JP3511617B2 - Automatic guided vehicle - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic guided vehicle that is used, for example, to automatically travel along a predetermined route in a factory and convey articles such as parts to predetermined positions. Is.

[0002]

2. Description of the Related Art AGVs (Automats) are used for automatic guided vehicles.
It is also referred to as an ed guided vehicle) and is used for inter-process transportation of parts in a factory because it is easier to change the transportation route as compared with a transportation system such as a conveyor.

Various types of such unmanned guided vehicles are known, such as structure and control method, but as an unmanned guided vehicle having a relatively simple structure and a low cost, four units for supporting the vehicle body so that the vehicle can run are known. Of the wheels of the traveling direction, the left and right wheels in the traveling direction are swivel wheels that turn according to the traveling direction to change the direction of the axle, and the left and right wheels in the traveling direction are normal fixed wheels on which the axle does not swivel. There has been a drive unit provided with left and right drive wheels respectively driven by a traveling sensor and two electric motors, provided between the left and right free wheels on the front side in the traveling direction.

In this unmanned guided vehicle, a traveling sensor detects the relative position of a guide line such as an induction wire, a magnetic tape, or a route tape (optical reflection tape) which is provided in advance on the conveyance path, and the detection data by the sensor is obtained. Based on this, the two electric motors are separately operated, and when a deviation occurs from the guide line, the rotational speeds of the left and right drive wheels are changed to carry out steering while steering in a direction to eliminate the deviation in the traveling direction. It is designed to automatically run on the route.

[0005]

However, in the above-mentioned conventional automatic guided vehicle, since the free wheels are provided on the front side of the vehicle body and the rear wheels are fixed wheels as described above, the drive is not possible. When the vehicle body is moved backward by reversing the drive wheels of the unit, the front side in the traveling direction becomes the fixed wheel and steering is performed on the rear side of the vehicle body. However, there is a problem that the vehicle body cannot be followed and the vehicle body comes off the transport route. In other words, there is a problem that it can not be applied to narrow places because it can only travel in one direction and it requires a large space for turning, so solving such problems and making it possible to use it even in narrow premises Doing so has been a challenge for this type of automated guided vehicle.

If all four wheels are made into free wheels, a phenomenon in which the vehicle body skews or spins on the spot occurs and the tracking performance deteriorates. However, complicated guidance control using a large number of sensors is required, which is inevitably expensive.

[0007]

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems in an unmanned guided vehicle of the type described above, and can travel in either the front or rear direction without using an expensive device or a complicated control system. It is an object of the present invention to provide an automatic guided vehicle that can be applied to a narrow space by moving the same transportation path back and forth.

[0008]

An automatic guided vehicle according to claim 1 of the present invention has an axle that turns in a horizontal plane according to a traveling direction, and is arranged at a front left and right position and a rear left and right position of a vehicle body, respectively. The vehicle is equipped with free wheels that support the vehicle so that it can travel, a running sensor that detects a deviation from a predetermined route, and left and right drive wheels that rotate independently based on signals from the running sensor. The forward drive unit and the reverse drive unit respectively disposed on the lower front side and the rear side, and the turning of the universal wheel on the rear side in the traveling direction are blocked according to the operation of the forward drive unit and the reverse drive unit, and It is characterized in that it is provided with a turning prohibition means for holding the axle at a position orthogonal to the front-rear direction of the vehicle body,
The configuration of such an automatic guided vehicle is used as a means for solving the above-mentioned conventional problems.

Further, in the automatic guided vehicle according to claim 2 as an embodiment of the automatic guided vehicle in the present invention, the drive wheels of the forward drive unit and the reverse drive unit are supported on the lower side of the vehicle body so as to be vertically movable. The drive wheel of the forward drive or reverse drive unit descends, and the drive wheel moves forward or backward based on the rotation of the grounded drive wheel. Link mounted on each driving and reversing drive unit and rotating in conjunction with the raising and lowering of the drive wheel, and attached to each free wheel and connected to the stopper link via a wire, the free wheel depending on the up and down movement of the drive wheel The unmanned guided vehicle according to claim 4, wherein the unmanned carrier according to claim 4 comprises a stopper pin that is locked to a notch provided in the The stopper link attached to the forward drive unit is linked to the stopper pin attached to the rear wheel via the wire, and the stopper link attached to the reverse drive unit is attached to the front section via the wire. It is characterized in that it is connected to a stopper pin attached to the wheel, and the stopper pin projects in accordance with the lowering of the drive unit and is locked in a notch provided in the free wheel.

[0010]

In the automatic guided vehicle according to the first aspect of the present invention, the free wheels on which the axles can freely turn are provided at the front, rear, left and right sides of the vehicle body, and the forward and backward movements are made at the front and rear sides of the vehicle body. Each forward drive unit is further provided, and when the vehicle is moving forward, the rear side free wheel is prevented from turning in response to the operation of the forward drive unit, and when the vehicle is moving backward, the front side free wheel is not able to turn in response to the operation of the reverse drive unit. Since the turning prohibition means is provided, the front wheel in the traveling direction is always a free wheel whose axle moves in accordance with the traveling direction,
Since the wheels on the rear side function as fixed wheels, accurate traveling control is possible when traveling in either the front or rear direction, and it is an extremely excellent effect that it can travel without deviating from the predetermined transport route. Is brought about.

As an embodiment of the automatic guided vehicle according to the present invention, in the automatic guided vehicle according to claim 2, the drive wheels of the forward drive unit and the reverse drive unit are supported so as to be movable up and down.
When moving forward, the drive wheels of the forward drive unit move down and rotate with the drive wheels grounded, and when moving backward, the drive wheels of the forward drive unit move up and the drive wheels of the reverse drive unit move down. Since the drive wheels of the drive unit are rotated away from the road surface and the drive wheels of the reverse drive unit are grounded, it is possible to smoothly travel forward or backward without the drive units interfering with each other.

[0012] Similarly, in the automatic guided vehicle according to claim 3 as an embodiment, as turning prohibiting means, a stopper link that rotates in conjunction with the raising and lowering of the drive wheels of each drive unit, and each free wheel is attached. A link mechanism that consists of a stopper pin that locks in the notch provided in the free wheel to prevent the free wheel from turning, and uses a link mechanism that connects the stopper link and the stopper pin with a wire, so the drive wheel has a simple structure. It is possible to reliably transmit the ascending / descending operation of the drive wheel to the stopper pin, and it is possible to reliably prevent the free wheel from turning according to the ascending / descending of the drive wheel of each drive unit. Further, in the automatic guided vehicle according to claim 4, as a concrete structure of the turning prohibition means, a stopper link attached to the forward drive unit and a stopper pin attached to the rear free wheel are connected by a wire. At the same time, the stopper link of the reverse drive unit and the stopper pin for the front free wheel are similarly connected by a wire, and the stopper pin protrudes as the drive wheel of each drive unit descends and the notch of the free wheel. The rear free wheel or the front free wheel is prevented from turning in accordance with the operation of the forward drive unit or the reverse drive unit, and these swivel wheels are fixed as fixed wheels. Can be made to function.

[0013]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be specifically described below with reference to the drawings.

1 to 4 are for explaining one embodiment of an automatic guided vehicle according to the present invention, and FIG. 1 is a bottom view of the vehicle body showing the main structure thereof.

The automated guided vehicle 1 shown in the figure has two drive units at the center of the bottom surface of the vehicle body 2. The front side of the vehicle body 2 (the left side in FIG. 1) is a forward drive unit 3.
The rear side (right side in FIG. 1) serves as the backward drive unit 4. Further, at the four corners of the vehicle body 2, there are axles that freely turn in a horizontal plane, and there are provided free wheels 5 to 8 whose orientation changes according to the traveling direction. Supported by.

The forward drive unit 3 and the reverse drive unit 4 have substantially the same structure as shown in FIGS. 2 (a) and 2 (b), and are installed on a predetermined traveling route. For example, a traveling sensor 11 that detects a line tape and drive wheels 14 and 1 of the drive units 3 and 4 to be described later.
4, an elevating motor 12 for elevating and lowering 4, four traveling drive motors 13 and 13, and left and right drive wheels 14 which are independently rotationally driven by the two drive motors 13 and 13,
14 are provided.

The left and right drive wheels 14, 14 of the forward drive unit 3 and the reverse drive unit 4 are driven by drive chains 15, 15 on the output shafts of reduction gears 13a, 13a provided for the two drive motors 13, 13. When the traveling sensor 11 detects that the vehicle body 2 is displaced to the right side with respect to the route tape provided on the traveling route during traveling, the rotation speed of the right drive wheel 14 is Steering to the left by controlling the drive motors 13, 13 so as to be relatively faster than the rotational speed of the left drive wheel 14, and conversely, the travel sensor 11 detects that the vehicle body 2 is displaced to the left with respect to the route tape. If the left drive wheel 14 is detected, the drive motors 13, 13 are controlled so that the left drive wheel 14 rotates relatively faster than the right drive wheel 14, and steering to the right is performed. Body 2 is adapted to travel without deviating from the traveling route set in advance.

As shown in FIG. 2B, the left and right drive wheels 14 and 14 together with the drive motors 13 and 13 are connected to the frame 16
The frame 16 is rotatably supported by the base frame 17 by a support shaft 17a, and the drive wheel 1 is driven by a cam 12a that is decelerated by an elevation motor 12.
4, 14 and 14 move up and down between the ascending position and the descending position. Due to the elastic force of the compression coil spring 18 provided between the driving wheels 14 and 14 at the descending position, It is pressed against.

That is, in the automatic guided vehicle 1,
During forward movement, the lifting motor 1 of the forward drive unit 3
2 first operates to ground the drive wheels 14 and 14, and then the drive motors 13 and 13 of the drive unit 3 operate to rotate the drive wheels 14 and 14 in the forward direction. The drive wheels 14, 14 of the forward drive unit 3 are lifted against the elastic force of the compression coil spring 18 by the operation of the lift motor 12 of the drive unit 3 to separate the drive wheels 14, 14 from the road surface, and The drive wheels 14, 14 of the reverse drive unit 4 are grounded by the operation of the lift motor 12 of the reverse drive unit 4, and in this state, the drive motors 13, 13 of the reverse drive unit 4 operate to drive the drive wheels 14. , 14 are rotated in the backward direction.

A pin holder 21 is attached near each of the adjustable wheels 5 to 8, and a coil spring 21a is attached to the pin holder 21 as shown in FIGS. 3 (a) and 3 (b). The stopper pin 22 biased by the protrusion is slidably held. Stopper pin 22
As will be described later, is projected and retracted from the pin holder 21 in conjunction with the raising and lowering of the drive wheels 14, 14 of the drive unit 3 or 4, and is attached to each of the free wheels 5 to 8 in the protruding state,
By locking the notches 5b to 8b formed on the outer peripheral portions of the circular plates 5a to 8a that rotate integrally with the free wheels, the free wheels 5 to 8 are prevented from free turning, and the free wheels 5 are rotated.
The directions of 8 can be held in the front-back direction of the vehicle body 2.

As shown in FIG. 4, the stopper pin 22 is axially supported by the base frame 17 of the drive unit 3 or 4 via an L-shaped bracket 23, and the shaft of the cam 12a is rotated by the lifting motor 12 at a reduced speed. One end side is locked to the part, the rotation of the lifting motor 12, that is, the drive wheel 14,
The other end of the stopper link 24, which rotates as the 14 is moved up and down, is connected via a wire 25.
When the other end of the stopper link 24 rises when the other end of the stopper link 24 rises as it descends, and when the other end of the stopper link 24 falls when the drive wheels 14, 14 rise, the pin holder 2
The coil spring 21a included in the first embodiment pulls in against the elastic force of the coil spring 21a, and the stopper pin 22 and the stopper link 24 constitute a turning prohibiting means of the free wheel.

In this embodiment, as shown in FIG. 1, the stopper link 24 provided on the forward drive unit 3 is attached to the universal wheels 7 and 8 on the rear side of the vehicle body by the wires 25 and 25. A stopper link 24 connected to the stopper pins 22 and 22 and attached to the retractable drive unit 4 is attached to the stopper pins 22 and 22 attached to the free wheels 5 and 6 on the front side of the vehicle body by the wires 25 and 25. These wheels are connected and function as fixed wheels by preventing the free wheels 7, 8 on the rear side of the vehicle body from turning along with the operation of the forward drive unit 3, that is, as the drive wheels 14, 14 of the forward drive unit 3 descend. Then
The operation of the reverse drive unit 4, that is, the lowering of the drive wheels 14, 14 of the reverse drive unit 4 prevents the free wheels 5, 6 on the front side of the vehicle body from turning, and these wheels function as fixed wheels. become.

At this time, the bracket 23 is mounted in the opposite direction, and the stopper pin 22 is moved as the drive wheels 14 and 14 rise.
Are connected so that the topper link 24 of the forward drive unit 3 and the stopper pins 22, 22 of the vehicle body front side free wheels 5, 6 are connected by wires 25, 25, and the reverse drive unit 4 The stopper link 24 of the vehicle and the stopper pins 22, 22 of the rear side wheels 7, 8 of the vehicle body are connected by wires 25, 25, and the front portion of the forward drive unit 3 is lifted based on the rise of the drive wheels 14, 14. The turning of the side free wheels 5, 6 is blocked, and the rear side free wheels 7, 14 are driven based on the ascent of the drive wheels 14, 14 of the reverse drive unit 4.
It goes without saying that even if the turning of 8 is blocked, the same function is performed.

When the automatic guided vehicle 1 having such a structure travels forward, that is, when traveling in the left direction in FIG. 1, first, the driving motor 14 of the forward drive unit 3 is operated to drive the drive wheels 14 of the drive unit 3. , 14 descend. As a result, the stopper link 24 is rotated, and the free wheels 7 and 8 on the rear side of the vehicle body are connected via the wires 25, 25.
The stopper pins 22, 22 attached to the protrusions, and the notches 7b provided in the discs 7a, 8a of the free wheels 7, 8
8b, so that these free wheels 7, 8
Becomes impossible, and the wheel functions as a fixed wheel held in the front-back direction of the vehicle body 2. At this time, since the drive wheels 14, 14 of the reverse drive unit 4 are held in the raised position, the stopper pins 22, 22 connected to the stopper link 24 of the reverse drive unit 4 are in the retracted state. The swivel wheels 5 and 6 on the front side can freely turn, and exert their original functions as a swivel wheel.

Then, the drive wheels 1 of the forward drive unit 3
When the drive motors 13, 13 are activated and the drive wheels 14, 14 rotate while the motors 4, 14 are grounded, the vehicle body 2
Moves forward. When the traveling sensor 11 provided in the forward drive unit 3 detects the deviation of the vehicle body 2 from the route tape, the rotational speeds of the drive motors 13, 13 are adjusted based on the deviation, and the left and right drive wheels 14, 14 are adjusted. By relatively increasing or decreasing the rotation speed of the steering wheel, steering is performed in a direction in which the deviation from the route tape becomes smaller, and automatic traveling along the route tape is performed. At this time, since the wheels 5 and 6 on the front side in the traveling direction function as free wheels and the wheels 7 and 8 on the rear side function as fixed wheels, respectively, the vehicle body 2 is determined in advance without skewing or spinning. It enables smooth unmanned traveling along the transportation route.

When the automatic guided vehicle 1 moves backward, that is, when it travels to the right in FIG. 1, the drive wheels 14, 14 of the forward drive unit 3 are rotated by the rotation of the lifting motor 12.
14 rises, and based on this, the free wheel 7 on the rear side of the vehicle body
And the stopper pins 22, 22 attached to
Is retracted, the wheels 7 and 8 are free to turn and function as the original free wheels, and the lift motor 12 of the reverse drive unit 4 is actuated to drive the drive wheels 14 of the drive unit 4. , 14 descend and come into contact with the ground, which allows the free wheels 5 and 6 on the rear side of the vehicle body.
The stopper pins 22, 22 attached to the protrusions protrude and engage with the notches 5b, 6b formed in the discs 5a, 6a of the free wheels 5, 6, so that the free wheels 5, 6 are prevented from turning. It will function as a fixed wheel.

Then, the drive wheels 1 of the forward drive unit 3
4, 14 are separated from the road surface and the drive wheels 14, 14 of the reverse drive unit 4 are grounded, the drive motors 13, 13 of the reverse drive unit 4 operate to drive the drive wheels 14, 1
The vehicle body 2 moves backward by the rotation of the vehicle body 4. And
When the travel sensor 11 of the reverse drive unit 4 detects the deviation of the vehicle body 2 from the route tape, the drive motor 1 is similarly operated.
Since the steering is performed so as to reduce the deviation by adjusting the rotational speeds of the motors 3 and 13 and independently increasing or decreasing the rotational speeds of the left and right drive wheels 14 and 14, the vehicle body 2 automatically moves along the route tape. Drive to. At this time, the wheels 7 and 8 on the front side in the traveling direction function as free wheels, and the wheels 5 and 6 on the rear side function as fixed wheels, so that the vehicle body 2 is prevented from skewing and spinning as in the case of forward movement, and smooth unmanned traveling is performed. Will be possible.

That is, in the automatic guided vehicle 1 according to the present invention, the front wheels in the traveling direction are the free wheels and the rear wheels in the traveling direction are the fixed wheels regardless of whether the vehicle is moving forward or backward.
Since steering is performed on the front side in the traveling direction, it is possible to accurately control the traveling direction when moving backward as well as when moving forward, and it is possible to reciprocate on the same transportation route, for example. Therefore, such an automatic guided vehicle can be installed in a narrow space where an inversion space cannot be secured.

[Brief description of drawings]

FIG. 1 is a bottom view of a vehicle body showing a main structure of an automatic guided vehicle according to an embodiment of the present invention.

2 (a) and 2 (b) are a plan view and a front view showing the structure of a drive unit in the automatic guided vehicle shown in FIG.

3 (a) and 3 (b) are a plan view and a front view showing the structure of a stopper pin and a pin holder in the automatic guided vehicle shown in FIG.

FIG. 4 is a perspective view showing an interlocking state of a drive unit and a stopper pin in the automatic guided vehicle shown in FIG.

[Explanation of symbols]

1 automatic guided vehicle 2 car body 3 Forward drive unit 4 Drive unit for reverse 5,6,7,8 free wheel 5b, 6b, 7b, 8b Notches 11 Running sensor 22 Stopper pin (turn prohibition means) 24 Stopper link (turn prohibition means) 25 wires

─────────────────────────────────────────────────── ─── Continuation of front page (51) Int.Cl. ⁷ identification code FI G05D 1/02 G05D 1/02 W (58) Fields investigated (Int.Cl. ⁷ , DB name) B61B 13/00 B62D 7 / 14 B60B 33/02 B62D 1/28 B62D 9/00 G05D 1/02

Claims (4)

(57) [Claims] 1. A free wheel having an axle that turns in a horizontal plane depending on a traveling direction, and arranged at front left and right positions and rear left and right positions of the vehicle body to support the vehicle body so that the vehicle body can travel, and the wheel is predetermined. Equipped with a running sensor that detects the deviation from the route and left and right drive wheels that rotate independently based on the signal from the running sensor, and are provided for forward and backward movements, which are arranged on the lower front side and rear side of the vehicle body, respectively. And a turning prohibition means for holding the axle of the wheel at a position orthogonal to the front-rear direction of the vehicle body by blocking the turning of the free wheel on the rear side in the traveling direction according to the operation of the forward drive unit and the forward drive unit and the reverse drive unit. An automated guided vehicle characterized by being equipped. 2. The drive wheels of a forward drive unit and a reverse drive unit are respectively supported on the lower side of the vehicle body so as to be able to move up and down.
The drive wheels of the forward or reverse drive unit descend,
2. The automatic guided vehicle according to claim 1, which moves forward or backward based on the rotation of the grounded drive wheel. 3. The turning prohibition means is attached to each of the forward drive and reverse drive units, and is rotated in conjunction with the ascending / descending of the drive wheels, and is attached to each free wheel and is connected to the stopper link via a wire. 3. The automatic guided vehicle according to claim 2, further comprising a stopper pin that locks in a notch provided in the free wheel according to the up and down movement of the drive wheel and prevents the free wheel from turning. 4. A stopper link attached to the forward drive unit is connected via a wire to a stopper pin attached to the rear free wheel, and a stopper link attached to the reverse drive unit attaches the wire. The stopper pin attached to the front free wheel through the stopper pin protrudes according to the descent of the drive unit and is locked in a notch provided in the free wheel. Automatic guided vehicle.