CN216709250U - Intelligent starting system and excavator - Google Patents

Abstract

The application provides an intelligence start-up system and excavator, wherein, intelligence start-up system includes: the wireless key comprises a controller, a wireless key, a one-key starting switch and a first wireless receiving antenna; the first wireless receiving antenna is in wireless connection with the wireless key and is connected with a first interface on the controller, and when a key signal of the wireless key is detected, the key signal is sent to the controller; the one-key starting switch is connected with a second interface on the controller and used for sending a first power-on signal or a starting signal to the controller according to user input; the controller sends the first electrifying signal to the electric power control system when receiving the key signal and the first electrifying signal, or sends the starting signal to the power system and sends the second electrifying signal to the electric power control system when receiving the key signal and the starting signal. The intelligent starting system in the application enables the excavator to be powered on and started through the cooperation of the wireless key and the one-key starting switch, and the safety of the excavator is improved.

Description

Intelligent starting system and excavator

Technical Field

The application relates to the technical field of mechanical equipment control, in particular to an intelligent starting system and an excavator.

Background

The existing excavator generally uses a metal key to realize starting after rotation, and the metal key and other locks such as a door lock share one key, so that the convenience is improved, and the safety of the excavator is reduced. And the durability and operability of the key are poor due to the wear that is easily generated during the frequent use.

SUMMERY OF THE UTILITY MODEL

The technical purpose to be achieved by the embodiment of the application is to provide an intelligent starting system and an excavator, and the problems that the safety is low, the abrasion is easy to occur and the operability is poor when the starting system of the existing excavator is started by a metal key are solved.

In order to solve the above technical problem, an embodiment of the present application provides an intelligent startup system, including: the wireless key comprises a controller, a wireless key, a one-key starting switch and a first wireless receiving antenna;

wherein, the controller is provided with a plurality of interfaces;

the first wireless receiving antenna is in wireless connection with the wireless key and is connected with a first interface on the controller, and when a key signal of the wireless key is detected, the key signal is sent to the controller;

the one-key starting switch is connected with a second interface on the controller and used for sending a first power-on signal or a starting signal to the controller according to user input;

the controller is further connected with the power system through a third interface, is connected with the electric control system through a fourth interface, and sends the first electrifying signal to the electric control system when receiving the key signal and the first electrifying signal, or sends the starting signal to the power system and sends the second electrifying signal to the electric control system when receiving the key signal and the starting signal.

Specifically, in the intelligent starting system, the controller further includes a fifth interface for connecting with the vehicle controller, and when receiving the key signal and the first power-on signal, the controller sends the first power-on signal to the vehicle controller; and when receiving the key signal and the starting signal, sending the starting signal to the vehicle control unit.

Preferably, the smart start system, the one-touch start switch and the first wireless receiving antenna are integrated into a unitary structure.

Specifically, the intelligent starting system as described above further includes: the second wireless receiving antenna and the electronic door lock;

the second wireless receiving antenna is connected with a sixth interface on the controller and used for sending an unlocking signal for controlling the unlocking of the electronic door lock or a locking signal for controlling the locking of the electronic door lock to the controller according to the input of a user;

the controller is connected with the electronic door lock through the seventh interface, and when the unlocking signal or the locking signal is received, the unlocking signal or the locking signal is sent to the electronic door lock through the seventh interface.

Preferably, as mentioned above, the seventh interface comprises: a first sub-interface and a second sub-interface;

the first sub-interface is used for transmitting an unlocking signal, and the second sub-interface is used for transmitting a locking signal.

Preferably, the intelligent starting system as described above, further comprises: a voice prompt device;

the controller is connected with the voice prompt device through the eighth interface, and when the unlocking signal or the locking signal is received, the unlocking signal or the locking signal is sent to the voice prompt device through the eighth interface.

Specifically, the intelligent starting system as described above further includes: a power source;

the controller is electrically connected with the power supply through the ninth interface.

Another embodiment of the present application also provides an excavator, including: the smart boot system as described above.

Compared with the prior art, the intelligent starting system and the excavator provided by the embodiment of the application have the following beneficial effects at least:

the intelligent starting system enables a user to power on and start the excavator by controlling the one-key starting switch under the condition that the user carries the wireless key; meanwhile, the theft risk caused by the fact that the key is stolen is avoided, and the safety of the excavator is improved; and, compare in current the mode of going on to power on and starting through metal key insertion and rotation, avoided the influence to the use because of the loss that frequently uses the cause, and then improved intelligent start-up system's operability.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent starting system of the present application.

[ description of reference ]

1. A controller; 101. a seventh interface; 2. a wireless key; 3. a key start switch; 4. a first wireless receiving antenna; 5. a power system; 6. a power control system; 7. a vehicle control unit; 8. a second wireless receiving antenna; 9. an electronic door lock; 10. a voice prompt device; 11. a power source.

Detailed Description

To make the technical problems, technical solutions and advantages to be solved by the present application clearer, the following detailed description is made with reference to the accompanying drawings and specific embodiments. In the following description, specific details such as specific configurations and components are provided only to help the embodiments of the present application be fully understood. Accordingly, it will be apparent to those skilled in the art that various changes and modifications may be made to the embodiments described herein without departing from the scope and spirit of the present application. In addition, descriptions of well-known functions and constructions are omitted for clarity and conciseness.

It should be appreciated that reference throughout this specification to "one embodiment" or "an embodiment" means that a particular feature, structure or characteristic described in connection with the embodiment is included in at least one embodiment of the present application. Thus, the appearances of the phrases "in one embodiment" or "in an embodiment" in various places throughout this specification are not necessarily all referring to the same embodiment. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner in one or more embodiments.

In various embodiments of the present application, it should be understood that the sequence numbers of the following processes do not mean the execution sequence, and the execution sequence of each process should be determined by its function and inherent logic, and should not constitute any limitation to the implementation process of the embodiments of the present application.

It should be understood that the term "and/or" herein is merely one type of association relationship that describes an associated object, meaning that three relationships may exist, e.g., a and/or B may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter associated objects are in an "or" relationship.

In the embodiments provided herein, it should be understood that "B corresponding to a" means that B is associated with a from which B can be determined. It should also be understood that determining B from a does not mean determining B from a alone, but may be determined from a and/or other information.

Referring to fig. 1, an embodiment of the present application provides an intelligent startup system, including: the device comprises a controller 1, a wireless key 2, a one-key starting switch 3 and a first wireless receiving antenna 4;

wherein, the controller 1 is provided with a plurality of interfaces;

the first wireless receiving antenna 4 is wirelessly connected with the wireless key 2 and is connected with a first interface on the controller 1, and when a key signal of the wireless key 2 is detected, the key signal is sent to the controller 1;

the one-key starting switch 3 is connected with a second interface on the controller 1 and is used for sending a first power-on signal or a starting signal to the controller 1 according to user input;

the controller 1 is further connected with the power system 5 through a third interface, is connected with the electric power control system 6 through a fourth interface, and sends the first power-on signal to the electric power control system 6 when receiving the key signal and the first power-on signal, or sends the start signal to the power system 5 and sends the second power-on signal to the electric power control system 6 when receiving the key signal and the start signal.

In a preferred embodiment of the present application, an intelligent starting system for starting an excavator by using an unconventional metal key is provided, which includes: the controller comprises a controller 1, a wireless key 2, a one-key starting switch 3 and a first wireless receiving antenna 4, wherein the controller 1 is respectively connected with the one-key starting switch 3, the first wireless receiving antenna 4, a power system 5 and a power control system 6 in the excavator, and the wireless key 2 is wirelessly connected with the first wireless receiving antenna 4.

Specifically, when a user needs to power on the excavator, the user can control the one-key starting switch 3 to input through a first control mode, so that the one-key starting switch 3 sends a first power-on signal to the controller 1, and meanwhile, the first wireless receiving switch sends a key signal to the controller 1 after detecting the key signal of the wireless key 2; after receiving the first power-on signal and the key signal, the controller 1 determines the requirement of a user for powering on the excavator, and at the moment, the first power-on signal is sent to the power control system 6, so that the whole excavator is powered on; when a user needs to start the excavator, the one-key starting switch 3 is controlled to input in a second control mode, so that the one-key starting switch 3 sends a starting signal to the controller 1, and meanwhile, the first wireless receiving switch sends a key signal of the wireless key 2 to the controller 1 after detecting the key signal; after receiving the starting signal and the key signal, the controller 1 determines that the user has a requirement for starting the excavator, sends the starting signal to the power system 5 at the moment, so that the power system 5 is started according to the starting signal, and sends a second power-on signal to the power control system 6, so that the whole excavator is powered on.

To sum up, the intelligent starting system in the application enables a user to power on and start the excavator by controlling the one-key starting switch 3 under the condition of carrying the wireless key 2; meanwhile, the theft risk caused by the fact that the key is stolen is avoided, and the safety of the excavator is improved; and, compare in current the mode of going on to power on and starting through metal key insertion and rotation, avoided the influence to the use because of the loss that frequently uses the cause, and then improved intelligent start-up system's operability.

It should be noted that the control manner for controlling the one-key start switch 3 includes, but is not limited to, pressing, and different control manners can be realized by adjusting the pressing times or pressing depth.

The first wireless receiving antenna 4 may detect the key signal of the wireless key 2 at any time, or may be associated with the one-touch start switch 3, and when the one-touch start switch 3 is controlled (e.g., pressed), the detection of the key signal is started. Meanwhile, the key signal of the corresponding wireless key 2 may be transmitted periodically or may be transmitted based on a stimulus signal that is sent by the first wireless receiving antenna 4 when the key signal starts to be detected.

Preferably, the wireless connection of the wireless key 2 is preferably a bluetooth connection.

Specifically, as for the intelligent starting system, the controller 1 further includes a fifth interface for connecting with the vehicle control unit 7, and when receiving the key signal and the first power-on signal, sends the first power-on signal to the vehicle control unit 7; and when receiving the key signal and the starting signal, sending the starting signal to the vehicle control unit 7.

In another distance embodiment of the application, the controller 1 is further connected with the vehicle control unit 7 through a fifth interface, so that when the first power-on signal and/or the start signal is sent, the first power-on signal and/or the start signal is correspondingly sent to the vehicle control unit 7 for information sharing, the vehicle control unit is conveniently powered on or started according to the cooperation of the first power-on signal and/or the start signal, smooth power-on and/or start of the excavator is ensured, and meanwhile, information storage can be performed so as to facilitate subsequent historical data check under the conditions of maintenance and the like.

Preferably, the smart start system, the one-touch start switch 3 and the first wireless receiving antenna 4 are integrated into a unitary structure as described above.

In a preferred embodiment of the present application, the one-touch start switch 3 and the first wireless receiving antenna 4 are integrated into a whole structure, which facilitates the association between the one-touch start switch 3 and the first wireless receiving antenna 4, and improves the simplicity of circuit layout.

It should be noted that, since the starting of the excavator and the flameout of the excavator are opposite operations, the powering on of the excavator and the powering off of the excavator are opposite operations, and the signal transmission is similar, and thus no further description is given.

Specifically, the intelligent starting system as described above further includes: a second wireless receiving antenna 8 and an electronic door lock 9;

the second wireless receiving antenna 8 is connected with a sixth interface on the controller 1, and is used for sending an unlocking signal for controlling the electronic door lock 9 to be unlocked or a locking signal for controlling the electronic door lock 9 to be locked to the controller 1 according to user input;

the controller 1 is connected with the electronic door lock 9 through the seventh interface 101, and when receiving the unlocking signal or the locking signal, sends the unlocking signal or the locking signal to the electronic door lock 9 through the seventh interface 101.

In another embodiment of the application, the intelligent starting system further includes a second wireless receiving antenna 8 and an electronic door lock 9, wherein the second wireless receiving antenna 8 and the electronic door lock 9 are respectively connected to the controller 1, and the second wireless receiving antenna 8 is used for being wirelessly connected to the wireless key 2, and further used for receiving an unlocking signal or a locking signal sent by the wireless key 2 when a user performs an unlocking or unlocking operation of the electronic door lock 9 (for example, presses a corresponding key), and sending the unlocking signal or the locking signal to the controller 1, so that the controller 1 forwards the unlocking signal or the locking signal to the electronic door lock 9, thereby realizing the wireless unlocking or locking of the electronic door lock 9. And realize the control to lock and excavator driving system 5 and/or electric control system 6 with a key starting switch 3 cooperation, compare in the current condition that the same metal key opened the door and started, be favorable to reducing the number of times of carrying out the physics operation of a key starting switch 3 and wireless key 2, and then be favorable to improving life and the operability of a key starting switch 3 and wireless key 2.

It should be noted that the functions of the second wireless receiving antenna 8 and the first wireless receiving antenna 4 can be realized by the same antenna.

Preferably, as mentioned above, the seventh interface 101 includes: a first sub-interface and a second sub-interface;

the first sub-interface is used for transmitting an unlocking signal, and the second sub-interface is used for transmitting a locking signal.

In one embodiment of the present application, the controller 1 is connected to the electronic door lock 9 through two sub-interfaces, where the two sub-interfaces are respectively used for transmitting the unlocking signal and the locking signal, so as to realize respective control of unlocking and locking, thereby being beneficial to avoiding occurrence of a situation that unlocking or locking cannot be performed due to the fact that voltages, frequencies and the like of the unlocking signal and the locking signal are the same, and further improving the safety of the excavator.

Preferably, the intelligent starting system as described above, further comprises: an audio presentation device 10;

the controller 1 is connected with the sound prompting device 10 through the eighth interface, and when receiving the unlocking signal or the locking signal, sends the unlocking signal or the locking signal to the sound prompting device 10 through the eighth interface.

In a preferred embodiment of the present application, the intelligent starting system further includes a voice prompt device 10 connected to the controller 1, the controller 1 sends an unlocking signal or a locking signal to the electronic door lock 9, and then sends the unlocking signal or the locking signal to the voice prompt device 10 synchronously, and the voice prompt device 10 can perform voice prompt according to the received unlocking signal or locking signal, so that the user can clearly know whether the door lock is unlocked or locked, the convenience and the practicability of the whole intelligent starting system are improved, and the user experience is improved.

Optionally, the audible prompting device 10 is a vehicle horn.

Specifically, the intelligent starting system as described above further includes: a power supply 11;

the controller 1 is electrically connected to the power supply 11 through a ninth interface.

In a specific embodiment of the present application, the intelligent starting system further includes a power supply 11 electrically connected to the controller 1, the power supply 11 can supply power to the controller 1, and the controller 1 can also supply power to other devices through connection with other devices, so that the whole intelligent starting system can be normally used when the excavator is powered off. Wherein the other devices include: a one-key starting switch 3, a first wireless receiving antenna 4, a second wireless receiving antenna 8, an electronic door lock 9 and a sound prompt device 10;

alternatively, the other devices described above may be separately powered by other power sources.

Another embodiment of the present application also provides an excavator, including: the smart boot system as described above.

The excavator comprising the intelligent starting system is provided in an embodiment of the application, so that a user can unlock and lock an excavator door lock through a wireless key, the excavator is powered on and/or started through the wireless key and a key starting switch, the condition that the key is stolen and the risk of theft exists is avoided, the safety of the excavator is improved, the influence of loss caused by frequent use on use is avoided, and the operability of the intelligent starting system is improved.

Further, the present application may repeat reference numerals and/or letters in the various examples. This repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed.

It is further noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion.

The foregoing is a preferred embodiment of the present application, and it should be noted that, for those skilled in the art, several modifications and refinements can be made without departing from the principle described in the present application, and these modifications and refinements should be regarded as the protection scope of the present application.

Claims (8)

1. An intelligent start-up system, comprising: the device comprises a controller (1), a wireless key (2), a one-key starting switch (3) and a first wireless receiving antenna (4);

wherein a plurality of interfaces are arranged on the controller (1);

the first wireless receiving antenna (4) is in wireless connection with the wireless key (2) and is connected with a first interface on the controller (1), and when a key signal of the wireless key (2) is detected, the key signal is sent to the controller (1);

the one-key starting switch (3) is connected with a second interface on the controller (1) and is used for sending a first power-on signal or starting signal to the controller (1) according to user input;

the controller (1) is further connected with a power system (5) through a third interface, is connected with an electric power control system (6) through a fourth interface, and sends the first power-on signal to the electric power control system (6) when receiving the key signal and the first power-on signal, or sends the starting signal to the power system (5) and sends the second power-on signal to the electric power control system (6) when receiving the key signal and the starting signal.

2. The smart start system according to claim 1, wherein the controller (1) further comprises a fifth interface for connecting with a vehicle control unit (7), and upon receiving the key signal and the first power-on signal, transmits the first power-on signal to the vehicle control unit (7); and when the key signal and the starting signal are received, the starting signal is sent to the vehicle control unit (7).

3. The smart start system of claim 1, wherein the one-touch start switch (3) and the first wireless receiving antenna (4) are integrated into a unitary structure.

4. The smart start system of claim 1, further comprising: a second wireless receiving antenna (8) and an electronic door lock (9);

the second wireless receiving antenna (8) is connected with a sixth interface on the controller (1) and is used for sending an unlocking signal for controlling the electronic door lock (9) to be unlocked or a locking signal for controlling the electronic door lock (9) to be locked to the controller (1) according to user input;

the controller (1) is connected with the electronic door lock (9) through a seventh interface (101), and when the unlocking signal or the locking signal is received, the unlocking signal or the locking signal is sent to the electronic door lock (9) through the seventh interface (101).

5. The smart start system of claim 4, wherein the seventh interface (101) comprises: a first sub-interface and a second sub-interface;

the first sub-interface is used for transmitting the unlocking signal, and the second sub-interface is used for transmitting the locking signal.

6. The smart start system of claim 4, further comprising: an audio presentation device (10);

the controller (1) is connected with the sound prompt device (10) through an eighth interface, and when the unlocking signal or the locking signal is received, the unlocking signal or the locking signal is sent to the sound prompt device (10) through the eighth interface.

7. The smart start system of claim 1, further comprising: a power supply (11);

the controller (1) is electrically connected with the power supply (11) through a ninth interface.

8. An excavator, comprising: the smart start system of any of claims 1 to 7.

Images