TH32018A - A method and device for automatically extending and retracting the antenna in a cordless phone. - Google Patents

Abstract

DC60 (14/12/44) when working like Opening or closing the front cover Or button operation Start communication Or end of communication appears The controller will request information. For elongation Or reverse the antenna Which depends on the information above The controller controls the motor driven by Intermittent supply which drives the motor signal Where the motor can turn clockwise or counterclockwise during the required pre-set intervals. For elongation And fully retract the antenna While driving the motor, if there is a blocking force to act on the antenna The controller will repeatedly pause, supplying the motor at a predetermined interval and resuming the signal. The gear set is firmly attached to the motor. To take the torque from the motor shaft and to extend and retract the antenna. To fix the motor And a set of gears to the cable compartment Air that can absorb external shocks that are sent to the motor. And the gear set through the air line and absorb the vibration of the motor When the front cover is opened Or the Start Communication button has been pressed by the user to use the cordless phone. The antenna will automatically extend from the antenna storage when the front cover is closed. Or the end button is pressed The antennas are automatically retracted into the antenna compartment. When it works like Opening or closing the front cover Or button operation Start communication Or end of communication appears The controller will request information. For elongation Or reverse the antenna Which depends on the information above The controller controls the motor driven by Intermittent supply which drives the motor signal Where the motor can turn clockwise or counterclockwise during the required pre-set intervals. For elongation And fully retract the antenna While driving the motor, if there is a blocking force to act on the antenna The controller will repeatedly pause, supplying the motor at a predetermined interval and resuming the signal. The gear set is firmly attached to the motor. To take the torque from the motor shaft and to extend and retract the antenna. To fix the motor And a set of gears to the cable compartment Air that can absorb external shocks that are sent to the motor. And the gear set through the air line and absorb the vibration of the motor When the front cover is opened Or the Start Communication button has been pressed by the user to use the cordless phone. The antenna will automatically extend from the antenna storage when the front cover is closed. Or the end button is pressed The antenna will be retracted by Automatically into the antenna storage compartment

Claims (8)

1. Method for stretching. And retracting the antenna automatically from And go into the storage compartment Antennas in wireless communication devices Where at least the steps of i) the use of information for extension And retract the antenna from the electrical signal corresponding to the commencement of communication And terminate the communication of the wireless communication device, ii) by using the said information. A motor drive signal is applied to the motor to turn the motor clockwise. And counterclockwise To drive such motor, iii) in parallel with driving such motor The accumulated driving time of the motor will be included and the time spent driving the motor will be compared. With a predetermined time During the call The air stretched. Or fully retract from or into the antenna storage compartment in the event that nothing interferes with driving the motor. Where the whole collection And the comparison is repeated cycles throughout the motor is driven iv). It is examined cyclically to see if the motor is carrying more than its relative load. When driving such a motor is less V) When the motor is loaded more than the aforementioned nominal time? Will be repeated According to the number of trips specified To stop the motor driving signal so that the motor driving signal is not supplied to the motor. For the specified time until To the motor state The overloaded comparator is canceled and vi), depending on each result of the aforementioned comparison, it switches off the motor drive signal to the motor. When the motor drive time is equal to the predetermined time 2. Method as stated in Clause 1, where such method Continue with Stages of setting assignments in sleep mode Which the way of control Which controls the driving of the motor during the period after the extension or retraction of the antenna from / into the antenna storage compartment Completed until the beginning Next communication Or termination The next communication appears again 3. The method described in Clause 1 where the motor signal is supplied by means of a signal. Drive such motor Shall be performed at intervals as specified in advance. 4. Procedures specified in Clause 1, where such audit To see if the motor was loaded more than the aforementioned comparable By checking that the current supplied In the way of motor control From the power source greater than the predetermined value? 5. The method specified in claim 1, where such an electrical signal Corresponding to the start of communication and the end of the communication is an electrical switching signal converted from the opening and closing of the front door of the wireless communication device. Or electric signal generated by the operation of the communication start button and the communication end button of the wireless communication device 6. Means as stated in Clause 1, where the aforementioned approach continues. with Procedures of automatic brace Which such antenna Into the antenna storage compartment When in a state where the motor is loaded more than the comparable value Was detected after repeating the interruption of the said motor drive signal. While stretching the antenna Out of the antenna storage compartment. 7. Equipment for extending. And automatically retracts the antenna from / into the storage compartment Antennas of a wireless communication device Such equipment comprises at least i) a motor including a motor shaft. To rotate the shaft of such a motor Clockwise Or counterclockwise with the motor drive signal that is supplied To generate rotational forces ii) control path To obtain information For elongation And retract the antenna from the electrical signal corresponding to the start of the communication And end the communication of the communication device Such wireless And depending on the said information Will be supplied to the motor by the said motor drive signal To turn the said motor clockwise And counterclockwise until the pre-set time has elapsed, during which the antenna is extended or fully retracted from Or into the storage compartment Such antenna in the absence of interference in the Drive the motor; iii) a modular gear unit, separable with the said motor. To pay for Such antenna With such rotational force Transmitted from the said motor shaft To extend / hold the antenna out of / into the antenna storage compartment 8. Equipment as specified in Clause 7, where such equipment consists of. Anchor path for tight fixation The motor assembly And the aforementioned gear set with Such antenna storage compartment 9. equipment as specified in Clause 7, where such equipment consists of. Way of absorption and retention to secure such motor assembly. And the aforementioned gear set To the antenna storage compartment And absorb the vibrations that occur when the motor is driven And absorb the external interference that is transmitted to the assembly through the said antenna. 1 0. Equipment as specified in Clause 7, where the control path will signal to drive the motor periodically. The motor is assigned to the said motor at a predetermined interval 1 1. The equipment specified in Clause 7, where such means of control. Where parallel to Driving of the motor Will accumulate when driving the motor And compare the aforementioned motor driving times with the previously set time Where the collection And the comparison repeats in cycles over time the motor is driven. And on the basis of each such iterative comparison, it is checked cyclically to see if the motor is loaded more than its counterpart when the motor is driven less than the set time. Before such When the motor is loaded more than the equivalent Which will be repeated within the maximum number of trips N of the interruption Motor driving signal So that it would not be supplied to the said motor. Is the time specified in advance Page until State at such motor And, based on such iterative comparison, Each time it stops the motor drive signal. As mentioned above to make such motor When driving the motor is equal to the pre-set time 1 2. Device for stretching. And retracting the antenna automatically From / into the bin Antennas of communication equipment Such equipment comprises at least i) a motor including a motor shaft. To rotate the shaft of such a motor Clockwise Or counterclockwise with the motor drive signal that is supplied To generate rotational forces ii) control path To request information For elongation And retract the antenna from the electrical signal corresponding to the commencement of communication And terminate the communication of the wireless communication device and, depending on the said information The motor is supplied with a driving signal. Such motor To turn the said motor clockwise And counterclockwise until the pre-set time has passed While the antenna is extended or fully retracted from or into the antenna storage compartment. In the absence of interference in the driving of such a motor Where payment The signal drives the motor to the said motor. Will be performed at intervals for a predetermined time and while driving the antenna The way of control will be sure Driving the antenna Such was disturbed And proceed in a predetermined way To deal with distractions When interfering to prevent such control methods Not to accept electrical damage And or / mechanical iii) a gear unit incorporating such a motor. To supply the antenna with the said wind Transmitted from the shaft of such motor To seize / brace Such antenna From / into the channel And iv) fixing route. To fix the motor assembly And the said gear set to The antenna storage compartment 1 3. Equipment as specified in Clause 12, where such means of control Where parallel to Driving the motor Will accumulate when driving the motor And compare the accumulated motor driving time With the time previously set Where the collection And the comparison is repeated around the clock as the motor is driven. And based on a iterative comparison Each time It is examined around the clock to see if the motor is carrying more than its relative load. When the motor driving time is less than the previously set time. And when the motor It has been a burden. Than the aforementioned comparable value Then it will repeat within the maximum number of trips N, which stops the signal Drive such motor So that it would not be supplied to such a motor as The predetermined time until the state at which the motor is loaded more than the said relative is canceled, and based on such iterative comparison, but and Will turn off the signal to drive the motor to Such motor When the aforementioned motor driving time is equal to the aforementioned predetermined time 1 4. Equipment specified in Clause 12 where the said control method consists of: The microprocessor To work with the built-in program predefined there and a new setting to reset the microprocessor. And the overcurrent measurement section To provide Information to the said microprocessor To see if the motor is loaded more than its relative value and the signal-clock segment When the signal is clocked to the microprocessor and the power source portion. To provide a constant voltage to the microprocessor The new setting, the overcurrent sensing part And part of the aforementioned clock signal 1 5. Equipment as stated in Clause 14, where the portion of such power source, including the zener diode, is connected to the power source. And the first resistor is connected to the zener diode, the microprocessor is connected to the said power source and the new setup. Will include the second resistor And the first capacitor Connected in series where the second resistor Is connected to the said power source. And both terminals of One such capacitor. Will be connected to the said microprocessor The overcurrent sensing section includes a transistor. And the third resistor is connected in series such a transistor where both collector And the base of the transistor Will be connected to the terminal of the first resistor As mentioned in order And emitter of the aforementioned transistor Will be connected to the said microprocessor And such a third resistor is grounded by its first terminal. And connected together with both emitters Of such transistors And microprocessors thereof By its second terminal and the segment of the aforementioned signal includes a fourth resistor. And the second capacitor per series With the aforementioned fourth resistor, where the fourth resistor Will connect to the first resistor as mentioned And the aforementioned microprocessor by its polarity respectively And the aforementioned second capacitor is grounded. By one pole of it The fourth resistor is not connected. 1 6. Method as described in Clause 12, where such control method Will be set in Sleep mode intermittently after completing the stretch. Or retract the antenna From / into the said antenna bay until the next start of such communication or the next termination of such communication appears 1 7. Equipment as specified in Clause 12, where the gear set It consists of at least a single splice box that can be separated from the motor Where the motor shaft will be supported in there And the air will pass through there, part of the first gear is installed on the said gearbox where the first gear will stretch parallel to the motor shaft. And obstructing the antenna Relative to the axis of the first gear To shift the rotation force From the shaft of such motor To both such antennas And the second gear that Installed on the aforementioned gear case where the second gear is held parallel to that part of the first gear. And obstructed with The antenna is relative to the axis of the second gear. To shift that rotation force from the gear section That one To the said antenna Where the whole part of the first gear And the second gear part This will pay the rotation force of the gear to the antenna. To move the antenna in a straight line. 1 8. Equipment as specified in Clause 17, where the motor consists of. An outer cap made of elastic material. And applied to the shaft of such motor To increase the friction between Shaft of such motor And part of the first gear. 1. 9. Equipment as specified in Clause 17, where part of the first gear and the part of the second gear. Each section has a predefined reduction ratio. According to the motor shaft, to generate greater torque than that of the motor shaft 2 0. The equipment specified in claim 17, where the aforementioned part of the first gear and the second gear part Each part has a rotatable gear shaft on the gear case, and the gears are made of flexible material that is joined together. Modular with the shaft of the said gear And has a reduced ratio as predetermined Along the shaft of such motor To create more torque Of the shaft of such motor 2 1. Equipment specified in Clause 17, where the aforementioned part of the first gear and the said second gear segment Each part is a series of friction-driven gears. Which will shift the rotation force From the shaft of such motor To the said antenna By the way of friction between the shafts of Such motor The part of the gear that is a pair. And such antenna 2 2. Equipment as set out in Clause 17, where the motor consists of A sawtooth gear that is firmly attached to the motor shaft. And parts of the first gear and parts of the second gear Each segment is a part of the sawtooth gear that moves the rotational force from the motor shaft to the antenna. By means of rotation between the shafts of Such motor A pair of sawtooth gears And such antenna 2 3.Equipment as defined in Clause 17, where the motor is comprised of A belt pulley that is tightly connected to the motor shaft. With the aforementioned gear set as well Belt and part of the first gear And part of the second gear Each gear set Conveyor belts, including pulleys, belts that move the rotation force. From the shaft of such a motor to Such antenna By the way of rotating belt drive between the motor shaft. The belt gear is a pair of such. And such antenna 2 4. Equipment specified in Clause 12, where at least the aforementioned gear set consists of: First sprocket And the second gear Where the first gear And each of the aforementioned second gears is made of an elastic material and is unified with both gear contacts. A cylindrical shape with a diameter Inside one And the first outer diameter And the antenna-shaped contact part Cylinder with diameter Inside that one And the second outer diameter smaller than the aforementioned outer diameter. Approximately equal to the outer diameter of the first gear shaft antenna And the second gear shaft with the first loop And the second noose respectively And gear boxes including discs The base will be exposed to the top of the motor. With the motor shaft mounted And the splice piece on The edge of the base plate For a tight splice that can be separated The gearbox is attached to the motor in the housing of the gear shaft connected parallel to the motor shaft. And bent parallel to the said base plate for rotating mounting The first gear shaft. And the aforementioned second gear shaft where the first hole The second and third holes are located at the first position of the base plate to be penetrated by the motor shaft and the second and third holes at the second position of the said base plate. To accommodate the first edge of the first gear shaft and the second gear shaft, respectively. And the fourth and fifth holes are located on the shaft of the said gear facing the second such hole. And the third such hole of the base plate To support the edge The second gear shaft and the second gear shaft, respectively And where, in the event of such a pair of gear shafts, the said pair will be mounted on the said gear case. The second and the third are separate. Like the fourth hole. And the fifth hole periodically In such a way that the antenna contacts Of the first gear And the second gear will be fixed together with the antenna. And at the same time The gear contact of the first gear And the second gear will hold together tightly And the first such hole and The second hole. Are separated periodically in such a way that the motor shaft Can be firmly attached to the contact parts Such gear of the first such gear 2 5. Equipment as specified in Clause 24, where the first gear And each second gear is made of flexible material. And integrates both the cylindrical gear contact with the first inner diameter and the first outer diameter and contact. A cylindrical antenna having a second inner diameter and a second outer diameter. Smaller diameter The aforementioned outer diameter is approximately equal to the outer diameter at which the said first inner diameter. Will be sized in such a way that the gears Each sprocket can Tightly coupled to each such gear shaft where the aforementioned second inner diameter is The diameter of the part where the loop of the gear shaft is Each shaft is built and where the outer diameter one of them is longer than that of the motor shaft. To create torque Greater with the predetermined reduction ratio Compared with the shaft of the aforementioned motor 2 6. Equipment as set out in Clause 24 of Clause 24 where the means of such fixation At least consisted of The fixing fastener extends horizontally from the edge of the base plate of the The aforementioned gear box And the arc protrudes in the direction of the coupling thereof Where the fixing groove will exist On both sides of the protruding part Vibration absorbers made with Elastic material, tightly fitting. In the fixing groove And is firmly inserted between the upper part of the surrounding surface of the motor and the fixing spacer. Where through which holes will be in them And the rivet that is firmly inserted into the through hole Of the aforementioned shock absorbers To fix the said motor assembly And the gear set and the antenna storage compartment 2 7.Equipment as set out in Clause 24, where the motor is comprised of First conveyor belt That is tightly joined together with the motor shaft The gear set at Continue with Belt to transmit rotation force The first gear shaft. And the second gear shaft Which continues with the second flywheel And the third flywheel respectively at the inner location of the noose. Such of it Where the diameter of the second pulley And the third such flywheel Each line is longer than that of the first pulley. To generate a large torque with a reduced ratio Preset Compared with the one above belt pulley And the aforementioned first and second gears, each made of flexible material, having a cylindrical shape. Where side diameter of It is worth the manner in which each such gear Can be tightly coupled with each such gear shaft And its outer diameter Has value in the manner in which the said gear Each gear can touch tightly With such antenna When the first gear And the second gear It is installed on the aforementioned gear case through the shaft of the first gear. And the shaft of the second gear Where the belt Will be attached to the three such belt pulley So that the first gear Can rotate in opposite direction Rotation of such motor shaft And the second gear Can rotate in the same direction as The direction of rotation of the motor shaft as mentioned 2 8.Equipment, as stipulated in Clause 24, where the motor is complemented by The first saw tooth is tightly joined together into one piece with Such motor shaft The first gear shaft and the second gear shaft Continue with Second sawtooth And the third gear Respectively at its inner location of the aforementioned noose. Where the diameter of the aforementioned second toothed gear and said third saw gear Each gear is longer than that of the first saw tooth. To create more torque In the reduced ratio as predetermined Compared with the first saw tooth and the first gear. And each of the aforementioned second gear Made with a flexible material with a shape. Cylindrical Where its inner diameter Has a value in the way that each such gear Can be tightly coupled with each such gear shaft And its outer diameter is valued in the manner that the gear Each gear can be in tight contact with the antenna. When the first gear And the second gear is mounted on the said gear case Through the aforementioned first gear shaft and the aforementioned second gear shaft of the aforementioned motor shaft. Fixed with sawtooth gear The aforementioned second of the aforementioned shaft of the first gear And the second sawtooth gear of the gear shaft The first one is attached to the aforementioned third toothed gear. Of the second gear shaft