CN112482921B - Rolling line type electric glove box opening and closing control mechanism and control method thereof - Google Patents

Abstract

The application provides an opening and closing control mechanism of a rolling line type electric glove box, which comprises a rolling line transmission device, an opening position pressure sensor, a closing position pressure sensor, a singlechip control circuit, an opening position relay, a closing position relay, a control opening relay, a control closing relay and a touch switch, and has the advantages of simple structure, high process feasibility, high integration level and convenient operation, and the rolling line is controlled to be wound and unwound by the touch switch, so that the glove box is controlled to be closed and opened, wherein a vertical bearing plays a role in supporting and assisting in rotating a connecting rod, and a fixed pulley is in friction contact with the rolling line to play a role in supporting and stabilizing a system. The opening and closing control mechanism of the rolling line type electric glove box can replace the traditional glove box lock mechanism scheme, can spatially enlarge the storage range of the glove box, reduces the manufacturing cost of the glove box, and simultaneously greatly improves the technical added value of products.

Description

Rolling line type electric glove box opening and closing control mechanism and control method thereof

Technical Field

The application belongs to the technical field of automotive interior structures, and particularly relates to an opening and closing control mechanism of a rolling line type electric glove box and a control method thereof.

Background

In the early stage of automobile technology, gloves are necessary, for example, when a steering wheel is cool and heavy, the gloves are worn; when the vehicle is not driven, the hand is manually rocked by a crank, and the like are also used for lifting by gloves and the like. Therefore, the box for the co-driver is often called as a glove box for the driver, and is commonly called as a glove box for the driver to be used until now. With the development of the automobile industry and automobile technology, in modern times, glove boxes are generally defined as box assemblies for storing user manuals, car inspection certificates, car-mounted data and other articles and playing a role in decoration, and belong to a part of instrument panels. It is also known as a glove box, a storage box, etc. A good glove box not only can store a large amount of articles, convenient operation, can beautify the instrument desk.

The current mainstream household sedan adopts a follow-up inner bucket, the design is convenient to take, the storage box moves along with the door after unlocking, the appearance is attractive, the matching is easy, the lock assembly of the glove box is a very key part, whether the glove box is actively opened in the whole car collision process or not is related to the accident injury to passengers is also an important part for influencing the glove box endurance test; in addition, the opening force, the process force and the smoothness of the glove box lock are indexes for influencing the perceived quality of clients, the glove box lock is also a key factor for generating abnormal sound in the whole glove box, and most of the existing mechanical locks of the electric glove boxes are complex in structure, large in occupied space and high in production cost and can only adapt to the use of high-end brands of automobiles, so that the research and development of the lock structure is small in occupied space, simple in structure and low in production cost, can adapt to the market, and meets the demands of middle-low-grade automobile configuration.

Disclosure of Invention

In order to solve the problems in the background art, the application provides an opening and closing control mechanism of a rolling line type electric glove box and a control method thereof.

The technical scheme of the application is as follows:

the first object of the application is to provide an opening and closing control mechanism of a rolling line type electric glove box, which comprises the glove box, and further comprises a rolling line transmission device, an opening position pressure sensor, a closing position pressure sensor, a singlechip control circuit, an opening position relay, a closing position relay, a control opening relay, a control closing relay and a touch switch;

the rolling line transmission device comprises a double-output-shaft type direct current motor, the double-output-shaft type direct current motor is fixedly arranged on an outer frame of the glove box through a motor bracket, output shafts on two sides of the double-output-shaft type direct current motor are respectively fixedly connected with connecting rods through shaft connectors, the two connecting rods are respectively erected on vertical bearings, the vertical bearings are fixedly arranged on the outer frame of the glove box through bearing brackets, the other ends of the two connecting rods are fixedly connected with a rolling line, when the connecting rods rotate, the rolling line is driven to roll or pay off, and the other ends of the rolling line are fixedly connected with an inner box body of the glove box;

the opening position pressure sensor is arranged on the outer frame of the glove box, and when the glove box is opened to the maximum position, a protruding structure on the inner box body of the glove box can touch the opening position pressure sensor; the closed position pressure sensor is arranged at the outer side edge of the outer frame of the glove box, and when the inner box body of the glove box is closed in place, a convex structure on the inner box body of the glove box can touch the closed position pressure sensor;

the control circuit of the singlechip is connected with a signal end of an opening position pressure sensor and a signal end of a closing position pressure sensor through wires, the signal ends of the opening position relay and the closing position relay are connected with the control circuit of the singlechip through wires, a +5V power end of the control opening relay is connected with a normally closed end (NC end) of the opening position relay through wires, a normally closed end of the opening position relay is connected with a +5V power supply, a public end (COM end) of the control opening relay is connected with a positive electrode of a double-output shaft type direct current motor through wires, a +5V power end of the control closing relay is connected with a normally closed end (NC end) of the closing position relay through wires, a normally closed end of the closing position relay is connected with the control closing relay through wires, the touch switch comprises an opening key and a closing key, the opening key is connected with the control opening relay through wires, and the closing key is connected with the control closing relay through wires.

Preferably, the rolling line is arranged on a fixed pulley, and the fixed pulley is fixedly arranged on the outer frame of the glove box.

As the optimization of the application, the singlechip control circuit, the open position relay, the close position relay, the control open relay and the control close relay are integrated on a control circuit board, and the control circuit board is fixedly arranged on the glove box outer frame.

Preferably, the control circuit board is connected with a vehicle body circuit or is powered by an in-vehicle reserve power supply.

Preferably, the touch switch is fixedly mounted on the glove box body or integrated in the control instrument.

Preferably, the rolling line transmission device is symmetrically distributed by taking the double-output-shaft direct current motor as a center.

The second object of the present application is to provide a method for controlling opening and closing of a roll line type electric glove box, comprising the steps of:

step S1: open glove box

Step S11, touching an opening key to control a circuit between the opening relay and the double-output-shaft direct current motor to be in a conducting state, enabling the double-output-shaft direct current motor to rotate anticlockwise, driving a connecting rod to rotate, enabling a rolling line to start paying off, and opening a glove box under the action of dead weight;

step S12, when the glove box reaches an opening position, a convex structure of a box body in the glove box touches an opening position pressure sensor, a singlechip control circuit receives a high-level signal of the opening position pressure sensor and controls the starting of an opening position relay;

step S13, when the relay is powered on at the opening position, the relay is controlled to be powered off, the double-output-shaft direct current motor is powered off, the double-output-shaft direct current motor stops rotating, and the glove box is in a maximum opening state;

step S2: closed glove box

S21, touching a closing button, controlling a circuit between a closing relay and a double-shaft direct current motor to be in a conducting state, enabling the motor to rotate clockwise when power is supplied to the motor, driving a connecting rod to rotate, rolling a wire to start rolling, and closing a glove box body;

s22, when the glove box reaches a closing position, a convex structure of a box body in the glove box touches a closing position pressure sensor, and a singlechip control circuit receives a high-level signal of the closing position pressure sensor and controls a closing position relay to start;

and S13, when the relay is powered on at the closing position, the control closing relay is powered off, the double-output-shaft direct current motor stops rotating, and the glove box is in a closing state.

As a preferred aspect of the present application, in the glove box opening process, the key is turned off in an unavailable state; during the closing process of the glove box, the opening key is in an unavailable state.

The beneficial effects of the application are as follows:

the opening and closing control mechanism of the rolling line type electric glove box provided by the application has the advantages that the structure is simple, the process feasibility is high, the integration level is high, the operation is convenient, the rolling line is controlled to be rolled and unrolled through the touch switch, so that the glove box is controlled to be closed and opened, the vertical bearing plays a role in supporting and assisting in rotating a connecting rod, and the fixed pulley is in friction contact with the rolling line, so that the whole system is supported and stabilized. The opening and closing control mechanism of the rolling line type electric glove box can replace the traditional glove box lock mechanism scheme, can spatially enlarge the storage range of the glove box, reduces the manufacturing cost of the glove box, and simultaneously greatly improves the technical added value of products.

Drawings

Other objects and attainments together with a more complete understanding of the application will become apparent and appreciated by referring to the following description taken in conjunction with the accompanying drawings. In the drawings:

fig. 1 is a schematic diagram of the overall structure of the present application.

Fig. 2 is a schematic structural view of a rolling line driving device in the present application.

FIG. 3 is a logic control diagram of the present application.

Wherein the reference numerals are as follows: the rolling line transmission device 1, an opening position pressure sensor 2, a closing position pressure sensor 3, a singlechip control circuit 4, an opening position relay 51, a closing position relay 52, a control opening relay 53, a control closing relay 54, a double-output shaft type direct current motor 11, an outer frame 71, a box 72, a coupling 12, a connecting rod 13, a vertical bearing 14, a rolling line 15, a fixed pulley 16, a touch switch 6, an opening key 61 and a closing key 62.

Detailed Description

The following detailed description of the application, taken in conjunction with the accompanying drawings, is not intended to limit the scope of the application, so that those skilled in the art may better understand the technical solutions of the application and their advantages.

Example 1

Referring to fig. 1 and 3, it is shown that: the utility model provides an open and close control mechanism of rolling line type electric glove box, includes the glove box, still includes rolling line transmission 1, open position pressure sensor 2, closed position pressure sensor 3, singlechip control circuit 4, open position relay 51, closed position relay 52, control open relay 53, control close relay 54, touch switch 6.

Referring to fig. 1 and 2, it is shown that: the rolling line transmission device 1 comprises a double-output-shaft type direct current motor 11, the double-output-shaft type direct current motor 11 is fixedly arranged on an outer frame of a glove box through a motor bracket, output shafts on two sides of the double-output-shaft type direct current motor 11 are fixedly connected with connecting rods 13 through shaft connectors 12 respectively, two connecting rods 13 are respectively erected on vertical bearings 14, the vertical bearings 14 are fixedly arranged on the outer frame of the glove box through bearing brackets, the other ends of the two connecting rods 13 are fixedly connected with a rolling line 15, when the connecting rods 13 rotate, the rolling line 15 is driven to roll up or roll down, and the other ends of the rolling line 15 are fixedly connected with an inner box body of the glove box.

Referring to fig. 1 and 3, it is shown that: the opening position pressure sensor 2 is arranged on the outer frame of the glove box, and when the glove box is opened to the maximum position, a protruding structure on the inner box body of the glove box can touch the opening position pressure sensor 2; the closing position pressure sensor 3 is arranged at the outer side edge of the outer frame of the glove box, and when the inner box body of the glove box is closed in place, a convex structure on the inner box body of the glove box can touch the closing position pressure sensor 3;

the single chip microcomputer control circuit 4 is connected with signal ends of the opening position pressure sensor 2 and the closing position pressure sensor 3 through wires, signal ends of the opening position relay 51 and the closing position relay 52 are connected with the single chip microcomputer control circuit 4 through wires, a +5V power end of the control opening relay 53 is connected with a normally closed end (NC end) of the opening position relay 51 through wires, a normally closed end +5V power end of the opening position relay 51 is connected with a positive pole of the double-output shaft direct current motor 11 through wires, a common end (COM end) of the control opening relay 53 is connected with a positive pole of the double-output shaft direct current motor 11 through wires, a +5V power end of the control closing relay 54 is connected with a normally closed end (NC end) of the closing position relay 52 through wires, the control closing relay 53 is connected with the double-output shaft direct current motor 11 through wires, the touch switch 6 comprises an opening key 61 and a closing key 62, the opening key 61 is connected with the control opening relay 53 through wires, and the closing key 62 is connected with the control closing relay 54 through wires.

See fig. 1: the rolling line 15 is arranged on the fixed pulley 16, and the fixed pulley 16 is fixedly arranged on the glove box outer frame 71.

The single-chip microcomputer control circuit 4, the open position relay 51, the close position relay 52, the control open relay 53 and the control close relay 54 are integrated on a control circuit board (not shown in the figure), and the control circuit board is fixedly arranged on the outer frame of the glove box.

The control circuit board is connected with a vehicle body circuit or is powered by an in-vehicle reserve power supply.

The touch switch 6 is fixedly arranged on the glove box body or integrated in the control instrument.

See fig. 2: the rolling line transmission device 1 is symmetrically distributed by taking a double-output-shaft type direct current motor 11 as a center.

Example 2

The method for controlling the opening and closing of the roll line type electric glove box provided by the application will be described with reference to fig. 1 to 3.

Assuming that the initial state of the glove box is the closed state, the closed position pressure sensor 3 is in the triggered state at this time, a high level signal is input to the singlechip control circuit 4, the singlechip control circuit 4 inputs a high level to the signal end of the closed position relay 52 according to the input high level signal, so that the closed position relay 52 is electrically conducted, the conduction of the closed position relay 52 leads to the control of the power failure of the closed relay 54, and thus the closed key 62 stops working, and the open key 61 is in the working state at this time according to the same principle, and the glove box enters the open state as the open position pressure sensor 51 is in the non-triggered state and the open key 61 is touched, so that the specific operation is as follows:

1. open glove box

Touching the start button 61 to control the circuit between the start relay 53 and the double-output-shaft direct current motor 11 to be in a conducting state, and the double-output-shaft direct current motor 11 is electrified to rotate anticlockwise to drive the connecting rod 13 to rotate, so that the rolling line 15 starts paying off, and the glove box body is opened under the action of dead weight;

when the glove box reaches the opening position, the convex structure of the box body in the glove box touches the opening position pressure sensor 2, and the singlechip control circuit 4 receives a high-level signal of the opening position pressure sensor 2 and controls the opening position relay 51 to be started;

when the open position relay 51 is powered on, the control open relay 53 is powered off, and when the control open relay 53 is powered off, the double-output-shaft direct current motor 11 stops rotating, and the glove box is in the maximum open state.

2. Closed glove box

Touching the closing button 62, controlling the circuit between the closing relay 54 and the double-shaft direct current motor 11 to be in a conducting state, enabling the double-shaft direct current motor 11 to rotate clockwise when power is supplied, driving the connecting rod 13 to rotate, enabling the rolling line 15 to start rolling, and enabling the glove box body to start closing;

when the glove box reaches the closing position, the protruding structure of the inner box body of the glove box touches the closing position pressure sensor 3, and the singlechip control circuit 4 receives a high-level signal of the closing position pressure sensor 3 and controls the closing position relay 52 to be started;

when the closing position relay 52 is powered on, the control closing relay 54 is powered off, and when the control closing relay 54 is powered off, the double-output-shaft direct current motor 11 stops rotating, and the glove box is in a closing state.

During glove box opening, the close button 62 is not available; during glove box closing, the on key 61 is in an unavailable state.

The foregoing is merely illustrative of the present application, and the present application is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (8)

1. The utility model provides an open and close control mechanism of electronic glove box of rolling line formula, includes glove box, its characterized in that: the automatic rolling line control device also comprises a rolling line transmission device, an opening position pressure sensor, a closing position pressure sensor, a singlechip control circuit, an opening position relay, a closing position relay, a control opening relay, a control closing relay and a touch switch;

the rolling line transmission device comprises a double-output-shaft type direct current motor, the double-output-shaft type direct current motor is fixedly arranged on an outer frame of the glove box through a motor bracket, output shafts on two sides of the double-output-shaft type direct current motor are respectively fixedly connected with connecting rods through shaft connectors, the two connecting rods are respectively erected on vertical bearings, the vertical bearings are fixedly arranged on the outer frame of the glove box through bearing brackets, the other ends of the two connecting rods are fixedly connected with a rolling line, when the connecting rods rotate, the rolling line is driven to roll or pay off, and the other ends of the rolling line are fixedly connected with an inner box body of the glove box;

the opening position pressure sensor is arranged on the outer frame of the glove box, and when the glove box is opened to the maximum position, a protruding structure on the inner box body of the glove box can touch the opening position pressure sensor; the closed position pressure sensor is arranged at the outer side edge of the outer frame of the glove box, and when the inner box body of the glove box is closed in place, a convex structure on the inner box body of the glove box can touch the closed position pressure sensor;

the control circuit of the singlechip is connected with a signal end of an opening position pressure sensor and a signal end of a closing position pressure sensor through wires, the signal ends of the opening position relay and the closing position relay are connected with the control circuit of the singlechip through wires, a +5V power end of the control opening relay is connected with a normally closed end of the opening position relay through wires, a +5V power supply is connected with a positive pole of the double-output-shaft direct current motor through wires, a +5V power end of the control opening relay is connected with a normally closed end of the closing position relay through wires, a +5V power supply is connected with the double-output-shaft direct current motor through wires, the touch switch comprises an opening button and a closing button, the opening button is connected with the control opening relay through wires, and the closing button is connected with the control closing relay through wires.

2. The opening and closing control mechanism for a roll line type electric glove box according to claim 1, wherein: the rolling line is arranged on the fixed pulley, and the fixed pulley is fixedly arranged on the outer frame of the glove box.

3. The opening and closing control mechanism for a roll line type electric glove box according to claim 1, wherein: the single chip microcomputer control circuit is integrated with the opening position relay, the closing position relay, the control opening relay and the control closing relay on a control circuit board which is fixedly arranged on the outer frame of the glove box.

4. A roll line type electric glove box opening and closing control mechanism according to claim 3, wherein: the control circuit board is connected with a vehicle body circuit or is powered by an in-vehicle reserve power supply.

5. The opening and closing control mechanism for a roll line type electric glove box according to claim 1, wherein: the touch switch is fixedly arranged on the glove box body or integrated in the control instrument.

6. The opening and closing control mechanism for a roll line type electric glove box according to claim 1, wherein: the rolling line transmission device is symmetrically distributed by taking the double-output-shaft type direct current motor as a center.

7. The opening/closing control method of a roll line type electric glove box according to any one of claims 1 to 6, comprising the steps of:

step S1: open glove box

Step S11, touching an opening key to control a circuit between the opening relay and the double-output-shaft direct current motor to be in a conducting state, enabling the double-output-shaft direct current motor to rotate anticlockwise, driving a connecting rod to rotate, enabling a rolling line to start paying off, and opening a glove box under the action of dead weight;

step S12, when the glove box reaches an opening position, a convex structure of a box body in the glove box touches an opening position pressure sensor, a singlechip control circuit receives a high-level signal of the opening position pressure sensor and controls the starting of an opening position relay;

step S13, when the relay is powered on at the opening position, the relay is controlled to be powered off, the double-output-shaft direct current motor is powered off, the double-output-shaft direct current motor stops rotating, and the glove box is in a maximum opening state;

step S2: closed glove box

S21, touching a closing button, controlling a circuit between a closing relay and a double-shaft direct current motor to be in a conducting state, enabling the motor to rotate clockwise when power is supplied to the motor, driving a connecting rod to rotate, rolling a wire to start rolling, and closing a glove box body;

s22, when the glove box reaches a closing position, a convex structure of a box body in the glove box touches a closing position pressure sensor, and a singlechip control circuit receives a high-level signal of the closing position pressure sensor and controls a closing position relay to start;

and S13, when the relay is powered on at the closing position, the control closing relay is powered off, the double-output-shaft direct current motor stops rotating, and the glove box is in a closing state.

8. The method for controlling the opening and closing of a roll line type electric glove box according to claim 7, wherein: in the glove box opening process, closing the unavailable state of the key; during the closing process of the glove box, the opening key is in an unavailable state.