monitoring of the surface temperature of the electrical relay can be realized and a warning is given in case of abnormal temperature, the connection between the main module of the electrical relay and the control module The origin is cut off to play a shutdown protection role.

Description

A control device for the hydrogen fuel battery electric propulsion system

Technical field

The present invention belongs to the technical field of the control device for the battery system, in particular it is a control device for the hydrogen fuel battery electric propulsion system.

Background technology

The working principle of hydrogen fuel battery is the electrochemical reaction using hydrogen and oxygen for the output of water, electricity and heat and no pollution and carbon dioxide will be produced During this period, it is one of the most important means of implementing the practice of energy reform in the field of transportation and realizing carbon balance, and the hydrogen fuel battery electric propulsion system is an advanced propulsion system based on the hydrogen fuel battery system, which is composed of the central control unit, the signal acquisition module, the actuator, the control device and several sub- modules, among which the control device includes the electrical relay used for monitoring and controlling the circuit, this electrical relay is an electrical control device which is composed of the control system (also known as the input circuit) and the system controlled (also known as output circuit), it is generally used in automatic control circuit, which is in effect an "automatic switch" using the weaker circuit to control the stronger current.

As a control arrangement for the hydrogen fuel battery electric propulsion system, the plugs of the current electrical relay are generally directly inserted into the slot on the installation plane to realize the connection, however, since it there is no anti-detachment structure between the main body and the installation plane, the stability of the installed electrical relay is lower, and the risk of detachment affects the subsequent stable operation of the electrical relay, therefore, the present invention provides a control device for the hydrogen fuel battery electric propulsion system.

Contents of the invention BE20225597

The purpose of the present invention is to provide a control device for the hydrogen fuel battery electric propulsion system to solve the problem of lower stability of the installed electrical relay and the risk of detachment presented in the background technology above.

For achieving the above object, the invention provides a technical solution as follows: A control device for the hydrogen fuel battery electric propulsion system, including the main body installed at the top of the plane installation and monitoring system, two plugs are installed at the bottom of the main body, and a slot is opened at the top of the installation plane, the lower end of the plugs is inserted into the slot, which are characterized in that : an anti-detachment structure is installed on two sides of the upper part of the installation plane with respect to each slot, the anti-detachment structure includes the base plate and the rotating lock bar, the base plate is fixed on the surface of the upper part of the installation plane, and the rotating lock bar is installed on the surface of the upper part of the base plate, bar bayonets are openings on two sides of the plugs, and the end of the rotating lock bar is inserted into the bar bayonet, a base column is attached to one side of the surface of the upper part of the base plate relative to the rotating lock bar, and the surface of the column base is wrapped by a base sleeve in a sliding manner, a side blocking plate is fixed to one side of the base sleeve, a convex limit block is fixed to the bottom surface of the side blocking plate, a limit is opened on the surface of the rotating blocking bar, the convex limit block is inserted into the limit hole, a traversed slot is opened on the surface of the base column in a traversed manner, and a traversed rod is installed at inside the traversed slot in a traversed manner, the two ends of the traversed rod are respectively fixed to the two-sided inner walls of the base sleeve, a spring is connected between the traversed rod and the inner wall of the upper end of the slot crossed.

Preferably, the monitoring system comprises the main control module, the monitoring module, the identification module, the decision module, the data transmission module, the data processing module, the control module, the thermal sensor chip, warning mode and alarm indicator, the monitoring module is connected to the main control module, the monitoring module is connected to the thermal sensor chip installed at the top of the main body by the data transmission module for monitoring the surface temperature of the main body in real time, the main control module is connected to the decision module by the data processing module, the decision module is connected to the warning module, and the warning module is connected to the alarm indicator installed at the top of the main body to start the alarm indicator and give warning when there is abnormal temperature.

Preferably, the main control module is connected to the identification module to identify whether the temperature of the main body is abnormal, the identification module is connected to the control module, the control module is a module exists in the control system original control of the electric relay for the connection of other modules in the electric propulsion system, when the identification module detects abnormal temperature of the electric relay, it cuts off the connection between the control module and the main control module to that the electric relay cannot continue to operate in the electric propulsion system and avoids sending the wrong operation order and carries out the shutdown protection of the electric relay.

Preferably, the surface of the main body is wrapped with an outer frame in a sliding manner, and a protective cover is fixed on the surface of the frame, the protective cover wraps the cover of the anti-detachment structure inside.

Preferably, internal base wedges are installed recessed in the two-sided internal walls of the outer frame, an integral curved bulge is installed on the surface of the internal base wedges, two side locking slots are opened on the surface of two sides of the main body, the curved bulge is recessed into one of the side locking slot.

Preferably, a lever hole is opened on the surface of the protective cover, and the protective cover is made of transparent material.

Preferably, two boundary blocks are installed on the surface of two sides of the main body (1), and the boundary blocks are rectangular.

The beneficial effects of the present invention compared with current technology are: 1. The stability of the installed electrical relay can be effectively increased by the installed anti-detachment structure to prevent detachment even falling of the electrical relay in subsequent use, ensure the stability of the electrical relay during operation and not affect the normal assembly and disassembly of the electrical relay. 2. Real-time monitoring of the surface temperature of the electrical relay can be achieved by the installed monitoring system, and in case of abnormal temperature, the alarm will be given and the connection between the main control module and the module original control of the electrical relay will be cut off for shutdown and protection. 3. The wrapping protection of the plugs at the bottom of the electrical relay during daily use can be realized by the installed structures such as external frame, protective cover, etc., and the anti-detachment structure is wrapped in the cover of the anti-detachment structure to further guarantee the installation stability of the electrical relay.

Figure Instructions

Figure 1 is the structural diagram of the invention;

Figure 2 is the framework diagram of the monitoring system of the invention;

Figure 3 is the local enlargement diagram of zone A in invention figure 1;

Figure 4 is the local enlargement diagram of zone B in invention figure 3;

Figure 5 is the local enlargement diagram of zone C in invention figure 3;

In the figures: 1. Main body; 2. Senior manager; 3. Installation plan; 4. Base plate; 5. Rotating lock bar; 6. Bar bayonets; 7. Temperature sensor chip; 8. Alarm indicator; 9. External framework; 10. Protective cover; 11. Side blocking slot; 12. Basic column; 13. Base sleeve; 14. Crossing slot; 15. Cross rod; 16. Spring; 17. Side blocking plate; 18. Convex boundary block; 19. Internal base wedge; 20. Curved bulge.

Specific means of realization

A clear and complete description of the technical solution in the exemplary embodiment of the present invention will be made below by combining the figures in the exemplary embodiment of the invention, obviously, the exemplary embodiment described does not is only part of the embodiment examples, and is not all the embodiment examples. Based on the exemplary embodiment in the present invention, all other exemplary embodiments obtained by the ordinary technical person in this field without doing any creative work fall within the scope of the protection of the present invention.

Example of production 3E2022/9597

Please see Figure 1 to Figure 5, the present invention provides a technical solution: a control device for the hydrogen fuel battery electric propulsion system, including the main body 1 installed on the top of the installation plane 3 and the monitoring system 5, two plugs 2 are installed at the bottom of the main body 1, and a slot is opened at the top of the installation plane 3 which corresponds to the plugs 2, the lower end of the plugs 2 is inserted into the slot to realize the normal insertion installation of the main body 1 of the electric relay, the base plate 4 is fixed on the surface of the upper installation plane 3, and the rotating lock bar 5 is installed at the surface of the upper part of the base plate 4, bar bayonets 6 corresponding to the rotating lock bar 5 are openings on two sides of the plugs 2, and the end of the rotating lock bar 5 is inserted into the bar bayonet 6 for the anti-detachment limit of the plugs 2 and the increase of the installation stability, a base column 12 is fixed to one side of the surface of the upper part of the base plate 4 by relative to the rotating lock bar 5, and the surface of the base column 12 is wrapped by a base sleeve 13 in a sliding manner, a side lock plate 17 is fixed to one side of the base sleeve 13, a block of convex limit 18 is fixed on the bottom surface of the side blocking plate 17, a limit hole is opened on the surface of the rotating blocking bar 5 corresponding to the convex limit block, the convex limit block 18 is inserted into the limit hole for the limit of the rotating lock bar 5, a through slot 14 is opened on the surface of the base column 12 in a through manner, and a through rod 15 is installed inside the through slot 14 in a traversed manner, the two ends of the traversed rod 15 are respectively fixed to the two-sided inner walls of the base sleeve 13, a spring 16 is connected between the traversed rod 15 and the inner wall of the upper end of the traversed slot 14, so that the base sleeve 13 can be reengaged after being pulled up and pushed by the spring 16.

In the present embodiment, preferably, the monitoring system comprises the main control module, the monitoring module, the identification module, the decision module, the data transmission module, the data processing module. data, the control module, the thermal sensor chip 7, the warning mode and the alarm indicator 8, the monitoring module is connected to the main control module, the monitoring module is connected to the chip of the thermal sensor 7 installed at the top of the main body 1 by the data transmission module to monitor the surface temperature of the main body 1 in real time, the main control module is connected to the decision module by the data processing module , the decision module is connected to the warning module, and the warning module is connected to the alarm indicator 8 installed at the top of the main body 1 to start the alarm indicator 8 and give warning in case of abnormal temperature. The main control module is connected to the identification module to identify whether the temperature of the main body 1 is abnormal, the identification module is connected to the control module, the control module is a module exists in the control system of origin of the electrical relay for the connection of other modules in the electric propulsion system, when the identification module detects an abnormal temperature of the electrical relay, it cuts the connection between the control module and the main control module so that the electric relay cannot continue to operate in the electric propulsion system and avoids sending the wrong operation order and carries out the shutdown protection of the electric relay.

In the present embodiment, preferably, the surface of the main body 1 is wrapped with an outer frame 9 in a sliding manner, and a protective cover 10 is fixed on the surface of the frame 9, the protective cover 10 envelops the anti-detachment structure cover inside to further guarantee the installation stability of the electrical relay.

In the present embodiment, preferably, internal base wedges 19 are installed recessed in the two-sided internal walls of the outer frame 9, an integral curved bulge 20 is installed on the surface of the internal base wedges 19 , the internal base wedges 19 and the curved bulge 20 are all made of fluorine elastomer, two side locking slots 11 are open on the surface of two sides of the main body 1, the curved bulge 20 is embedded in one of the locking slot lateral 11 for the limit after sliding up and down the outer frame 9.

In the present embodiment, preferably, rectangular lever holes are opened on the two-sided surface of the protective cover 10 to facilitate the operator's pushing on the protective cover 10, and the protective cover 10 is made of transparent material, transparent material here means transparent acrylic.

In the present embodiment, preferably, two boundary blocks are installed on the two-sided surface of the main body 1, and the boundary blocks are rectangular to prevent the outer frame 9 from falling from the main body 1 when its sliding up and down 0225597

The model of the thermal sensor chip 7 in the present invention can be

SMT16030.

Working principle and procedures for using the present invention: When inserting the plugs 2 at the bottom of the main body 1 into the slot at the upper part of the installation plane 3, the sleeve can first be pulled out. base 13 upwards so that the crossing rod and spring 16 can be gradually compressed, the blocking plate 17 moves upwards and the convex limit block 18 comes out of the limit hole, at this time, the rotating locking bar so that the rotating locking bar does not block the normal insertion of the plugs 2, and then the lower end of the plugs is inserted into the slot to achieve normal insertion between the main body 1 and the installation plan 3, then pull the base sleeve 13 upwards and turn the rotating lock bar 5 so that the rotating lock bar 5 can be inserted into the bar bayonet 6, release the base sleeve 13 so that the spring 13 pushes back the crossing rod 15, the base sleeve 13 and the side locking plate 17 are reengaged and rebounded and the convex limit block 18 engages in the limit hole and the limit of the bar rotary locking bar 5 is therefore achieved, and a good anti-detachment effect of the male plugs 2 is achieved by the rotary locking bar 5 in order to avoid detachment even the fall of the electrical relay in subsequent use and to guarantee stability electrical relay operation;

Finally, the external frame 9 is firmly pushed downwards so that the external frame 9 slides to the bottom of the main body 1, the protective cover 10 envelops the junction of the male plugs 2 and the installation plane at the inside, and the curved bulge 20 snaps into the side locking slot 11 at the bottom to realize the wrap protection of the plugs 2 at the bottom of the electrical relay, wrap the cover of the anti-detachment structure inside and further guarantee the installation stability of the electrical relay;

During daily use of the electrical relay, the sensor chip 7 monitors the surface temperature of the main body 1 in real time, and simultaneously transmits the temperature data to the monitoring module through the data transmission module, and the transmits to the main control module by the monitoring module so that the main control module transmits the data to the data processing module and the data processing module transmits the data to the decision module after processing, at this time, the decision module determines the temperature data, in case of abnormal temperature, the warning mode will be started and the alarm indicator lights up to give warning, and at the same time the main control module sends the order to the identification module through the determination structure of the identification module, when the identification module identifies that the temperature is abnormal, it will cut off the connection between the control module and the main control module to realize the shutdown and protection and that the operation and maintenance person can detect it in time.

Notwithstanding the exemplary embodiment has been given and described, for an ordinary technical person in this field, it is understood that multiple modifications, changes, replacements and variations can be made to these exemplary embodiments without deviating from the principle and the spirit of the present invention, and the scope of the present invention is limited by the appended claims and their equivalents.

Claims (7)

Claims 3E2022/9597 1. A control device for the hydrogen fuel battery electric propulsion system, including the main body (1) installed on the top of the installation plane (3) and the monitoring system, two plugs (2) are installed at the bottom of the main body (1), and a slot is opened at the top of the installation plane (3), the lower end of the subscribed plugs (2) is inserted into the slot, which are characterized in that : an anti-detachment structure is installed on two sides of the upper part of the installation plane (3) with respect to each slot, the anti-detachment structure includes the base plate (4) and the rotating lock bar (5 ), the subscribed base plate is fixed on the surface of the upper part of the installation plane (3), and the rotating lock bar (5) is installed on the surface of the upper part of the base plate (4 ), bar bayonets (6) are openings on two sides of the plugs (2) subscribed, and the end of the rotating lock bar (5) is inserted into the bar bayonet (6), a base column (12) is fixed to one side of the surface of the upper part of the base plate (4) relative to the rotating lock bar (5), and the surface of the base column (12) is wrapped by a base sleeve (13) in a sliding manner, a side blocking plate (17) is fixed to one side of the base sleeve (13), a convex limit block (18) is fixed to the bottom surface of the base sleeve (13) side lock (17), a limit hole is opened on the surface of the rotating lock bar (5), the subscribed convex limit block (18) is inserted into the limit hole, a through slot (14) is opened on the surface of the base column (12) in a traversed manner, and a traversed rod (15) is installed inside the traversed slot (14) in a traversed manner, both ends of the traversed rod (15) subscribed are respectively fixed to the two-sided inner walls of the base sleeve (13), a spring (16) is connected between the subscribed through rod (15) and the inner wall of the upper end of the through slot (14). 2. A control device for the hydrogen fuel battery electric propulsion system described in claim 1, which is characterized in that the monitoring system comprises the main control module, the monitoring module, the monitoring module identification, decision module, data transmission module, data processing module, control module, thermal sensor chip (7), warning mode and alarm indicator (8) , the subscribed monitoring module is connected to the main control module, the subscribed monitoring module is connected to the thermal sensor chip (7) installed at the top of the main body (1) by the data transmission module to monitor 0997 the surface temperature of the main body (1) in real time, the main control module is connected to the decision module by the processing module data, the decision module is connected to the warning module, and the warning module is connected to the alarm indicator (8) installed at the top of the main body (1) to start the alarm indicator (8) and give a warning in case of abnormal temperature. 3. A control device for the hydrogen fuel battery electric propulsion system described in claim 2, which is characterized in that the subscribed main control module is connected to the identification module to identify whether the body temperature main (1) is abnormal, the subscribed identification module is connected to the control module, the control module is a module exists in the original control system of the electrical relay for the connection of other modules in the propulsion system electric, when the identification module detects abnormal temperature of the electric relay, it cuts off the connection between the control module and the main control module so that the electric relay cannot continue to work in the electric propulsion system and avoids sends false operation order and performs electrical relay shutdown protection. 4. A control device for the hydrogen fuel battery electric propulsion system described in claim 1, which is characterized in that the surface of the main body (1) subscribed is enveloped by an external frame (9) of sliding manner, and a protective cover (10) is fixed on the surface of the frame (9), the subscribed protective cover (10) wraps the cover of the anti-detachment structure inside. 5. A control device for the hydrogen fuel battery electric propulsion system described in claim 4, which is characterized in that internal base wedges (19) are installed recessed in the two-sided internal walls of the external frame (9) subscribed, an integral curved bulge (20) is installed on the surface of the internal base wedges (19), two side locking slots (11) are opened on the surface of two sides of the main body (1 ) subscribed, the curved bulge (20) subscribed is embedded in one of the side locking slot (11). 6. A control device for the hydrogen fuel battery electric propulsion system described in claim 4, which is characterized in that a lever hole is opened on the surface of the protective cover (10) subscribed, and the ae 599 protective cover in transparent material. 7. A control device for the hydrogen fuel battery electric propulsion system described in claim 1, which is characterized in that two boundary blocks are installed on the surface of two sides of the main body (1), and boundary blocks are rectangular.