WO2006048435A1 - Remote control method and device - Google Patents

Abstract

The device (100) for transmitting remote controls is characterized in that it comprises a remote control code generating means (105, 110, 115) capable of generating a remote control code. The inventive device comprises at least: a first part depicting the transmitting device (100), and; a second part depicting an identifier of at least one receiver (150) to be controlled remotely. Preferably, the transmitting device comprises a memory for storing the identification code of the transmitter, the remote control code generating means being configured, at each setting transmitted by the transmitting device, for adding the identification code of the transmitter in order to constitute the first portion of the remote control code.

Description

 REMOTE CONTROL METHOD AND DEVICE

The present invention relates to a method and a remote control device. It applies, in particular to the remote control of devices distributed over several sites.

Many methods and remote control devices are known. These devices are usually paired, that is, one transmitter can only control one receiver. These remote control devices are not suitable for situations where many receivers are remotely controlled, individually and successively.

Other so-called universal remote control devices emit identical remote control signals for all receivers. When several receivers are within range of the transmitter, they may all react uniformly, which is not always desirable.

In addition, current remote control systems do not allow to control, with the same remote control, a large number of receivers.

The present invention aims to remedy these drawbacks and, in particular, to make it possible at the same time to avoid interference between transmitters and receivers that do not have the same user or owner and to allow the same transmitter to be able to control individually and successively several receivers.

For this purpose, the present invention aims, in a first aspect, a transmitter device remotes, characterized in that it comprises a keyboard on which is entered an identifier of at least one receiver to remote control and said device further comprising a remote control code generation means adapted to generate a remote control code which comprises, at least:

a first part which is representative of the transmitting device and

- A second part which is representative of an identifier of at least one remote control receiver entered on said keyboard.

Thanks to these provisions, the user can choose which receiver (s) he wants to remotely by entering, on the keypad, an identifier of this (these) receiver (s). In addition, each receiver can be controlled independently of the other receivers or by receiver subgroup and each receiver can identify the transmitter that is authorized to remotely control it. It will be observed here that the terms first part and second part do not prejudge the order in which these two parts are issued, the first part being emitted before or after the second part.

According to particular features, the transmitter device comprises an identification code memory of the transmitter, the remote control code generation means being adapted, at each setpoint transmitted by the transmitting device, to add the identification code of the transmitter. transmitter to form the first part of the remote control code. Thanks to these provisions, the user of the sending device does not have to enter the code of the transmitter each time he remote control a receiver.

According to particular characteristics, the keyboard comprises:

a first set of keys making it possible to enter an identifier of the receiver to be remotely controlled and

a second set of keys, disjoined from the first set of keys making it possible to enter an identifier of the remote-controlled function.

Thanks to these provisions, the user can independently enter the identifier of the receiver and the function that wants to remote control with this receiver. According to particular characteristics, in the second set of keys, each key is associated with a particular function that can be remotely controlled. Thanks to these provisions, the use of the remote control is easy. According to particular features, the transmitting device as briefly described above comprises a receiver identifier memory which retains the last receiver identifier that has been inputted and, whenever a function is remotely controlled, if no new identifier The remote control code generation means reads from said receiver the last identifier that has been entered and inserts it into the remote control code.

Thanks to these provisions, when several successive functions must be remotely controlled with the same receiver, the user does not have to enter the same receiver identifier several times.

According to particular features, the transmitting device comprises means for parameterizing the receiving devices which is authorized to remotely control, said setting means being adapted to control the storage by each said receiving device of the code identifying the transmitting device.

Thanks to these provisions, the user can choose an issuer identifier different from the one that has been assigned by default, for example at the time of manufacture, for example to avoid interference. With these same provisions, the user can add receiving devices in all receivers that he is able to remote control with the same transmitter device.

The present invention aims, according to a second aspect, a remote control receiver device, characterized in that it comprises a remote control code receiving means and a processing means of each received remote control code to take into account only the codes of remote control. remote control which comprise, at least: - a first part which is representative of a transmitter device associated with said receiver device and a second part which is representative of an identifier of said receiver device. Thanks to these arrangements, each receiver can be controlled independently of the other receivers and each receiver can identify the transmitter that is authorized to remotely control it. It is observed here that the terms "first part" and "second part" do not prejudge the order in which these two parts are issued, the first part being emitted before or after the second part.

According to particular characteristics, the receiver comprises a remote-controlled motor adapted to put in motion a poster. With these provisions, the same remote control can be used to set up vertical posters, for example in supermarkets, each poster being set in motion by a receiver.

According to particular characteristics, the receiving device comprises:

a memory of at least one transmitter identification code, a memory of at least one receiver identification code and

- Comparison means adapted to compare the first part of remote control codes received with the identification code of the transmitter stored in memory and the second part of remote control codes received with the identification code of the receiver stored in memory. It is observed that it is not necessary that all the first parts of remote control codes are compared with the transmitter identification code stored in memory but only the first parts of the identification codes, the second part of which corresponds to the code receiver stored in memory. Similarly, it is not necessary that all the second parts of remote control codes are compared with the receiver code stored in memory but only the second parts of the identification codes whose first part corresponds to the identification code of transmitter stored in memory.

When several transmitter codes are stored in memory by a receiver, it can be controlled by several transmitters. When several receiver codes are stored in memory by the receiver, it can be controlled individually or in groups, with other receivers that retain in memory the same receiver code.

According to particular features, the receiver device as briefly described above comprises a setting means adapted to recognize a predetermined remote control code and, when this predetermined remote control code is recognized, to control the storage by said receiving device of a code identifying the transmitting device transmitted by said transmitting device. Thanks to these provisions, the user can choose an issuer identifier different from the one that has been assigned by default, for example at the time of manufacture, for example to avoid interference. With these same provisions, the user can add receiving devices in all receivers that he is able to remote control with the same transmitter device.

The present invention aims, according to a third aspect, a method of transmitting remote controls, characterized in that it comprises a remote control code generating step which comprises, at least:

a first part which is representative of the transmitting device and a second part which is representative of an identifier of at least one receiver to be remotely controlled.

The present invention aims, in a fourth aspect, a method of receiving remote controls, characterized in that it comprises a step of receiving remote control code and a step of processing each received remote control code to take into account codes only remote control devices that include, at least:

a first part which is representative of a transmitting device associated with said receiving device and

a second part which is representative of an identifier of said receiver device. The advantages, aims and particular characteristics of these methods being similar to those of the corresponding devices, they are not recalled here.

The present invention also provides a method and a poster positioning device. It applies, in particular to the positioning of advertising posters or information suspended in public or private places, such as supermarkets, halls of public buildings, There are many known methods and poster positioning devices which comprise a support itself suspended, for example by metal cables or chains, to the ceiling. When changing the poster, it may happen that the height of the new poster is different from the height of the poster previously suspended. The user is then obliged to take a stepladder to change the height of the support by lengthening or shortening the length of the cables or chains, failing which, the lower part of the poster is either too high and visitors may not to notice it, too low and the visitors can be embarrassed by the lower part of the poster which cuts their sight or their path. This manipulation is long, tedious and expensive and can disrupt the activity due to the presence of the ladder used. The present invention aims to remedy these disadvantages. To this end, the present invention aims, in a fifth aspect, a poster positioning device, characterized in that it comprises:

- A poster positioning means adapted to position the lower part of the poster near the ground, in a first position and - a poster raising means of a predetermined height, from said first position.

With these provisions, the user is sure that the lower part of the poster will always be at the predetermined height, regardless of the height of the poster.

According to particular features, the poster positioning device as briefly described above includes a remote control adapted to control a motor for raising and lowering the poster.

With these provisions, the replacement of the poster can be done without having to use a stepladder or ladder, ordering the descent of the old poster to remove it from its support and attach a new poster. According to particular features, the positioning device as briefly described above comprises a ground contact sensor adapted to control the stopping of the descent of the poster and to provide the reference position with respect to which the poster is raised.

Thanks to these provisions, the reference position is automatic. According to particular characteristics, the ground contact sensor is supported by a poster support or by a wire which supports said poster support.

According to particular features, the positioning means and the raising means comprise a motor connected to a support of the poster.

According to particular features, said motor is connected to a position or displacement sensor.

Thanks to these provisions, the distance traveled during the ascent can be precisely determined.

According to particular features, said position or displacement sensor comprises a non-contact sensor, Hall effect or optical component. According to particular features, said position or displacement sensor comprises a magnetic ring connected to a movable part on which at least one poster support wire is wound.

The present invention aims, in a sixth aspect, a poster positioning method, characterized in that it comprises: - a poster positioning step for positioning the lower part of the poster near the ground, in a first position and a step of raising the poster by a predetermined height, starting from said first position.

Since the advantages, aims and particular characteristics of said method are similar to those of the poster positioning device, as briefly described above, these are not recalled here.

Other advantages, aims and features of the present invention will emerge from the description which follows, made for an explanatory and non-limiting purpose with reference to the appended drawings in which:

FIG. 1 represents, schematically, a particular embodiment of the device that is the subject of the first two aspects of the present invention,

FIG. 2 represents a flow chart of operation of the device illustrated in FIG.

1

FIG. 3 schematically represents a particular embodiment of the positioning device according to the fifth aspect of the present invention and FIGS. 4A and 4B represent, in the form of a logic diagram, a particular embodiment of the process which is the object of the invention. sixth aspect of the present invention.

In the description, an application of the present invention has been chosen to control the movement of an engine, for example to move a poster. However, the present invention is not limited to this type of application but extends, on the contrary, to all remote control applications, for example remote control switch, dry contact, timer, lamp, automation, opening or home automation ...

FIG. 1 shows a transmitter 100 comprising a twelve-key keyboard 105 (numerical keys "0" to "9" and "*" and "#" keys), an identification code memory of the transmitter 110 , a memory of a last captured receiver identification code 115, a means for transmitting remote requests 120. FIG. 1 also shows a receiver 150 comprising a reception means 155, an identification code memory corresponding transmitter 160, a receiver identification code memory 165, a vertical movement motor 170 of a suspended poster 175, a predetermined code identification memory 180, and code portion comparison means 185. The identification code memory of the transmitter 110 is non-volatile. The remote request transmission means 120, or means for generating remote control codes, is adapted to generate requests or remote control codes which comprise, at least:

a first part which is representative of the transmitting device and

a second part which is representative of an identifier of the remote control receiver inputted to the keyboard 105. The remote control code generation means is adapted, at each setpoint transmitted by the transmitter, to add the identification code of the transmitter to form the first part of the remote control code.

The reception means 155 is adapted to receive requests sent by the transmitter. The code portion comparison means 185 is adapted to compare the portions of the requests that identify the intended transmitter and receiver with the contents of the transmitter ID code memory 160 and the ID code memory. receiver 165 and, only in case of correspondence, to take into account and perform the remote control function.

In the embodiment illustrated in the figures, a transmitter can control up to 10,000 different devices or receivers, the two remote control functions of the receiver being associated with two channels (each representing one of the functions to be controlled or performed by the receiver). receiver) accessed by the "*" and "#" keys of the transmitter, respectively.

For example, entering "1" then "*" indicates that the controlled device is the one that has the code "1" and that it is controlled with the first channel. Similarly, entering "1" then "#" indicates that the controlled device is one that has the code "1" and that it is controlled with the second channel.

In the embodiment described and shown, the code sent by the issuer is composed of four digits identifying the device to be controlled, five digits identifying the owner of the transmitter and the devices to be controlled, and a corresponding number. to the channel or function to be performed.

The operation of the device is as follows:

To control a device, the user enters, with the keypad of the transmitter:

- The number of the device he wants to control (between 0 to 9999 in the embodiment described and shown), - then "*" to operate the first channel or "#" to operate the second channel.

It is observed that, if the user directly enters "*" or "#", the sender will send the last code identifying a previously entered device and the channel of the newly used key. For example, entering "17" then "*" indicates that the controlled device is one that has the code "17" and that it is controlled with the first channel. Then enter "#" indicates that the controlled device is, again, the one that has the code "17" and that it is commanded with the second channel.

Thus, preferably, the transmitter includes a receiver identifier memory that retains the last receiver identifier that has been entered and, whenever a function is remote controlled, if no new receiver identifier has been entered, the remote control code generating means reads from said memory the last identifier that has been entered and inserts it into the remote control code. To enter programming mode, the user enters the following combination: "0", "*", "0", "#" and "*". To confirm the correct reception of this code, a red light-emitting diode illuminates continuously, meaning that the transmitter is in programming mode (for a duration of ten seconds: if no operation is performed during this time, transmitter automatically returns to command mode).

Once in programming mode to program the main code, which identifies the owner of the issuer and devices to order, you need to type a combination with 5 digits each between 0 and 9. After the 5 ^th digit entered, the red light-emitting diode flashes 5 times, and the transmitter automatically exits the programming mode. Thus, the transmitter comprises means for parameterizing the receiving devices that it is authorized to remotely control, said setting means being adapted to control the storage by each said receiving device of the code identifying the transmitting device.

Preferably, the transmitter sends at least four sets of data:

the identification of the site, which makes it possible to prevent a remote control from disturbing another site or being able to be used therein, this site identification thus limiting the risks of theft of the remote control,

- the identification of the issuer,

- the identification of the receiver (s) to be remoteled and

- identification of the remote control function to be performed by the receiver. The receiver device comprises a setting means adapted to recognize a predetermined remote control code and, when it recognizes this predetermined remote control code, the setting means controls the storage of a code identifying the transmitting device from the transmitting device.

To vertically move the suspended poster 175, the user uses the keyboard keys as follows:

it first selects the code identifying the receiver associated with the poster to be moved,

- he presses the "#" key for the poster to go down,

- he presses the "*" key for the poster to go up,

- if it is pressed again on one of the keys "#" or "*" during its descent, the poster stops, - if it re-presses on one of the keys "#" or "* "while the poster goes up, the poster stops, except for the first climb,

- after a stop, pressing the "#" or "*" keys causes the poster to descend or go up, respectively.

FIG. 2 shows a step 200 of initialization of at least one transmitter and at least one receiver. During this step 200, a transmitter code is stored in the non-volatile memory of each transmitter and, in the non-volatile memory of each receiver, at least one receiver code and possibly a transmitter code. Step 200 can be done at the factory, during transmitter and receiver tests.

During a step 205, the receivers are installed, that is to say that they are connected to a power source and an object to be controlled. For example the receiver has a remote control engine adapted to put a poster in motion.

During a step 210, at least one receiver is put in programming mode. During a step 215, the operating parameters are stored in the nonvolatile memory by the receiver, for example a poster movement travel length, a traveling speed, a waiting time, etc. During a step 220, at least one receiver stores at least one transmitter code authorized to remotely control said receiver. For this purpose, a request for a remote control is made by each transmitter concerned and the receiver extracts the part of the request which includes the transmitter code and stores it in non-volatile memory.

During a step 225, the receivers are output from the programming mode of operation.

During a step 230, a user enters, on the keypad of a remote control having an authorized transmitter code for at least one given receiver, a receiver code and, optionally, a command to be executed (for example via a channel, as shown in Figure 1). During a step 235, the transmitter stores the received code that has been entered.

During a step 240, the issuer issues a request that includes, at least:

a first part which is representative of the transmitting device, or transmitter code and

a second part which is representative of an identifier of the receiver to be remotely controlled, or a receiver code. Optionally, the request also includes an identifier of the command to be performed.

Thus, the transmitter is adapted, each request or setpoint transmitted by the transmitter, to add the identification code of the transmitter to form the first part of the remote control code.

During a step 245, the receiver receives the request sent by the transmitter. During a step 250, the receiver compares the first remote control code portion with the transmitter code (s) that it stores in memory and the second remote control code portion with the receiver code (s) that it stores in memory. and, in the case of a double match, the receiver performs the command.

During a step 255, the user sends a new request, by pressing a keyboard key, for example a key concerning a command to be performed. During a step 260, the transmitter sends a request that includes, at least: a first part which is representative of the transmitting device, or transmitter code and

a second part which is representative of an identifier of the receiver to be remotely controlled, or a receiver code.

Optionally, the request also includes an identifier of the command to be performed. Note that the receiving code does not need to be re-entered each time a request is to be issued because it is stored in memory (see step 235) by the sender and re-transmitted in each query until it is modified by the user.

Thus, the transmitter is adapted to each command made by the user without specifying a receiver code, to add the last identification code of the receiver that has been specified by the user to form the second part of the remote control code.

Then one of the steps 230 or 255 is repeated, depending on whether the user enters a receiving code with a command or a single command, respectively, possibly with other receiver codes and / or another transmitter.

When several transmitter codes are stored in memory by a receiver, it can be controlled by several transmitters. When several receiver codes are stored in memory by the receiver, it can be controlled individually or in groups, with other receivers that retain in memory the same receiver code.

FIG. 3 shows a remote control transmitter 300 and a remote control receiver 310 comprising a push-button 305, an electronic circuit 315 comprising a memory 317 and an indicator light 319, an electric motor 320, two support wires 335 and 340 supporting a poster 350, through a support (not shown) and a contact sensor 360. The support son 335 and 340 wind on a winder 325 connected to the motor 320. The winder 325 carries, on its moving part, a magnetic ring 327 and, on its fixed part, a hall effect sensor 330. The remote control transmitter 300 and the remote control receiver 310 are adapted to communicate instructions for descent and ascent of the poster 350, according to known techniques. It is observed that the command transmission channel can be radio, luminous, for example infrared, sonic or ultrasonic or any other known channel.

The electronic circuit 315 is adapted to receive and carry out the commands of the motor 320 corresponding to these setpoints and to receive the signals from the Hall effect sensor 330 and the contact sensor 360 to position the poster as indicated below.

The memory 317 stores information representative of a reference height at which the bottom of the poster 350 must be located. The motor 320 is of known type. The support son 335 and 340 support the poster 350 by its upper part. The contact sensor 360 is adapted to emit a signal representative of the contact between the bottom of the poster 350 and the ground. In the As shown, the contact sensor 360 is a voltage sensor of the support wire 340.

The moving part of the winder 325 is driven by the motor 320 and drives the support son 335 and 340. The magnetic ring 327 is adapted to influence the hall effect sensor 330 for it to emit a signal representative of the passage of the magnetic ring 327 facing said Hall effect sensor 330.

The electronic circuit 315 is adapted, upon a descent of the display 350, to initialize a signal counter of the Hall effect sensor 330, as soon as the contact sensor 360 indicates that the bottom of the sign touches the ground. Simultaneously, the electronic circuit 315, changes direction of rotation of the motor 320 for the poster goes back. The electronic circuit 315 then counts the number of signals coming from the Hall effect sensor 330 until this counter indicates the same value as that conserved in the memory 317. As soon as this event occurs, the electronic circuit stops the motor 320 and the lower part of the poster is at a predetermined height.

Thus with the help of the remote control transmitter 300, the operator controls the descent and the stopping of the poster and can change the poster. Then, still thanks to the transmitter of the remote control 300, the operator controls the descent of the poster to the ground and without waiting for it to be fully raised or even that it has reached the ground, it can move to the next poster.

To program the predetermined height, the operator enters the programming mode by pressing a push-button 305 of the receiver 310 for five seconds, until the indicator light 319, for example a light-emitting diode, turns off and on again. then flashes steadily.

Then, each time the push-button 305 is pressed, the electronic circuit 315 increments the short flashing number (s) of the light-emitting diode 319 in a cycle, this number representing the setpoint height of the bottom of the displays: - initially, a flicker corresponds to a height of two meters,

- after pressing the push-button 305, two flashes correspond to a height of 2.25 meters,

- After pressing button 305 again, three flashes correspond to a height of 2.5 meters, and so on up to eight flashes corresponding to a height of 3.75 meters.

A ninth pressure causes a return to the start (a single flash corresponding to a height of two meters).

To program an identification code for a remote control transmitter (up to three transmitter codes can be registered), the operator remains in programming mode and sends the desired code with the remote control transmitter by simulating a command function, remote. As soon as the new transmitter code has been memorized by the receiver 310 in the memory 317, the flashing of the light-emitting diode 319 changes rhythm (off one second, on for two seconds, off for one second ...).

To exit programming, the operator presses again for five seconds on the push button 305 and the light emitting diode 319 turns off once and turns on again. In normal operation (that is to say outside the programming phases), when the operator carries out a remote control with a remote control transmitter 300 whose code is stored in memory 317, the electronic circuit 315 causes the rotation of the engine 320 for the poster 350 to descend. A new command causes the engine to stop (for example, to change the poster). Then a new command causes the motor 320 to rotate for the display to rise. If no new commands are made, the display returns to the initial position, thanks to the memorization of the number of pulses emitted by the Hall effect sensor during the descent and the counting of the pulses emitted by the Hall effect sensor. during the ascent. If a new command is made during the ascent, the direction of rotation of the motor 320 is reversed for the poster to go down. If, during a phase of descent of the poster, the poster touches the ground, the support wires

335 and 340 relax, which is perceived by the contact sensor 360. The electronic circuit 315 then reverses the direction of rotation of the electric motor 320 so that the poster goes back up, initializes the pulse counter and causes a rise in the displays until the stored number of pulses, corresponding to a predetermined bottom height of the poster, is reached.

It is observed that if the contact sensor detects that the support wire to which it is attached expands outside a descent phase of the poster following the first phase of rise, descent phase triggered by remote control), the circuit 315 causes a stopping of the electric motor 320. It is also observed that if, during a rising phase of the display, the pulse sensor detects no pulse for a predetermined duration greater than the normal duration between two pulses at the end of the display. during the rotation of the motor during a recovery, the electronic circuit 315 causes the engine 320 to stop. Indeed, the display can be blocked or in abutment and, to protect the motor 320, it is preferable to Stop. It is also observed that the remote control transmitter 300 can control the movement of several posters by being recognized by them as one of the transmitters authorized to remotely control them.

In addition, each memory 317 of a receiver 310 is adapted to retain several transmitter identification codes 300 for example to maintain an individual code, a first receiver group code common to several receivers and a second group code. receivers common to several receivers. As a variant, the Hall effect sensor is replaced by another type of non-contact sensor, for example an optical component for measuring the displacement of the poster or by a contact component, for example a switch closed by a moving part. during the movement of the poster. FIG. 4A shows a step 400 of initialization of a transmitter and a receiver so that the receiver recognizes the transmitter, by the identification code of the transmitter, and the instructions or commands which are intended receiver, by recognition of its receiver identification code. During step 400, the receiver is programmed, as indicated above, and in particular the predetermined upward rise height of the posters from the ground contact.

During a step 405, the receiver determines whether it has received a control signal from an authorized transmitter, that is to say from which it retains an identifier in memory.

If the result of step 405 is negative, step 405 is repeated.

If the result of step 405 is positive, during a step 410, the receiver causes the descent of the poster and stores the descent length, by storing the number of pulses of the Hall effect sensor.

Then, during a step 415, the receiver determines whether it has received a control signal from an authorized transmitter, that is to say from which it retains an identifier in memory.

If the result of step 415 is positive, during a step 420, the receiver causes a stop of the poster.

Then, during a step 425, the receiver determines whether it has received a control signal from an authorized transmitter, that is to say, it retains an identifier in memory.

If the result of step 425 is positive, during a step 430, the receiver causes a rise in the display and counts the pulses of the Hall effect sensor of the number of pulses counted during step 410 Then, in a step 435, the receiver determines whether the pulse counter has not sent a signal for a predetermined duration. If so, during a step 440, the receiver stops the display and returns to step 405.

Then, during a step 445, the receiver determines whether the pulse counter has returned to zero. If so, step 440 is performed. If the result of step 445 is negative, during a step 450 (FIG. 4B), the receiver determines whether it has received a control signal from an authorized transmitter, that is, say which he keeps an identifier in memory.

If the result of step 450 is negative, step 430 is continued. If the result of step 450 is positive, during a step 455, the receiver causes the descent of the poster. Then, during a step 460, the receiver determines whether a contact of the bottom of the poster with the ground takes place, by determining the state of the contact sensor 360.

If the result of step 460 is negative, step 410 is continued. If the result of step 460 is positive, during a step 465, the receiver causes the poster to be raised, initializes its pulse counter to zero and during a step 470, counts, in this counter, each pulse it receives from the Hall effect sensor.

Then, during a step 475, the receiver determines whether the pulse counter has not sent a signal for a predetermined duration. If so, step 440 is performed. Otherwise, during a step 480, the receiver determines whether the value of the pulse counter is equal to the number of pulses corresponding to the predetermined height stored in step 400.

Otherwise, step 470 is continued. If the result of step 480 is positive, step 440 is performed. Thus with the help of the remote control transmitter 300, the operator controls the descent and the stopping of the poster and can change the poster. Then, still thanks to the transmitter of the remote control 300, the operator controls the descent of the poster to the ground and without waiting for it to be fully raised or even that it has reached the ground, it can move to the next poster.

In normal operation (that is to say outside the programming phases), when the operator carries out a remote control with a remote control transmitter 300 whose code is stored in memory 317, the electronic circuit 315 causes the rotation of the engine 320 for the poster 350 to descend. A new command causes the engine to stop (for example, to change the poster). Then a new command causes the motor 320 to rotate for the display to rise. If no new order is made, the poster will return to its original position. If a new command is made during the ascent, the direction of rotation of the motor 320 is reversed for the poster to go down.

Claims

1 - Transmitter device remotes (100), characterized in that it comprises a keyboard (105) on which is entered an identifier of at least one receiver remote control said device being further equipped with a code generation means remote control unit (105, 110, 115) adapted to generate a remote control code which comprises, at least:

a first part which is representative of the transmitting device (100) and

a second part which is representative of an identifier of at least one receiver (150) to be remotely controlled on said keyboard.

2 - transmitter device according to claim 1, characterized in that it comprises an identification code memory of the transmitter (110), the remote control code generation means being adapted to each instruction transmitted by the transmitting device , to add the identification code of the transmitter to form the first part of the remote control code.

3 - transmitter device according to any one of claims 1 or 2, characterized in that said keyboard (105) comprises: - a first set of keys for entering an identifier of the receiver to remote control and

a second set of keys, disjoined from the first set of keys, making it possible to enter an identifier of the remote-controlled function.

4 - transmitter device according to claim 3, characterized in that, in the second set of keys, each key is associated with a particular function that can be remote controlled.

5 - transmitting device according to any one of claims 1 to 4, characterized in that it comprises a receiver identifier memory (115) which retains the last receiver identifier that has been entered and, whenever a function is remotely controlled, if no new receiver identifier has been entered, the remote control code generation means reads from said memory the last identifier that has been entered and inserts it into the remote control code.

6 - Transmitting device according to any one of claims 1 to 5, characterized in that it comprises a parameterizing means of the receiving devices which is authorized to remote control, said setting means being adapted to control the storage by each said receiving device code identifying the transmitting device.

7 - Remote control receiving device (150), characterized in that it comprises a remote control code receiving means (155) and a processing means (160, 165, 180, 185) of each remote control code received for take into account that remote control codes which include, at least: a first part which is representative of a transmitting device associated with said receiving device and a second part which is representative of an identifier of said receiver device.

8 - receiving device according to claim 7, characterized in that it comprises a remote control motor (170) adapted to set in motion a poster (175).

9 - receiving device according to any one of claims 7 or 8, characterized in that it comprises:

a memory of at least one transmitter identification code (180),

a memory of at least one receiver identification code (165) and

a comparison means (185) adapted to compare the first part of remote control codes received with the identification code of the transmitter stored in memory and the second part of remote control codes received with the identification code of the receiver retained; in memory.

Receiving device according to any one of claims 7 to 9, characterized in that it comprises a setting means adapted to recognize a predetermined remote control code and, when this predetermined remote control code is recognized, to control the storage by said device receiving a code identifying the transmitting device transmitted by said transmitting device.

11 - Poster positioning device (350), characterized in that it comprises:

an emitting device according to any one of claims 1 to 6,

- A receiving device according to any one of claims 7 to 10, - poster positioning means (315, 320) adapted to position the lower part of the poster near the ground, in a first position and

a means for raising the poster (315, 360) by a predetermined height, from said first position.

12 - poster positioning device (350) according to claim 11, characterized in that it comprises a remote control (300) adapted to control a rising and falling motor (320) of the poster (350).

13 - poster positioning device (350) according to any one of claims 11 or 12, characterized in that it comprises a ground contact sensor (360) adapted to control the stop of the descent of the l displays and provides the reference position against which the poster is reported.

14 - poster positioning device (350) according to any one of claims 11 to 13, characterized in that the ground contact sensor (360) is supported by a poster support or by a wire which supports said poster support.

15 - poster positioning device (350) according to any one of claims 11 to 14, characterized in that the positioning means and the raising means comprise a motor (320) connected to a support (335, 340) of the poster (350). 16 - poster positioning device (350) according to claim 15, characterized in that said motor (320) is connected to a position sensor or displacement (330) of the motor.

17 - poster positioning device (350) according to claim 16, characterized in that said position or displacement sensor comprises a non-contact sensor (330), Hall effect or optical components.

18 - poster positioning device (350) according to claim 17, characterized in that said position or displacement sensor comprises a Hall effect sensor (330) and a magnetic ring (327) connected to a movable part on which wraps at least one support wire (335, 340) of the poster (350). 19 - poster positioning device (350) according to claim 16, characterized in that said position or displacement sensor (330) comprises a sensor with electrical contacts caused by the movement of the poster (350).