CN205400393U - Automatic control device for automobile - Google Patents

Abstract

The utility model relates to an automatic control device for automobile, including control circuit, the unlocking detection circuit, lock detection circuitry closes, relay control circuit, rise the door window relay, the door window relay falls, refrative mirror relay and extension mirror relay, control circuit passes through the line connection with the unlocking detection circuit with pass lock detection circuitry respectively, the unlocking detection circuit all is connected with the switch lock of car door with pass lock detection circuitry, control circuit and relay control circuit pass through the line connection, relay control circuit respectively with rise the door window relay, the door window relay falls, the refrative mirror relay passes through the line connection with extension mirror relay, it passes through the line connection with door window elevator motor one -to -one to rise the door window relay and fall the door window relay, the refrative mirror relay all passes through the line connection with two rear -view mirror motors with extension mirror relay. The utility model discloses can go up and down fast door window and automatic folding rear -view mirror, the heat dissipation promotes the security, the practicality is strong with ventilative in the car of being convenient for.

Description

A kind of automatic controlling device for automobile

Technical field

This utility model relates to automobile technical field, particularly to a kind of device for automatically controlling drop window and rearview mirror.

Background technology

Existing automobile lifting window device is to rise window alone, drops window alone, the folding control mode that can not arrange of rearview mirror, and pass window is excessively slow, causes that stealing bag thief has an opportunity to take advantage of；Drop window excessively slow, cause that heat radiation is ventilative too slow；Rearview mirror auto-folder can not arrange folding mode, can only car locking fold, and when winter, folding rearview mirror is freezed by ice and snow, and when starting vehicle, rearview mirror cannot stretch out, and affects normal traffic safety.

Utility model content

Technical problem to be solved in the utility model is to provide one can quickly carry out lifting window and auto-folder rearview mirror, it is simple to dispels the heat in car and ventilative, promotes safety, practical automatic controlling device for automobile.

nullThe technical scheme that this utility model solves above-mentioned technical problem is as follows: a kind of automatic controlling device for automobile，Including control circuit、Unblank testing circuit、Shut testing circuit、Control relay circuit、Multiple liters of vehicle window relays、Multiple vehicle window relay drops、Refrative mirror relay and stretching, extension mirror relay，Described control circuit respectively with the described testing circuit and shut testing circuit and pass through connection of unblanking，The described testing circuit and shut testing circuit and be all connected with the switch lock of arrangements for automotive doors of unblanking，Described control circuit and described control relay circuit pass through connection，Described control relay circuit respectively with multiple liters of vehicle window relays、Vehicle window relay drops described in multiple、The control end of refrative mirror relay and stretching, extension mirror relay passes through connection，Multiple liters of vehicle window relays pass through connection with multiple window lifting motor one_to_one corresponding，Multiple vehicle window relays that drop pass through connection with multiple window lifting motor one_to_one corresponding，Described refrative mirror relay and stretching, extension mirror relay all pass through connection with two rearview mirror motors.

The beneficial effects of the utility model are: shut testing circuit detection and close lock signal, control circuit controls multiple liters of vehicle window relays and the running of refrative mirror relay according to closing lock signal by control relay circuit, realize quickly carrying out rising vehicle window and folding wing mirror, Automated condtrol, promote the efficiency closing window and folding wing mirror, effectively prevent closing window excessively slow, it is to avoid the finance in car are stolen；Unblank testing circuit detection unlocking signal, control circuit controls multiple vehicle window relay that drops according to unlocking signal by control relay circuit and operates with stretching, extension mirror relay, realize quickly carrying out decline vehicle window and stretching rearview mirror, Automated condtrol, promoting the efficiency windowing and stretching rearview mirror, fast prompt drop window can be given automobile quick heat radiating, cooling, breathe freely.

On the basis of technique scheme, this utility model can also do following improvement.

Further, also include car window switch testing circuit and switch for rear-vision mirror testing circuit, described car window switch testing circuit and switch for rear-vision mirror testing circuit all pass through connection with described control circuit, described car window switch testing circuit passes through connection with multiple liters of vehicle window relays and multiple switch terminals dropping vehicle window relay respectively, described switch for rear-vision mirror testing circuit includes refrative mirror switch detection circuit and stretches mirror switch detection circuit, and described refrative mirror switch detection circuit and stretching, extension mirror switch detection circuit are connected with two rearview mirror motors respectively.

Above-mentioned further scheme is adopted to provide the benefit that: car window switch testing circuit can detect the state of vehicle window, produce vehicle window status signal, control circuit controls vehicle window according to vehicle window status signal and automatically operates, provide the user comfortable environment inside car, the state of switch for rear-vision mirror testing circuit detection rearview mirror, producing rearview mirror status signal, control circuit controls rearview mirror according to rearview mirror status signal and automatically operates, including driving and parking demand.

Further, multiple liters of vehicle window relays, multiple feeder ears dropping vehicle window relay, refrative mirror relay and stretching, extension mirror relay all access 12V voltage.

Adopt above-mentioned further scheme to provide the benefit that: 12V voltage can ensure the stable operation of this device, and voltage is low, reduce energy consumption.

Further, circuit between multiple liters of vehicle window relays and multiple window lifting motors is connected by adapter, multiple circuits dropped between vehicle window relay with multiple window lifting motors are connected by adapter, and described refrative mirror relay and the circuit stretched between mirror relay and two rearview mirror motors are connected by adapter.

Above-mentioned further scheme is adopted to provide the benefit that: to be connected by adapter so that connection line marshalling, it is simple to install and maintenance.

Further, also including window lifting switch and switch for rear-vision mirror, described window lifting switch is connected with multiple window lifting motors by adapter, and described switch for rear-vision mirror is connected with described rearview mirror motor by adapter.

Adopt above-mentioned further scheme to provide the benefit that: window lifting switch and switch for rear-vision mirror are convenient for manual adjustments vehicle window and rearview mirror, time in the winter time, it is possible to manually carry out not folded to rearview mirror, it is prevented that rearview mirror is freezed by ice and snow, promote practicality.

Further, multiple described liter of vehicle window relays respectively rise left front window relay, rise left back window relay, rise right front window relay and rise right rear window relay, drop vehicle window relay described in multiple and respectively drop left front window relay, left back window relay drops, drop right front window relay and drop right rear window relay, described liter of left front window relay and drop left front window relay and be all connected with left front window motor, described liter left back window relay and drop left back window relay and be all connected with left back window motor, described liter of right front window relay and drop right front window relay and be all connected with right front window motor, described liter right rear window relay and drop right rear window relay and be all connected with right rear window motor.

Further, also include the first inductance detection circuit and the second inductance detection circuit, described first inductance detection circuit respectively with described liter of left front window relay, rise left back window relay, drop left front window relay and drop left back window relay and be connected, described second inductance detection circuit respectively with described liter of right front window relay, rise right rear window relay, drop right front window relay and drop right rear window relay and be connected, described first inductance detection circuit and the second inductance detection circuit are connected with described control circuit.

Above-mentioned further scheme is adopted to provide the benefit that: the first inductance detection circuit and the second inductance detection circuit can be respectively induced relay running, after window lifting puts in place, the relay that can control correspondence decommissions, and ensures that vehicle window is elevated to position, can reduce again energy consumption.

Further, also including power configuration circuit, described power configuration circuit accesses 12V voltage, and described power configuration circuit and described control circuit pass through connection.

Above-mentioned further scheme is adopted to provide the benefit that: power configuration circuit can run for system, it is provided that to ensure.

Further, also including ACC testing circuit, described ACC testing circuit and automobile key ACC gear are by connection, and described ACC testing circuit and described control circuit pass through connection.

Adopt above-mentioned further scheme to provide the benefit that: ACC testing circuit can detect whether automobile is in ACC state, when being in ACC, produce signal, by control circuit, relay is carried out operation monitoring so that comfortable in car.

Accompanying drawing explanation

Fig. 1 is the circuit theory diagrams of a kind of automatic controlling device for automobile of this utility model.

In accompanying drawing, the list of parts representated by each label is as follows:

1, control circuit, 2, testing circuit of unblanking, 3, shut testing circuit, 4, control relay circuit；

5, vehicle window relay is risen, 51, rise left front window relay, 52, rise left back window relay, 53, rise right front window relay, 54, rise right rear window relay；

6, vehicle window relay drops, and 61, drop left front window relay, 62, drop left back window relay, 63, drop right front window relay, 64, drop right rear window relay；

7, refrative mirror relay, 8, stretch mirror relay；

9, window lifting motor, 91, left front window motor, 92, left back window motor, 93, right front window motor, 94, right rear window motor；

10, rearview mirror motor, 11, car window switch testing circuit, 12, switch for rear-vision mirror testing circuit, 13, adapter, 14, window lifting switch, 15, switch for rear-vision mirror, the 16, first inductance detection circuit, 17, the second inductance detection circuit, 18, power configuration circuit, 19, ACC testing circuit.

Detailed description of the invention

Below in conjunction with accompanying drawing, principle of the present utility model and feature being described, example is served only for explaining this utility model, is not intended to limit scope of the present utility model.

nullAs shown in Figure 1，A kind of automatic controlling device for automobile，Including control circuit 1、Unblank testing circuit 2、Shut testing circuit 3、Control relay circuit 4、Multiple liters of vehicle window relays 5、Multiple vehicle window relay 6 drops、Refrative mirror relay 7 and stretching, extension mirror relay 8，Described control circuit 1 respectively with the described testing circuit 2 and shut testing circuit 3 and pass through connection of unblanking，The described testing circuit 2 and shut testing circuit 3 and be all connected with the switch lock of arrangements for automotive doors of unblanking，Described control circuit 1 passes through connection with described control relay circuit 4，Described control relay circuit 4 respectively with multiple liters of vehicle window relays 5、Vehicle window relay 6 drops described in multiple、The control end of refrative mirror relay 7 and stretching, extension mirror relay 8 passes through connection，Multiple liters of vehicle window relays 5 pass through connection with multiple window lifting motor 9 one_to_one corresponding，Multiple vehicle window relays 6 that drop pass through connection with multiple window lifting motor 9 one_to_one corresponding，Described refrative mirror relay 7 and stretching, extension mirror relay 8 all pass through connection with two rearview mirror motors 10.

Preferably, also include car window switch testing circuit 11 and switch for rear-vision mirror testing circuit 12, described car window switch testing circuit 11 and switch for rear-vision mirror testing circuit 12 all pass through connection with described control circuit 1, described car window switch testing circuit 11 passes through connection with multiple liters of vehicle window relays 5 and multiple switch terminals dropping vehicle window relay 6 respectively, described switch for rear-vision mirror testing circuit 12 includes refrative mirror switch detection circuit and stretches mirror switch detection circuit, described refrative mirror switch detection circuit and stretching, extension mirror switch detection circuit are connected with two rearview mirror motors 10 respectively.

Preferably, multiple liters of vehicle window relays 5, multiple feeder ears dropping vehicle window relay 6, refrative mirror relay 7 and stretching, extension mirror relay 8 all access 12V voltage.

Preferably, circuit between multiple liters of vehicle window relays 5 and multiple window lifting motors 9 is connected by adapter 13, multiple circuits dropped between vehicle window relay 6 with multiple window lifting motors 9 are connected by adapter 13, and described refrative mirror relay 7 and the circuit stretched between mirror relay 8 and two rearview mirror motors 10 are connected by adapter 13.

Preferably, also including window lifting switch 14 and switch for rear-vision mirror 15, described window lifting switch 14 is connected with multiple window lifting motors 9 by adapter 13, and described switch for rear-vision mirror 15 is connected with described rearview mirror motor 10 by adapter 13.

Preferably, multiple described liter of vehicle window relays 5 respectively rise left front window relay 51, rise left back window relay 52, rise right front window relay 53 and rise right rear window relay 54, drop vehicle window relay 6 described in multiple and respectively drop left front window relay 61, left back window relay 62 drops, drop right front window relay 63 and drop right rear window relay 64, described liter of left front window relay 51 and drop left front window relay 61 and be all connected with left front window motor 91, described liter left back window relay 52 and drop left back window relay 62 and be all connected with left back window motor 92, described liter of right front window relay 53 and drop right front window relay 63 and be all connected with right front window motor 93, described liter right rear window relay 54 and drop right rear window relay 64 and be all connected with right rear window motor 94.

Preferably, also include the first inductance detection circuit 16 and the second inductance detection circuit 17, described first inductance detection circuit 16 respectively with described liter of left front window relay 51, rise left back window relay 52, drop left front window relay 61 and drop left back window relay 62 and be connected, described second inductance detection circuit 17 respectively with described liter of right front window relay 53, rise right rear window relay 54, drop right front window relay 63 and drop right rear window relay 64 and be connected, described first inductance detection circuit 16 and the second inductance detection circuit 17 are connected with described control circuit 1.

Preferably, also including power configuration circuit 18, described power configuration circuit 18 accesses 12V voltage, and described power configuration circuit 18 passes through connection with described control circuit 1.

Preferably, also including ACC testing circuit 19, described ACC testing circuit 19 and automobile key ACC gear are by connection, and described ACC testing circuit 19 passes through connection with described control circuit 1；

Implement this device, control circuit 1 detects when ACC testing circuit 19 is closed, the testing circuits 3 that shut to be detected such as control circuit 1, if control circuit 1 detects that shutting testing circuit 3 closes lock signal, control circuit 1 controls refrative mirror relay 7 by control relay circuit 4 and works 4 seconds and complete folding wing mirror, and controls to rise left front window relay 51 work simultaneously and close left front window, rise right front window relay 53 work and close right front window；First inductance detection circuit 16 detection rises whether left front window relay 51 completes to close left front window, if the first inductance detection circuit 16 detects the first inductance detection circuit 16 and completes to close the work of left front window；Control circuit 1 allows a liter left front window relay 51 quit work by control relay circuit 4；Meanwhile, control circuit 1 is allowed by control relay circuit 4 and rises the left back window relay 52 work left back window of closedown, if the first inductance detection circuit 16 detection rises left back window relay 52 and completes to close the work of left back window；Control circuit 1 allows the left back window relay 52 of liter quit work by control relay circuit 4；Second inductance detection circuit 17 detection rises whether right front window relay 53 completes to close right front window, if the second inductance detection circuit 17 detection rises right front window relay 53 completes to close the work of right front window；Control circuit 1 allows a liter right front window relay 53 quit work by control relay circuit 4；Meanwhile, control circuit 1 is allowed by control relay circuit 4 and rises the right rear window relay 54 work right rear window of closedown, if the second inductance detection circuit 17 detection rises right rear window relay 54 and completes to close the work of right rear window；Control circuit 1 allows the right rear window relay 54 of liter quit work by control relay circuit 4, completes to close the task of vehicle window.

In liter window process, if control circuit 1 detects the unlocking signal that testing circuit 2 of unblanking is sent, control circuit 1 is stopped rising left front window relay 51 by control relay circuit 4, rise left back window relay 52, is risen right front window relay 53 and rise right rear window relay 54, stop immediately rising window, play anti-pinch effect.

After completing the task of closedown vehicle window, if control circuit 1 is detecting testing circuit unlocking signal of unblanking, control circuit 1 is worked 4 seconds by control relay circuit 4 control stretching, extension mirror relay 8 and completes to stretch out rearview mirror, unblank testing circuit 2 if control circuit 1 detected in 5 seconds and shut the signal that testing circuit 3 is sent: unblanking, shut, unblank；Control circuit 1 controls to drop left front window relay 61 work by control relay circuit 4 simultaneously and drops left front window, drop right front window relay 63 work and drop right front window, first inductance detection circuit 16 detection drops whether left front window relay 61 completes to drop left front window, if the detection of inductance the first inductance detection circuit 16 is dropped left front window relay 61 and completed to drop the work of left front window；Control circuit 1 is allowed by control relay circuit 4 and drops left front window relay 61 and quit work；Meanwhile, control circuit 1 is allowed by control relay circuit 4 and drops the work of left back window relay 62 and drop left back window, if the detection of inductance the first inductance detection circuit 16 is dropped left back window relay 62 and completed to drop the work of left back window；Control circuit 1 is allowed by control relay circuit 4 and drops left back window relay 62 and quit work；Second inductance detection circuit 17 detection drops whether right front window relay 63 completes to drop right front window, if completing to drop the work of right front window；Control circuit 1 is allowed by control relay circuit 4 and drops right front window relay 63 and quit work；Meanwhile, control circuit 1 is allowed by control relay circuit 4 and drops the work of right rear window relay 64 and drop right rear window, if the second inductance detection circuit 17 detection is dropped right rear window relay 64 and completed to drop the work of right rear window；Control circuit 1 is allowed by control relay circuit 4 and drops right rear window relay 64 and quit work, and completes to drop the task of window vehicle window.

Unblank testing circuit 2 if control circuit 1 detected in 5 seconds and shut the signal that testing circuit 3 is sent: shutting, unblank, shut, control circuit 1 controls to drop left front window relay 61 work by control relay circuit 4 simultaneously and drops left front window 0.5 second, drop right front window relay 63 work and drop right front window 0.5 second, after completing, control circuit 1 controls to drop left front window relay 61 work by control relay circuit 4 simultaneously and drops left front window 0.5 second, drop right front window relay 63 work and drop right front window 0.5 second, complete vehicle window and drop the task of a seam.

Control circuit 1 detects when ACC testing circuit 19 is in out ACC state, car window switch testing circuit 11 detection rises left front window relay 51, rise left back window relay 52, rise right front window relay 53, rise right rear window relay 54, left front window relay 61 drops, left back window relay 62 drops, drop right front window relay 63 and drop the switch terminals of right rear window relay 64, control circuit 1 detects the positive electricity of the 0.15-0.65 of window lifting switch 14, control circuit 1 controls two vehicle window automatic lifting by control relay circuit 4 simultaneously, achieving can the effect that can simultaneously lift of two windows.

Control circuit 1 detects when ACC testing circuit 19 is closed, and control circuit 1 detects and shuts the pass lock signal that testing circuit 3 is sent, and control circuit 1 controls refrative mirror relay 7 by control relay circuit 4 and works 4 seconds and complete folding wing mirror；Control circuit 1 according to testing circuit 2 of unblanking, shut testing circuit 3, refrative mirror switch detection circuit, stretch mirror switch detection circuit, ACC testing circuit 19 folding mode of rearview mirror is set, it is possible to select by once shutting auto-folder rearview mirror, shut auto-folder rearview mirror by twice, by auto-extending rearview mirror of once unblanking, start vehicle auto-extending rearview mirror；

Can arrange according to the scheme of user's customization:

Control circuit 1 detects when ACC testing circuit 19 is closed, and detects at 5 seconds inner control circuits 1 and shuts the pass lock signal 4 times that testing circuit 3 sends,

Control circuit 1 will be set to detection and shut testing circuit 3 and send twice pass lock signal, and control circuit 1 just controls refrative mirror relay 7 by control relay circuit 4 and works 4 seconds and complete folding wing mirror.

The foregoing is only preferred embodiment of the present utility model, not in order to limit this utility model, all within spirit of the present utility model and principle, any amendment of making, equivalent replacement, improvement etc., should be included within protection domain of the present utility model.

Claims (9)

1. null1. an automatic controlling device for automobile，It is characterized in that: include control circuit (1)、Unblank testing circuit (2)、Shut testing circuit (3)、Control relay circuit (4)、Multiple liters of vehicle window relays (5)、Multiple vehicle window relay (6) drops、Refrative mirror relay (7) and stretching, extension mirror relay (8)，Described control circuit (1) respectively with described testing circuit of unblanking (2) and shut testing circuit (3) and pass through connection，Described testing circuit of unblanking (2) and shut testing circuit (3) and be all connected with the switch lock of arrangements for automotive doors，Described control circuit (1) and described control relay circuit (4) pass through connection，Described control relay circuit (4) respectively with multiple liters of vehicle window relays (5)、Vehicle window relay (6) drops described in multiple、The control end of refrative mirror relay (7) and stretching, extension mirror relay (8) passes through connection，Multiple liters of vehicle window relays (5) pass through connection with multiple window lifting motor (9) one_to_one corresponding，Multiple vehicle window relays (6) that drop pass through connection with multiple window lifting motor (9) one_to_one corresponding，Described refrative mirror relay (7) and stretching, extension mirror relay (8) all pass through connection with two rearview mirror motors (10).
2. 2. a kind of automatic controlling device for automobile according to claim 1, it is characterized in that: also include car window switch testing circuit (11) and switch for rear-vision mirror testing circuit (12), described car window switch testing circuit (11) and switch for rear-vision mirror testing circuit (12) all pass through connection with described control circuit (1), described car window switch testing circuit (11) passes through connection with multiple liters of vehicle window relays (5) and multiple switch terminals dropping vehicle window relay (6) respectively, described switch for rear-vision mirror testing circuit (12) includes refrative mirror switch detection circuit and stretches mirror switch detection circuit, described refrative mirror switch detection circuit and stretching, extension mirror switch detection circuit are connected with two rearview mirror motors (10) respectively.
3. 3. a kind of automatic controlling device for automobile according to claim 1, it is characterised in that: multiple liters of vehicle window relays (5), multiple feeder ears dropping vehicle window relay (6), refrative mirror relay (7) and stretching, extension mirror relay (8) all access 12V voltage.
4. 4. a kind of automatic controlling device for automobile according to claim 1, it is characterized in that: the circuit between multiple liters of vehicle window relays (5) and multiple window lifting motors (9) is connected by adapter (13), multiple circuits dropped between vehicle window relay (6) with multiple window lifting motors (9) are connected by adapter (13), and described refrative mirror relay (7) and the circuit stretched between mirror relay (8) and two rearview mirror motors (10) are connected by adapter (13).
5. 5. a kind of automatic controlling device for automobile according to claim 4, it is characterized in that: also include window lifting switch (14) and switch for rear-vision mirror (15), described window lifting switch (14) is connected with multiple window lifting motors (9) by adapter (13), and described switch for rear-vision mirror (15) is connected with described rearview mirror motor (10) by adapter (13).
6. null6. a kind of automatic controlling device for automobile according to any one of claim 1 to 5，It is characterized in that: multiple described liter of vehicle window relays (5) respectively rise left front window relay (51)、Rise left back window relay (52)、Rise right front window relay (53) and rise right rear window relay (54)，Drop vehicle window relay (6) described in multiple and respectively drop left front window relay (61)、Left back window relay (62) is dropped、Drop right front window relay (63) and drop right rear window relay (64)，Described liter of left front window relay (51) and drop left front window relay (61) and be all connected with left front window motor (91)，Described liter left back window relay (52) and drop left back window relay (62) and be all connected with left back window motor (92)，Described liter of right front window relay (53) and drop right front window relay (63) and be all connected with right front window motor (93)，Described liter right rear window relay (54) and drop right rear window relay (64) and be all connected with right rear window motor (94).
7. 7. a kind of automatic controlling device for automobile according to claim 6, it is characterized in that: also include the first inductance detection circuit (16) and the second inductance detection circuit (17), described first inductance detection circuit (16) respectively with described liter of left front window relay (51), rise left back window relay (52), drop left front window relay (61) and drop the connection of left back window relay (62), described second inductance detection circuit (17) respectively with described liter of right front window relay (53), rise right rear window relay (54), drop right front window relay (63) and drop the connection of right rear window relay (64), described first inductance detection circuit (16) and the second inductance detection circuit (17) are connected with described control circuit (1).
8. 8. a kind of automatic controlling device for automobile according to claim 1, it is characterized in that: also include power configuration circuit (18), described power configuration circuit (18) accesses 12V voltage, and described power configuration circuit (18) and described control circuit (1) pass through connection.
9. 9. a kind of automatic controlling device for automobile according to claim 1, it is characterized in that: also include ACC testing circuit (19), described ACC testing circuit (19) and automobile key ACC gear are by connection, and described ACC testing circuit (19) and described control circuit (1) pass through connection.